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Adasme, Melissa F. ; Bolz, Sarah Naomi ; Al-Fatlawi, Ali ; Schroeder, Michael: Decomposing compounds enables reconstruction of interaction fingerprints for structure-based drug screening. In: Journal of Cheminformatics vol. 14, Springer Science and Business Media LLC (2022), Nr. 1
Ajjour, Yamen ; Braslavski, Pavel ; Bondarenko, Alexander ; Stein, Benno: Identifying argumentative questions in web search logs.. In: Proceedings of the 45th International ACM SIGIR Conference on Research and Development in Information Retrieval. Madrid Spain : ACM, 2022
Akiki, Christopher ; Gienapp, Lukas ; Potthast, Martin: Tracking Discourse Influence in Darknet Forums, arXiv (2022)

This technical report documents our efforts in addressing the tasks set forth by the 2021 AMoC (Advanced Modelling of Cyber Criminal Careers) Hackathon. Our main contribution is a joint visualisation of semantic and temporal features, generating insight into the supplied data on darknet cybercrime through the aspects of novelty, transience, and resonance, which describe the potential impact a message might have on the overall discourse in darknet communities. All code and data produced by us as part of this hackathon is publicly available.
Akiki, Christopher ; Pistilli, Giada ; Mieskes, Margot ; Gallé, Matthias ; Wolf, Thomas ; Ili’c, Suzana ; Jernite, Yacine: BigScience: A case study in the social construction of a multilingual large language model, arXiv (2022)

The BigScience Workshop was a value-driven initiative that spanned one and half years of interdisciplinary research and culminated in the creation of ROOTS, a 1.6TB multilingual dataset that was used to train BLOOM, one of the largest multilingual language models to date. In addition to the technical outcomes and artifacts, the workshop fostered multidisciplinary collaborations around large models, datasets, and their analysis. This in turn led to a wide range of research publications spanning topics from ethics to law, data governance, modeling choices and distributed training. This paper focuses on the collaborative research aspects of BigScience and takes a step back to look at the challenges of large-scale participatory research, with respect to participant diversity and the tasks required to successfully carry out such a project. Our main goal is to share the lessons we learned from this experience, what we could have done better and what we did well. We show how the impact of such a social approach to scientific research goes well beyond the technical artifacts that were the basis of its inception.
Akshay, Akshay ; Abedi, Masoud ; Shekarchizadeh, Navid ; Burkhard, Fiona C ; Katoch, Mitali ; Bigger-Allen, Alex ; Adam, Rosalyn M ; Monastyrskaya, Katia ; Gheinani, Ali Hashemi: MLcps: machine learning cumulative performance score for classification problems. In: Gigascience vol. 12 (2022)

BACKGROUND: Assessing the performance of machine learning (ML) models requires careful consideration of the evaluation metrics used. It is often necessary to utilize multiple metrics to gain a comprehensive understanding of a trained model's performance, as each metric focuses on a specific aspect. However, comparing the scores of these individual metrics for each model to determine the best-performing model can be time-consuming and susceptible to subjective user preferences, potentially introducing bias. RESULTS: We propose the Machine Learning Cumulative Performance Score (MLcps), a novel evaluation metric for classification problems. MLcps integrates several precomputed evaluation metrics into a unified score, enabling a comprehensive assessment of the trained model's strengths and weaknesses. We tested MLcps on 4 publicly available datasets, and the results demonstrate that MLcps provides a holistic evaluation of the model's robustness, ensuring a thorough understanding of its overall performance. CONCLUSIONS: By utilizing MLcps, researchers and practitioners no longer need to individually examine and compare multiple metrics to identify the best-performing models. Instead, they can rely on a single MLcps value to assess the overall performance of their ML models. This streamlined evaluation process saves valuable time and effort, enhancing the efficiency of model evaluation. MLcps is available as a Python package at https://pypi.org/project/MLcps/.
Akshay, Akshay ; Katoch, Mitali ; Abedi, Masoud ; Shekarchizadeh, Navid ; Besic, Mustafa ; Burkhard, Fiona C ; Bigger-Allen, Alex ; Adam, Rosalyn M ; Monastyrskaya, Katia ; et al.: SpheroScan: a user-friendly deep learning tool for spheroid image analysis. In: Gigascience vol. 12, Oxford University Press (OUP) (2022)

BACKGROUND: In recent years, 3-dimensional (3D) spheroid models have become increasingly popular in scientific research as they provide a more physiologically relevant microenvironment that mimics in vivo conditions. The use of 3D spheroid assays has proven to be advantageous as it offers a better understanding of the cellular behavior, drug efficacy, and toxicity as compared to traditional 2-dimensional cell culture methods. However, the use of 3D spheroid assays is impeded by the absence of automated and user-friendly tools for spheroid image analysis, which adversely affects the reproducibility and throughput of these assays. RESULTS: To address these issues, we have developed a fully automated, web-based tool called SpheroScan, which uses the deep learning framework called Mask Regions with Convolutional Neural Networks (R-CNN) for image detection and segmentation. To develop a deep learning model that could be applied to spheroid images from a range of experimental conditions, we trained the model using spheroid images captured using IncuCyte Live-Cell Analysis System and a conventional microscope. Performance evaluation of the trained model using validation and test datasets shows promising results. CONCLUSION: SpheroScan allows for easy analysis of large numbers of images and provides interactive visualization features for a more in-depth understanding of the data. Our tool represents a significant advancement in the analysis of spheroid images and will facilitate the widespread adoption of 3D spheroid models in scientific research. The source code and a detailed tutorial for SpheroScan are available at https://github.com/FunctionalUrology/SpheroScan.
Al-Fatlawi, Ali ; Afrin, Nazia ; Ozen, Cigdem ; Malekian, Negin ; Schroeder, Michael: NetRank Recovers Known Cancer Hallmark Genes as Universal Biomarker Signature for Cancer Outcome Prediction. In: Frontiers in Bioinformatics vol. 2, Frontiers Media SA (2022)
Alamo, Diego ; Meiler, Jens ; Mchaourab, Hassane: Principles of Alternating Access in LeuT-fold Transporters: Commonalities and Divergences.
Alb, M ; Einsele, H ; Loskill, P ; Van der Meer, A ; Sewald, K ; Reiche, K ; Koehl, U ; Hudecek, M: New Strategies to improve the Safety of CAR-T Cell Immunotherapy: the imSAVAR Project.. In: ONCOLOGY RESEARCH AND TREATMENT. vol. 45 : KARGER ALLSCHWILERSTRASSE 10, CH-4009 BASEL, SWITZERLAND, 2022, pp. 70–71
Allal, Loubna Ben ; Li, Raymond ; Kocetkov, Denis ; Mou, Chenghao ; Akiki, Christopher ; Ferrandis, Carlos Munoz ; Muennighoff, Niklas ; Mishra, Mayank ; Gu, Alex ; et al.: SantaCoder: don’t reach for the stars!, arXiv (2023)

The BigCode project is an open-scientific collaboration working on the responsible development of large language models for code. This tech report describes the progress of the collaboration until December 2022, outlining the current state of the Personally Identifiable Information (PII) redaction pipeline, the experiments conducted to de-risk the model architecture, and the experiments investigating better preprocessing methods for the training data. We train 1.1B parameter models on the Java, JavaScript, and Python subsets of The Stack and evaluate them on the MultiPL-E text-to-code benchmark. We find that more aggressive filtering of near-duplicates can further boost performance and, surprisingly, that selecting files from repositories with 5+ GitHub stars deteriorates performance significantly. Our best model outperforms previous open-source multilingual code generation models (InCoder-6.7B and CodeGen-Multi-2.7B) in both left-to-right generation and infilling on the Java, JavaScript, and Python portions of MultiPL-E, despite being a substantially smaller model. All models are released under an OpenRAIL license at https://hf.co/bigcode.
Allein, Liesbeth ; Cimiano, Philipp ; Habernal, Ivan ; Potthast, Martin ; Simons, Arno ; Stein, Benno: Towards Operationalizing Frames through Axiomatization (2022)
Alrabbaa, Christian ; Baader, Franz ; Borgwardt, Stefan ; Dachselt, Raimund ; Koopmann, Patrick ; Méndez, Julián: Evonne: Interactive Proof Visualization for Description Logics (System Description).. In: Blanchette, J. ; Kovács, L. ; Pattinson, D. (eds.): Automated Reasoning - 11th International Joint Conference, IJCAR 2022, Proceedings, Lecture Notes in Computer Science, Volume 13385. Germany : Springer, Berlin [u. a.], 2022. — Publisher Copyright: textcopyright 2022, The Author(s)., pp. 271–280

Explanations for description logic (DL) entailments provide important support for the maintenance of large ontologies. The “justifications” usually employed for this purpose in ontology editors pinpoint the parts of the ontology responsible for a given entailment. Proofs for entailments make the intermediate reasoning steps explicit, and thus explain how a consequence can actually be derived. We present an interactive system for exploring description logic proofs, called Evonne, which visualizes proofs of consequences for ontologies written in expressive DLs. We describe the methods used for computing those proofs, together with a feature called signature-based proof condensation. Moreover, we evaluate the quality of generated proofs using real ontologies.
Álvarez, Luc’ia Gómez ; Rudolph, Sebastian ; Straß, Hannes: How to Agree to Disagree: Managing Ontological Perspectives using Standpoint Logic.. In: Sattler, U. ; Hogan, A. ; Keet, M. ; Presutti, V. ; Almeida, J. P. A. ; Takeda, H. ; Monnin, P. ; Pirrò, G. ; d’Amato, C. (eds.): Proceedings of the 21st International Semantic Web Conference (ISWC 22), Lecture Notes in Computer Science. vol. 13489 : Springer, 2022
Andres, B. ; Bernard, F. ; Cremers, D. ; Frintrop, S. ; Goldlucke, B. ; Ihrke, I. (eds.): Pattern Recognition, Lecture notes in computer science. 1. ed.. Cham, Switzerland : Springer International Publishing, 2022
Andres, Bjoern ; Di Gregorio, Silvia ; Irmai, Jannik ; Lange, Jan-Hendrik: A polyhedral study of lifted multicuts. In: Discrete Optimization vol. 47, arXiv (2022), p. 100757

Fundamental to many applications in data analysis are the decompositions of a graph, i.e. partitions of the node set into component-inducing subsets. One way of encoding decompositions is by multicuts, the subsets of those edges that straddle distinct components. Recently, a lifting of multicuts from a graph $G = (V, E)$ to an augmented graph $hat G = (V, E cup F)$ has been proposed in the field of image analysis, with the goal of obtaining a more expressive characterization of graph decompositions in which it is made explicit also for pairs $F subseteq tbinomV2 setminus E$ of non-neighboring nodes whether these are in the same or distinct components. In this work, we study in detail the polytope in $mathbbR^E cup F$ whose vertices are precisely the characteristic vectors of multicuts of $hat G$ lifted from $G$, connecting it, in particular, to the rich body of prior work on the clique partitioning and multilinear polytope.
Anil Chaudhari, Ankit ; Srinivasan, Karthik K ; Rama Chilukuri, Bhargava ; Treiber, Martin ; Okhrin, Ostap: Calibrating model parameters to trajectory data of mixed vehicular traffic. In: Transp. Res. Rec. vol. 2676, SAGE Publications (2022), Nr. 1, pp. 718–735

We propose a new methodology for calibrating Wiedemann-99 vehicle-following parameters for mixed traffic (different conventional vehicle classes) based on trajectory data. The existing acceleration equations of the Wiedemann model are modified to represent more realistic driving behavior. Exploratory analysis of simulation data revealed that different Wiedemann-99 model parameters could lead to similar macroscopic behavior, highlighting the importance of calibration at the microscopic level. Therefore, the proposed methodology is based on optimizing performance measures at the microscopic level (acceleration, speed, and trajectory profiles) to estimate suitable calibration parameters. Further, the goodness of fit for the observed data is sensitive to the numerical integration method used to compute vehicles' velocity and position. We found that the calibrated parameters using the proposed methodology perform better than other approaches for calibrating mixed traffic. The results reveal that the calibrated parameter values and, consequently, the thresholds that delineate closing, following, emergency braking, and opening regimes, vary between two-wheelers and cars. The window (in the relative speed versus gap plot) for the unconscious following is larger for cars while the free-flow regime is more extensive for two-wheelers. Moreover, under the same relative speed and gap stimulus, two-wheelers and cars may be in different regimes and display different acceleration responses. Thus, accurate calibration of each vehicle's parameters is essential for developing micro-simulation models for mixed traffic. The calibration analysis results of strict and overlapping staggered car following signify an impact of staggered car following compared with strict car following which demands separate calibration for strict and staggered following.
Arguello, Anahy Santiago ; Stadler, Peter F: Whitney’s connectivity inequalities for directed hypergraphs. In: The Art of Discrete and Applied Mathematics vol. 5 (2022), Nr. 1, pp. P1–01
Arya, Shreya ; Curry, Justin ; Mukherjee, Sayan: A sheaf-theoretic construction of shape space, arXiv (2022)

We present a sheaf-theoretic construction of shape space -- the space of all shapes. We do this by describing a homotopy sheaf on the poset category of constructible sets, where each set is mapped to its Persistent Homology Transform (PHT). Recent results that build on fundamental work of Schapira have shown that this transform is injective, thus making the PHT a good summary object for each shape. Our homotopy sheaf result allows us to ``glue'' PHTs of different shapes together to build up the PHT of a larger shape. In the case where our shape is a polyhedron we prove a generalized nerve lemma for the PHT. Finally, by re-examining the sampling result of Smale-Niyogi-Weinberger, we show that we can reliably approximate the PHT of a manifold by a polyhedron up to arbitrary precision.
Arzt, Matthias ; Deschamps, Joran ; Schmied, Christopher ; Pietzsch, Tobias ; Schmidt, Deborah ; Tomancak, Pavel ; Haase, Robert ; Jug, Florian: LABKIT: labeling and segmentation toolkit for big image data. In: Frontiers in computer science vol. 4, Frontiers (2022), p. 777728
Aspar, Pelin ; Steinhoff, Vera ; Schäpermeier, Lennart ; Kerschke, Pascal ; Trautmann, Heike ; Grimme, Christian: The objective that freed me: a multi-objective local search approach for continuous single-objective optimization. In: Nat. Comput., Springer Science and Business Media LLC (2022)

AbstractSingle-objective continuous optimization can be challenging, especially when dealing with multimodal problems. This work sheds light on the effects that multi-objective optimization may have in the single-objective space. For this purpose, we examine the inner mechanisms of the recently developed sophisticated local search procedure SOMOGSA. This method solves multimodal single-objective continuous optimization problems based on first expanding the problem with an additional objective (e.g., a sphere function) to the bi-objective domain and subsequently exploiting local structures of the resulting landscapes. Our study particularly focuses on the sensitivity of this multiobjectivization approach w.r.t. (1) the parametrization of the artificial second objective, as well as (2) the position of the initial starting points in the search space. As SOMOGSA is a modular framework for encapsulating local search, we integrate Nelder--Mead local search as optimizer in the respective module and compare the performance of the resulting hybrid local search to its original single-objective counterpart. We show that the SOMOGSA framework can significantly boost local search by multiobjectivization. Hence, combined with more sophisticated local search and metaheuristics, this may help solve highly multimodal optimization problems in the future.
Ayala, Daniel ; Hernández, Inma ; Ruiz, David ; Rahm, Erhard: Multi-source dataset of e-commerce products with attributes for property matching. In: Data Brief vol. 41, Elsevier BV (2022), Nr. 107884, p. 107884

Schema/ontology matching consists in finding matches between types, properties and entities in heterogeneous sources of data in order to integrate them, which has become increasingly relevant with the development of web technologies and open data initiatives. One of the involved tasks is the matching of data properties, which attempts to try to find correspondences between the attributes of the entities. This is challenging due to the at times different names of equivalent properties. Furthermore, some properties may not be equivalent, but still match in 1..n relationships. These difficulties create the need for varied evaluation datasets for two reasons. First, they are needed to evaluate existing techniques in a variety of scenarios. Second, they enable the training of supervised techniques that may even become context-independent if trained with data from diverse enough contexts. To support the evaluation and training of data property matching techniques, we present a collection dataset consisting of product records from four different contexts. These datasets are the result of transforming two different existing datasets. In one of the datasets, some properties were filtered for being too noisy. The resulting processed dataset consists of json files with a listing of the product records and their properties, and a separate grouping of the properties that determines which ones match. It contains information about 2860 entities, with 4386 properties and 13350 pairwise matches.
Ayala, Daniel ; Hernández, Inma ; Ruiz, David ; Rahm, Erhard: LEAPME: Learning-based property matching with embeddings. In: Data Knowl. Eng. vol. 137, Elsevier BV (2022), Nr. 101943, p. 101943
Baader, Franz ; Fernández Gil, Oliver: Restricted Unification in the Description Logic $mathcalFL_bot$.. In: M. Cerna, D. ; Morawska, B. (eds.): Proceedings of the 36th International Workshop on Unification (UNIF 2022). Haifa, Israel, 2022
Baader, Franz ; Kapur, Deepak: Deciding the word problem for ground and strongly shallow identities w.R.T. Extensional symbols. In: J. Automat. Reason. vol. 66, Springer Science and Business Media LLC (2022), Nr. 3, pp. 301–329

AbstractThe word problem for a finite set of ground identities is known to be decidable in polynomial time using congruence closure, and this is also the case if some of the function symbols are assumed to be commutative or defined by certain shallow identities, called strongly shallow. We show that decidability in P is preserved if we add the assumption that certain function symbols f are extensional in the sense that $f(s_1,ldots ,s_n) mathrel approx f(t_1,ldots ,t_n)$ f ( s 1 , … , s n ) $approx$ f ( t 1 , … , t n ) implies $s_1 mathrel approx t_1,ldots ,s_n mathrel approx t_n$ s 1 $approx$ t 1 , … , s n $approx$ t n . In addition, we investigate a variant of extensionality that is more appropriate for commutative function symbols, but which raises the complexity of the word problem to coNP.
Baader, Franz ; Koopmann, Patrick ; Kriegel, Francesco ; Nuradiansyah, Adrian: Optimal ABox Repair w.r.t. Static ℰℒ TBoxes: from Quantified ABoxes back to ABoxes (Extended Version) ( Nr. 22-01). Dresden, Germany : Chair of Automata Theory, Institute of Theoretical Computer Science, Technische Universität Dresden, 2022
Baader, Franz ; Koopmann, Patrick ; Kriegel, Francesco ; Nuradiansyah, Adrian: Optimal ABox Repair w.r.t. Static ℰℒ TBoxes: from Quantified ABoxes back to ABoxes (Extended Abstract).. In: Proceedings of the 35th International Workshop on Description Logics (DL 2022), Haifa, Israel, August 7--10, 2022, CEUR Workshop Proceedings. vol. 3263 : CEUR-WS.org, 2022
Baader, Franz ; Koopmann, Patrick ; Kriegel, Francesco ; Nuradiansyah, Adrian: Optimal ABox Repair w.r.t. Static ℰℒ TBoxes: from Quantified ABoxes back to ABoxes.. In: Proceedings of the 19th Extended Semantic Web Conference, ESWC 2022, Hersonissos, Greece, May 29 -- June 2, 2022, Lecture Notes in Computer Science. vol. 13261 : Springer, 2022, pp. 130–146
Baader, Franz ; Kriegel, Francesco: Pushing Optimal ABox Repair from ℰℒ Towards More Expressive Horn-DLs.. In: Proceedings of the 19th International Conference on Principles of Knowledge Representation and Reasoning, KR 2022, Haifa, Israel, July 31 -- August 5, 2022, 2022, pp. 22–32
Baader, Franz ; Kriegel, Francesco ; Nuradiansyah, Adrian: Error-Tolerant Reasoning in the Description Logic ℰℒ Based On Optimal Repairs.. In: Proceedings of the 6th International Joint Conference on Rules and Reasoning, RuleML+RR 2022, Virtual, September 26--28, 2022, Lecture Notes in Computer Science. vol. 13752 : Springer, 2022, pp. 227–243
Baader, Franz ; Rydval, Jakub: Using model theory to find decidable and tractable description logics with concrete domains. In: J. Automat. Reason. vol. 66, Springer Science and Business Media LLC (2022), Nr. 3, pp. 357–407

AbstractConcrete domains have been introduced in the area of Description Logic to enable reference to concrete objects (such as numbers) and predefined predicates on these objects (such as numerical comparisons) when defining concepts. Unfortunately, in the presence of general concept inclusions (GCIs), which are supported by all modern DL systems, adding concrete domains may easily lead to undecidability. To regain decidability of the DL$mathcal ALC$ALCin the presence of GCIs, quite strong restrictions, in sum called$omega$-admissibility, were imposed on the concrete domain. On the one hand, we generalize the notion of$omega$-admissibility from concrete domains with only binary predicates to concrete domains with predicates of arbitrary arity. On the other hand, we relate $omega$-admissibility to well-known notions from model theory. In particular, we show that finitely bounded homogeneous structures yield$omega$-admissible concrete domains. This allows us to show $omega$-admissibility of concrete domains using existing results from model theory. When integrating concrete domains into lightweight DLs of the$mathcal EL$ELfamily, achieving decidability is not enough. One wants reasoning in the resulting DL to be tractable. This can be achieved by using so-called p-admissible concrete domains and restricting the interaction between the DL and the concrete domain. We investigate p-admissibility from an algebraic point of view. Again, this yields strong algebraic tools for demonstrating p-admissibility. In particular, we obtain an expressive numerical p-admissible concrete domain based on the rational numbers. Although$omega$-admissibility and p-admissibility are orthogonal conditions that are almost exclusive, our algebraic characterizations of these two properties allow us to locate an infinite class of p-admissible concrete domains whose integration into $mathcal ALC$ yields decidable DLs.
Baumann, Ringo ; Berthold, Matti: Limits and Possibilities of Forgetting in Abstract Argumentation.. In: Proceedings of the Thirty-First International Joint Conference on Artificial Intelligence, IJCAI-2022 : International Joint Conferences on Artificial Intelligence Organization, 2022, pp. 2539–2545
Baumann, Ringo ; Brewka, Gerhard ; Ulbricht, Markus: Shedding new light on the foundations of abstract argumentation: Modularization and weak admissibility. In: Artif. Intell. vol. 310, Elsevier BV (2022), Nr. 103742, p. 103742
Baumann, Ringo ; Penndorf, Christopher Harmen: Lattice Theoretical Analysis of Dung-style AFs-Information and Reachability Order.. In: FCR@ KI, 2022, pp. 53–65
Baumann, Ringo ; Rapberger, Anna ; Ulbricht, Markus: Equivalence in argumentation frameworks with a claim-centric view--classical results with novel ingredients.. In: Proceedings of the AAAI Conference on Artificial Intelligence. vol. 36, 2022, pp. 5479–5486
Baumann, Ringo ; Strass, Hannes: An abstract, logical approach to characterizing strong equivalence in non-monotonic knowledge representation formalisms. In: Artif. Intell. vol. 305, Elsevier BV (2022), Nr. 103680, p. 103680
Behme, Anita ; Sideris, Apostolos: Markov-modulated generalized Ornstein-Uhlenbeck processes and an application in risk theory. In: Bernoulli (Andover.) vol. 28, Bernoulli Society for Mathematical Statistics and Probability (2022), Nr. 2
Beltran-Velandia, Ferney ; Gomez, Jonatan ; Suarez, Miguel ; Ojeda, Andres ; Leon, Elizabeth: Classification of Music-Evoked Emotions from EEG signals using Self-Organizing Maps.. In: 2022 International Conference on Electrical, Computer and Energy Technologies (ICECET). Prague, Czech Republic : IEEE, 2022
Berthold, Matti: On syntactic forgetting with strong persistence.. In: Proceedings of the Nineteenth International Conference on Principles of Knowledge Representation and Reasoning. Haifa, Israel : International Joint Conferences on Artificial Intelligence Organization, 2022

It is generally agreed upon that so-called strong persistence (SP) captures best the essence of forgetting in logic programming. While classes of operators, such as F_R and F_SP, that satisfy immediate relaxations of (SP), and in the case of F_SP, even (SP) whenever possible, have been characterized semantically, many practical questions have yet to be addressed. This technical paper aims to answer one of them: How can atoms be forgotten from a program without having to calculate its exponential number of models? To this end, we introduce two concrete representatives of F_R and F_SP that forget sets of atoms by syntactical manipulation of a program's rules. This may in many cases prevent exponential blowups and produce a forgetting result that is close to the original program.
Bevendorff, Janek ; Chulvi, Berta ; Fersini, Elisabetta ; Heini, Annina ; Kestemont, Mike ; Kredens, Krzysztof ; Mayerl, Maximilian ; Bueno, Reynier ; Pezik, Piotr ; et al.: Overview of PAN 2022: Authorship Verification, Profiling Irony and Stereotype Spreaders, and Style Change Detection.. In: , 2022 — ISBN 978-3-031-13642-9, pp. 382–394
Bevendorff, Janek ; Sauer, Philipp ; Gienapp, Lukas ; Kircheis, Wolfgang ; Körner, Erik ; Stein, Benno ; Potthast, Martin: SMAuC -- the scientific multi-authorship corpus, arXiv (2022)

The rapidly growing volume of scientific publications offers an interesting challenge for research on methods for analyzing the authorship of documents with one or more authors. However, most existing datasets lack scientific documents or the necessary metadata for constructing new experiments and test cases. We introduce SMAuC, a comprehensive, metadata-rich corpus tailored to scientific authorship analysis. Comprising over 3 million publications across various disciplines from over 5 million authors, SMAuC is the largest openly accessible corpus for this purpose. It encompasses scientific texts from humanities and natural sciences, accompanied by extensive, curated metadata, including unambiguous author IDs. SMAuC aims to significantly advance the domain of authorship analysis in scientific texts.
Bevendorff, Janek ; Wiegmann, Matti ; Potthast, Martin ; Stein, Benno: The Impact of Online Affiliate Marketing on Web Search.. In: Wagner, A. ; Guetl, C. ; Granitzer, M. ; Voigt, S. (eds.): 4th International Symposium on Open Search Technology (OSSYM 2022) : International Open Search Symposium, 2022
Beyer, Katharina ; Straten, Vera ; Remmers, Sebastiaan ; MacLennan, Steven ; MacLennan, Sara ; Gandaglia, Giorgio ; Willemse, Peter-Paul M. ; Herrera, Ronald ; Omar, Muhammad Imran ; et al.: Secondary Treatment for Men with Localized Prostate Cancer: A Pooled Analysis of PRIAS and ERSPC-Rotterdam Data within the PIONEER Data Platform. In: Journal of Personalized Medicine vol. 12, MDPI AG (2022), Nr. 5, p. 751
Beylier, Charlotte ; Scherf, Nico ; Doeller, Christian F ; Menghi, Nicholas: Representation in machine learning: A neuro-cognitive approach.. In: French-German Research and Innovation Network for AI workshop, 2022
Beylier, Charlotte ; Scherf, Nico ; Doeller, Christian F ; Menghi, Nicholas: From manifolds to thoughts.. In: 11th IMPRS NeuroCom Summer School, 2022
Björk, Johannes R ; Dasari, Mauna R ; Roche, Kim ; Grieneisen, Laura ; Gould, Trevor J ; Grenier, Jean-Christophe ; Yotova, Vania ; Gottel, Neil ; Jansen, David ; et al.: Synchrony and idiosyncrasy in the gut microbiome of wild baboons. In: Nat. Ecol. Evol. vol. 6, Springer Science and Business Media LLC (2022), Nr. 7, pp. 955–964

Human gut microbial dynamics are highly individualized, making it challenging to link microbiota to health and to design universal microbiome therapies. This individuality is typically attributed to variation in host genetics, diets, environments and medications but it could also emerge from fundamental ecological forces that shape microbiota more generally. Here, we leverage extensive gut microbial time series from wild baboons-hosts who experience little interindividual dietary and environmental heterogeneity-to test whether gut microbial dynamics are synchronized across hosts or largely idiosyncratic. Despite their shared lifestyles, baboon microbiota were only weakly synchronized. The strongest synchrony occurred among baboons living in the same social group, probably because group members range over the same habitat and simultaneously encounter the same sources of food and water. However, this synchrony was modest compared to each host's personalized dynamics. In support, host-specific factors, especially host identity, explained, on average, more than three times the deviance in longitudinal dynamics compared to factors shared with social group members and ten times the deviance of factors shared across the host population. These results contribute to mounting evidence that highly idiosyncratic gut microbiomes are not an artefact of modern human environments and that synchronizing forces in the gut microbiome (for example, shared environments, diets and microbial dispersal) are not strong enough to overwhelm key drivers of microbiome personalization, such as host genetics, priority effects, horizontal gene transfer and functional redundancy.
Blee, Alexandra M. ; Li, Bian ; Pecen, Turner ; Meiler, Jens ; Nagel, Zachary D. ; Capra, John A. ; Chazin, Walter J.: An Active Learning Framework Improves Tumor Variant Interpretation. In: Cancer Research vol. 82, American Association for Cancer Research (AACR) (2022), Nr. 15, p. 2704â2715
Blümel, Lydia ; Ulbricht, Markus: Defining defense and defeat in abstract argumentation from scratch -- A generalizing approach.. In: Proceedings of the Nineteenth International Conference on Principles of Knowledge Representation and Reasoning. Haifa, Israel : International Joint Conferences on Artificial Intelligence Organization, 2022

We propose a general framework to investigate semantics of Dung-style argumentation frameworks (AFs) by means of a generic defeat notion formalized by refute operators. After establishing the technical foundations, we propose natural generic versions of Dung's classical semantics. We demonstrate how classical as well as recent proposals can be captured by our approach when utilizing suitable notions of refutal. We perform an investigation of basic properties which semantics inherit from the underlying refute operator. In particular, we show under which conditions a counterpart to Dung's fundamental lemma can be inferred and how it ensures the existence of the generalized version of complete extensions. We contribute to a principle-based study of AF semantics by discussing properties tailored to compare different refute operators. Finally, we report computational complexity results for basic reasoning tasks which hold in our general framework.
Bondarenko, Alexander ; Ajjour, Yamen ; Dittmar, Valentin ; Homann, Niklas ; Braslavski, Pavel ; Hagen, Matthias: Towards understanding and answering comparative questions.. In: Proceedings of the Fifteenth ACM International Conference on Web Search and Data Mining. Virtual Event AZ USA : ACM, 2022
Bondarenko, Alexander ; FrÃ¶be, Maik ; Gienapp, Lukas ; Pugachev, Alexander ; Reimer, Jan Heinrich ; Schlatt, Ferdinand ; Artemova, Ekaterina ; Potthast, Martin ; Stein, Benno ; et al.: Webis at TREC 2022: Deep Learning and Health Misinformation (2022)
Bondarenko, Alexander ; Wolska, Magdalena ; Heindorf, Stefan ; Blübaum, Lukas ; Ngonga Ngomo, Axel-Cyrille ; Stein, Benno ; Braslavski, Pavel ; Hagen, Matthias ; Potthast, Martin: CausalQA: A Benchmark for Causal Question Answering.. In: Proceedings of the 29th International Conference on Computational Linguistics. Gyeongju, Republic of Korea : International Committee on Computational Linguistics, 2022, pp. 3296–3308

At least 5% of questions submitted to search engines ask about cause-effect relationships in some way. To support the development of tailored approaches that can answer such questions, we construct Webis-CausalQA-22, a benchmark corpus of 1.1 million causal questions with answers. We distinguish different types of causal questions using a novel typology derived from a data-driven, manual analysis of questions from ten large question answering (QA) datasets. Using high-precision lexical rules, we extract causal questions of each type from these datasets to create our corpus. As an initial baseline, the state-of-the-art QA model UnifiedQA achieves a ROUGE-L F1 score of 0.48 on our new benchmark.
Bonidia, Robson P ; Avila Santos, Anderson P ; de Almeida, Breno LS ; Stadler, Peter F ; Nunes da Rocha, Ulisses ; Sanches, Danilo S ; De Carvalho, André CPLF: Information theory for biological sequence classification: a novel feature extraction technique based on Tsallis entropy. In: Entropy vol. 24, MDPI (2022), Nr. 10, p. 1398
Bonidia, Robson P ; Santos, Anderson P Avila ; de Almeida, Breno L S ; Stadler, Peter F ; da Rocha, Ulisses N ; Sanches, Danilo S ; de Carvalho, André C P L F: BioAutoML: automated feature engineering and metalearning to predict noncoding RNAs in bacteria. In: Briefings in Bioinformatics vol. 23, Oxford University Press (OUP) (2022), Nr. 4
Bozhanova, Nina G ; Flyak, Andrew I ; Brown, Benjamin P ; Ruiz, Stormy E ; Salas, Jordan ; Rho, Semi ; Bombardi, Robin G ; Myers, Luke ; Soto, Cinque ; et al.: Computational identification of HCV neutralizing antibodies with a common HCDR3 disulfide bond motif in the antibody repertoires of infected individuals. In: Nat. Commun. vol. 13, Springer Science and Business Media LLC (2022), Nr. 1, p. 3178

Despite recent success in hepatitis C virus (HCV) treatment using antivirals, an HCV vaccine is still needed to prevent reinfections in treated patients, to avert the emergence of drug-resistant strains, and to provide protection for people with no access to the antiviral therapeutics. The early production of broadly neutralizing antibodies (bNAbs) associates with HCV clearance. Several potent bNAbs bind a conserved HCV glycoprotein E2 epitope using an unusual heavy chain complementarity determining region 3 (HCDR3) containing an intra-loop disulfide bond. Isolation of additional structurally-homologous bNAbs would facilitate the recognition of key determinants of such bNAbs and guide rational vaccine design. Here we report the identification of new antibodies containing an HCDR3 disulfide bond motif using computational screening with the Rosetta software. Using the newly-discovered and already-known members of this antibody family, we review the required HCDR3 amino acid composition and propose determinants for the bent versus straight HCDR3 loop conformation observed in these antibodies.
Bran, Andres M ; Stadler, Peter F ; Jost, Juergen ; Restrepo, Guillermo: Periodic system converges and is affected by wars (2022)
Brandmeier, Melanie ; Hell, Maximilian ; Cherif, Eya ; Nüchter, Andreas: Synergetic use of Sentinel-1 and Sentinel-2 data for large-scale Land Use/Land Cover Mapping. In: EGU General Assembly Conference Abstracts (2022), pp. EGU22–4300

One of the largest threats to the vast ecosystem of the Brazilian Amazon Forest is deforestation and forest degradation caused by human activity. The possibility to continuously monitor these degradation events has recently become more feasible through the use of freely available satellite remote sensing data and machine learning algorithms suited for big datasets. A fundamental challenge of such large-scale monitoring tasks is the automatic generation of reliable and correct land use and land cover (LULC) maps. This is achieved by the development of robust deep learning models that generalize well on new data. However, these approaches require large amounts of labeled training data. We use the latest results of the MapBiomas project as the'ground-truth'for developing new algorithms. In this project, Souza et al.[1] used yearly composites of USGS Landsat imagery to classify the LULC for the whole of Brazil …
Brinker, Titus J ; Schmitt, Max ; Krieghoff-Henning, Eva I ; Barnhill, Raymond ; Beltraminelli, Helmut ; Braun, Stephan A ; Carr, Richard ; Fernandez-Figueras, Maria-Teresa ; Ferrara, Gerardo ; et al.: Diagnostic performance of artificial intelligence for histologic melanoma recognition compared to 18 international expert pathologists. In: J. Am. Acad. Dermatol. vol. 86, Elsevier BV (2022), Nr. 3, pp. 640–642
Brockmoeller, Scarlet ; Echle, Amelie ; Ghaffari Laleh, Narmin ; Eiholm, Susanne ; Malmstrom, Marie Louise ; Plato Kuhlmann, Tine ; Levic, Katarina ; Grabsch, Heike Irmgard ; West, Nicholas P ; et al.: Deep learning identifies inflamed fat as a risk factor for lymph node metastasis in early colorectal cancer. In: J. Pathol. vol. 256, Wiley (2022), Nr. 3, pp. 269–281

The spread of early-stage (T1 and T2) adenocarcinomas to locoregional lymph nodes is a key event in disease progression of colorectal cancer (CRC). The cellular mechanisms behind this event are not completely understood and existing predictive biomarkers are imperfect. Here, we used an end-to-end deep learning algorithm to identify risk factors for lymph node metastasis (LNM) status in digitized histopathology slides of the primary CRC and its surrounding tissue. In two large population-based cohorts, we show that this system can predict the presence of more than one LNM in pT2 CRC patients with an area under the receiver operating curve (AUROC) of 0.733 (0.67-0.758) and patients with any LNM with an AUROC of 0.711 (0.597-0.797). Similarly, in pT1 CRC patients, the presence of more than one LNM or any LNM was predictable with an AUROC of 0.733 (0.644-0.778) and 0.567 (0.542-0.597), respectively. Based on these findings, we used the deep learning system to guide human pathology experts towards highly predictive regions for LNM in the whole slide images. This hybrid human observer and deep learning approach identified inflamed adipose tissue as the highest predictive feature for LNM presence. Our study is a first proof of concept that artificial intelligence (AI) systems may be able to discover potentially new biological mechanisms in cancer progression. Our deep learning algorithm is publicly available and can be used for biomarker discovery in any disease setting. copyright 2021 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.
Bromberger, Martin ; Dragoste, Irina ; Faqeh, Rasha ; Fetzer, Christof ; González, Larry ; Krötzsch, Markus ; Marx, Maximilian ; Murali, Harish K ; Weidenbach, Christoph: A Sorted Datalog Hammer for Supervisor Verification Conditions Modulo Simple Linear Arithmetic.. In: Fisman, D. ; Rosu, G. (eds.): Proc. of the 28th Int. Conf. on Tools and Algorithms for the Construction and Analysis of Systems (TACAS 2022), LNCS. vol. 13243 : Springer, 2022, pp. 480–501
Brown, Benjamin P ; Vu, Oanh ; Geanes, Alexander R ; Kothiwale, Sandeepkumar ; Butkiewicz, Mariusz ; Lowe, Jr ; Mueller, Ralf ; Pape, Richard ; Mendenhall, Jeffrey ; et al.: Introduction to the BioChemical Library (BCL): An application-based open-source toolkit for integrated cheminformatics and machine learning in computer-aided drug discovery. In: Front. Pharmacol. vol. 13, Frontiers Media SA (2022), p. 833099

The BioChemical Library (BCL) cheminformatics toolkit is an application-based academic open-source software package designed to integrate traditional small molecule cheminformatics tools with machine learning-based quantitative structure-activity/property relationship (QSAR/QSPR) modeling. In this pedagogical article we provide a detailed introduction to core BCL cheminformatics functionality, showing how traditional tasks (e.g., computing chemical properties, estimating druglikeness) can be readily combined with machine learning. In addition, we have included multiple examples covering areas of advanced use, such as reaction-based library design. We anticipate that this manuscript will be a valuable resource for researchers in computer-aided drug discovery looking to integrate modular cheminformatics and machine learning tools into their pipelines.
Brown, Benjamin P. ; Vu, Oanh ; Geanes, Alexander R. ; Kothiwale, Sandeepkumar ; Butkiewicz, Mariusz ; Lowe, Edward W. ; Mueller, Ralf ; Pape, Richard ; Mendenhall, Jeffrey ; et al.: Introduction to the BioChemical Library (BCL): An Application-Based Open-Source Toolkit for Integrated Cheminformatics and Machine Learning in Computer-Aided Drug Discovery. In: Frontiers in Pharmacology vol. 13, Frontiers Media SA (2022)
Bruckmann, Carmen ; Stadler, Peter F. ; Hellmuth, Marc: From modular decomposition trees to rooted median graphs. In: Discrete Applied Mathematics vol. 310, Elsevier BV (2022), pp. 1–9
Buchheim, Christoph ; Henke, Dorothee ; Irmai, Jannik: The stochastic bilevel continuous knapsack problem with uncertain follower’s objective. In: J. Optim. Theory Appl., Springer Science and Business Media LLC (2022)

AbstractWe consider a bilevel continuous knapsack problem where the leader controls the capacity of the knapsack, while the follower chooses a feasible packing maximizing his own profit. The leader's aim is to optimize a linear objective function in the capacity and in the follower's solution, but with respect to different item values. We address a stochastic version of this problem where the follower's profits are uncertain from the leader's perspective, and only a probability distribution is known. Assuming that the leader aims at optimizing the expected value of her objective function, we first observe that the stochastic problem is tractable as long as the possible scenarios are given explicitly as part of the input, which also allows to deal with general distributions using a sample average approximation. For the case of independently and uniformly distributed item values, we show that the problem is #P-hard in general, and the same is true even for evaluating the leader's objective function. Nevertheless, we present pseudo-polynomial time algorithms for this case, running in time linear in the total size of the items. Based on this, we derive an additive approximation scheme for the general case of independently distributed item values, which runs in pseudo-polynomial time.
Buendgens, Lukas ; Cifci, Didem ; Ghaffari Laleh, Narmin ; van Treeck, Marko ; Koenen, Maria T ; Zimmermann, Henning W ; Herbold, Till ; Lux, Thomas Joachim ; Hann, Alexander ; et al.: Weakly supervised end-to-end artificial intelligence in gastrointestinal endoscopy. In: Sci. Rep. vol. 12, Springer Science and Business Media LLC (2022), Nr. 1, p. 4829

Artificial intelligence (AI) is widely used to analyze gastrointestinal (GI) endoscopy image data. AI has led to several clinically approved algorithms for polyp detection, but application of AI beyond this specific task is limited by the high cost of manual annotations. Here, we show that a weakly supervised AI can be trained on data from a clinical routine database to learn visual patterns of GI diseases without any manual labeling or annotation. We trained a deep neural network on a dataset of N = 29,506 gastroscopy and N = 18,942 colonoscopy examinations from a large endoscopy unit serving patients in Germany, the Netherlands and Belgium, using only routine diagnosis data for the 42 most common diseases. Despite a high data heterogeneity, the AI system reached a high performance for diagnosis of multiple diseases, including inflammatory, degenerative, infectious and neoplastic diseases. Specifically, a cross-validated area under the receiver operating curve (AUROC) of above 0.70 was reached for 13 diseases, and an AUROC of above 0.80 was reached for two diseases in the primary data set. In an external validation set including six disease categories, the AI system was able to significantly predict the presence of diverticulosis, candidiasis, colon and rectal cancer with AUROCs above 0.76. Reverse engineering the predictions demonstrated that plausible patterns were learned on the level of images and within images and potential confounders were identified. In summary, our study demonstrates the potential of weakly supervised AI to generate high-performing classifiers and identify clinically relevant visual patterns based on non-annotated routine image data in GI endoscopy and potentially other clinical imaging modalities.
Calderaro, Julien ; Di Tommaso, Luca ; Maillé, Pascale ; Beaufrère, Aurélie ; Nguyen, Cong Trung ; Heij, Lara ; Gnemmi, Viviane ; Graham, Rondell P ; Charlotte, Frédéric ; et al.: Nestin as a diagnostic and prognostic marker for combined hepatocellular-cholangiocarcinoma. In: J. Hepatol. vol. 77, Elsevier BV (2022), Nr. 6, pp. 1586–1597

BACKGROUND & AIMS: Combined hepatocellular-cholangiocarcinoma (cHCC-CCA) is a rare primary liver cancer (PLC) associated with a poor prognosis. Given the challenges in its identification and its clinical implications, biomarkers are critically needed. We aimed to investigate the diagnostic and prognostic value of the immunohistochemical expression of Nestin, a progenitor cell marker, in a large multicentric series of PLCs. METHODS: We collected 461 cHCC-CCA samples from 32 different clinical centers. Control cases included 368 hepatocellular carcinomas (HCCs) and 221 intrahepatic cholangiocarcinomas (iCCAs). Nestin immunohistochemistry was performed on whole tumor sections. Diagnostic and prognostic performances of Nestin expression were determined using receiver-operating characteristic curves and Cox regression modeling. RESULTS: Nestin was able to distinguish cHCC-CCA from HCC with AUCs of 0.85 and 0.86 on surgical and biopsy samples, respectively. Performance was lower for the distinction of cHCC-CCA from iCCA (AUCs of 0.59 and 0.60). Nestin, however, showed a high prognostic value, allowing identification of the subset of cHCC-CCA (``Nestin High'', >30% neoplastic cells with positive staining) associated with the worst clinical outcome (shorter disease-free and overall survival) after surgical resection and liver transplantation, as well as when assessment was performed on biopsies. CONCLUSION: We show in different clinical settings that Nestin has diagnostic value and that it is a useful biomarker to identify the subset of cHCC-CCA associated with the worst clinical outcome. Nestin immunohistochemistry may be used to refine risk stratification and improve treatment allocation for patients with this highly aggressive malignancy. LAY SUMMARY: There are different types of primary liver cancers (i.e. cancers that originate in the liver). Accurately identifying a specific subtype of primary liver cancer (and determining its associated prognosis) is important as it can have a major impact on treatment allocation. Herein, we show that a protein called Nestin could be used to refine risk stratification and improve treatment allocation for patients with combined hepatocellular carcinoma, a rare but highly aggressive subtype of primary liver cancer.
Caprio, Michele ; Aveni, Andrea ; Mukherjee, Sayan: Concerning Two Classes of Non-Diophantine Arithmetics.. In: Proceedings. vol. 81, 2022, p. 33
Caprio, Michele ; Mukherjee, Sayan: Concentration inequalities and optimal number of layers for stochastic deep neural networks, arXiv (2022)

We state concentration inequalities for the output of the hidden layers of a stochastic deep neural network (SDNN), as well as for the output of the whole SDNN. These results allow us to introduce an expected classifier (EC), and to give probabilistic upper bound for the classification error of the EC. We also state the optimal number of layers for the SDNN via an optimal stopping procedure. We apply our analysis to a stochastic version of a feedforward neural network with ReLU activation function.
Caprio, Michele ; Mukherjee, Sayan: Ergodic Theorems for Dynamic Imprecise Probability Kinematics (2022)
Carneiro, Brenda Lara Duarte Souza ; de Assis de Souza Filho, Francisco ; Carvalho, Taís Maria Nunes ; Raulino, João Batista Sousa: Hydrological risk of dam failure under climate change. In: RBRH vol. 27, Associação Brasileira de Recursos Hídricos (2022), p. e19

Most water infrastructure was designed for climate conditions and demands that have been rapidly changing. In this study, we investigate flood magnitude and dam safety under climate change, using an ensemble of CMIP6 climate models, coupled to a hydrological model. We compare historical and future climate conditions of a watershed in Ceará, Northeast Brazil. Climate models revealed a wide range of risk levels of flood and hydrological failure. Half of the climate scenarios indicated a reduction in the flood return period. A flood associated with a 1000-year storm had an occurrence probability about 12 times higher when comparing the SSP5 8.5 scenario with historical conditions. In one more critical scenario, the water depth exceeded the height of the dam's crest. When considering a flood associated with a decamillennial storm, dam collapse risk was increased. Climate change might increase the risk of water infrastructure failure, which needs to be adapted to ensure the safety of the water system stakeholders.
Carvalho, Taís Maria Nunes ; Neto, Iran Eduardo Lima ; de Assis Souza Filho, Francisco: Uncovering the influence of hydrological and climate variables in chlorophyll-A concentration in tropical reservoirs with machine learning. In: Environmental Science and Pollution Research vol. 29, Springer Berlin Heidelberg (2022), Nr. 49, pp. 74967–74982

Climate variability and change, associated with increasing water demands, can have significant implications for water availability. In the Brazilian semi-arid, eutrophication in reservoirs raises the risk of water scarcity. The reservoirs have also a high seasonal and annual variability of water level and volume, which can have important effects on chlorophyll-a concentration (Chla). Assessing the influence of climate and hydrological variability on phytoplankton growth can be important to find strategies to achieve water security in tropical regions with similar problems. This study explores the potential of machine learning models to predict Chla in reservoirs and to understand their relationship with hydrological and climate variables. The model is based mainly on satellite data, which makes the methodology useful for data-scarce regions. Tree-based ensemble methods had the best performances among six machine …
Cherif, Eya ; Hell, Maximilian ; Brandmeier, Melanie: DeepForest: Novel deep learning models for land use and land cover classification using multi-temporal and -modal Sentinel data of the Amazon basin. In: Remote Sens. (Basel) vol. 14, MDPI AG (2022), Nr. 19, p. 5000

Land use and land cover (LULC) mapping is a powerful tool for monitoring large areas. For the Amazon rainforest, automated mapping is of critical importance, as land cover is changing rapidly due to forest degradation and deforestation. Several research groups have addressed this challenge by conducting local surveys and producing maps using freely available remote sensing data. However, automating the process of large-scale land cover mapping remains one of the biggest challenges in the remote sensing community. One issue when using supervised learning is the scarcity of labeled training data. One way to address this problem is to make use of already available maps produced with (semi-) automated classifiers. This is also known as weakly supervised learning. The present study aims to develop novel methods for automated LULC classification in the cloud-prone Amazon basin (Brazil) based on the labels from the MapBiomas project, which include twelve classes. We investigate different fusion techniques for multi-spectral Sentinel-2 data and synthetic aperture radar Sentinel-1 time-series from 2018. The newly designed deep learning architectures---DeepForest-1 and DeepForest-2---utilize spatiotemporal characteristics, as well as multi-scale representations of the data. In several data scenarios, the models are compared to state-of-the-art (SotA) models, such as U-Net and DeepLab. The proposed networks reach an overall accuracy of up to 75.0%, similar to the SotA models. However, the novel approaches outperform the SotA models with respect to underrepresented classes. Forest, savanna and crop were mapped best, with F1 scores up to 85.0% when combining multi-modal data, compared to 81.6% reached by DeepLab. Furthermore, in a qualitative analysis, we highlight that the classifiers sometimes outperform the inaccurate labels.
Cherif, Eya ; Hell, Maximilian ; Brandmeier, Melanie: DeepForest: Novel deep learning models for land use and land cover classification using multi-temporal and-modal sentinel data of the amazon basin. In: Remote Sensing vol. 14, MDPI (2022), Nr. 19, p. 5000

Land use and land cover (LULC) mapping is a powerful tool for monitoring large areas. For the Amazon rainforest, automated mapping is of critical importance, as land cover is changing rapidly due to forest degradation and deforestation. Several research groups have addressed this challenge by conducting local surveys and producing maps using freely available remote sensing data. However, automating the process of large-scale land cover mapping remains one of the biggest challenges in the remote sensing community. One issue when using supervised learning is the scarcity of labeled training data. One way to address this problem is to make use of already available maps produced with (semi-) automated classifiers. This is also known as weakly supervised learning. The present study aims to develop novel methods for automated LULC classification in the cloud-prone Amazon basin (Brazil) based on the labels from the MapBiomas project, which include twelve classes. We investigate different fusion techniques for multi-spectral Sentinel-2 data and synthetic aperture radar Sentinel-1 time-series from 2018. The newly designed deep learning architectures—DeepForest-1 and DeepForest-2—utilize spatiotemporal characteristics, as well as multi-scale representations of the data. In several data scenarios, the models are compared to state-of-the-art (SotA) models, such as U-Net and DeepLab. The proposed networks reach an overall accuracy of up to 75.0%, similar to the SotA models. However, the novel approaches outperform the SotA models with respect to underrepresented classes. Forest, savanna and crop were mapped best, with …
Christen, Victor ; Häntschel, Tim ; Christen, Peter ; Rahm, Erhard: Privacy-preserving record linkage using autoencoders. In: Int. J. Data Sci. Anal., Springer Science and Business Media LLC (2022)

AbstractPrivacy-preserving record linkage (PPRL) is the process aimed at identifying records that represent the same real-world entity across different data sources while guaranteeing the privacy of sensitive information about these entities. A popular PPRL method is to encode sensitive plain-text data into Bloom filters (BFs), bit vectors that enable the efficient calculation of similarities between records that is required for PPRL. However, BF encoding cannot completely prevent the re-identification of plain-text values because sets of BFs can contain bit patterns that can be mapped to plain-text values using cryptanalysis attacks. Various hardening techniques have therefore been proposed that modify the bit patterns in BFs with the aim to prevent such attacks. However, it has been shown that even hardened BFs can still be vulnerable to attacks. To avoid any such attacks, we propose a novel encoding technique for PPRL based on autoencoders that transforms BFs into vectors of real numbers. To achieve a high comparison quality of the generated numerical vectors, we propose a method that guarantees the comparability of encodings generated by the different data owners. Experiments on real-world data sets show that our technique achieves high linkage quality and prevents known cryptanalysis attacks on BF encoding.
Cifci, Didem ; Foersch, Sebastian ; Kather, Jakob Nikolas: Artificial intelligence to identify genetic alterations in conventional histopathology. In: J. Pathol. vol. 257, Wiley (2022), Nr. 4, pp. 430–444

Precision oncology relies on the identification of targetable molecular alterations in tumor tissues. In many tumor types, a limited set of molecular tests is currently part of standard diagnostic workflows. However, universal testing for all targetable alterations, especially rare ones, is limited by the cost and availability of molecular assays. From 2017 to 2021, multiple studies have shown that artificial intelligence (AI) methods can predict the probability of specific genetic alterations directly from conventional hematoxylin and eosin (H&E) tissue slides. Although these methods are currently less accurate than gold standard testing (e.g. immunohistochemistry, polymerase chain reaction or next-generation sequencing), they could be used as pre-screening tools to reduce the workload of genetic analyses. In this systematic literature review, we summarize the state of the art in predicting molecular alterations from H&E using AI. We found that AI methods perform reasonably well across multiple tumor types, although few algorithms have been broadly validated. In addition, we found that genetic alterations in FGFR, IDH, PIK3CA, BRAF, TP53, and DNA repair pathways are predictable from H&E in multiple tumor types, while many other genetic alterations have rarely been investigated or were only poorly predictable. Finally, we discuss the next steps for the implementation of AI-based surrogate tests in diagnostic workflows. copyright 2022 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.
Colin?York, Huw ; Heddleston, John ; Wait, Eric ; Karedla, Narain ; deSantis, Michael ; Khuon, Satya ; Chew, Teng?Leong ; Sbalzarini, Ivo F. ; Fritzsche, Marco: Quantifying Molecular Dynamics within Complex Cellular Morphologies using LLSM?FRAP (Small Methods 6/2022). In: Small Methods vol. 6, Wiley (2022), Nr. 6
Corona-Gomez, Jose Antonio ; Coss-Navarrete, Evelia Lorena ; Garcia-Lopez, Irving Jair ; Klapproth, Christopher ; Pérez-Patiño, Jaime Alejandro ; Fernandez-Valverde, Selene L.: Transcriptome-guided annotation and functional classification of long non-coding RNAs in Arabidopsis thaliana. In: Scientific Reports vol. 12 (2022), Nr. 1, p. 14063

Long non-coding RNAs (lncRNAs) are a prominent class of eukaryotic regulatory genes. Despite the numerous available transcriptomic datasets, the annotation of plant lncRNAs remains based on dated annotations that have been historically carried over. We present a substantially improved annotation of Arabidopsis thaliana lncRNAs, generated by integrating 224 transcriptomes in multiple tissues, conditions, and developmental stages. We annotate 6764 lncRNA genes, including 3772 that are novel. We characterize their tissue expression patterns and find 1425 lncRNAs are co-expressed with coding genes, with enriched functional categories such as chloroplast organization, photosynthesis, RNA regulation, transcription, and root development. This improved transcription-guided annotation constitutes a valuable resource for studying lncRNAs and the biological processes they may regulate.
Cortés-Andrés, Jordi ; Camps-Valls, Gustau ; Sippel, Sebastian ; Székely, EnikH o ; Sejdinovic, Dino ; Diaz, Emiliano ; Pérez-Suay, Adrián ; Li, Zhu ; Mahecha, Miguel ; et al.: Physics-aware nonparametric regression models for Earth data analysis. In: Environ. Res. Lett. vol. 17, IOP Publishing (2022), Nr. 5, p. 054034

Abstract Process understanding and modeling is at the core of scientific reasoning. Principled parametric and mechanistic modeling dominated science and engineering until the recent emergence of machine learning (ML). Despite great success in many areas, ML algorithms in the Earth and climate sciences, and more broadly in physical sciences, are not explicitly designed to be physically-consistent and may, therefore, violate the most basic laws of physics. In this work, motivated by the field of algorithmic fairness, we reconcile data-driven ML with physics modeling by illustrating a nonparametric and nonlinear physics-aware regression method. By incorporating a dependence-based regularizer, the method leads to models that are consistent with domain knowledge, as reflected by either simulations from physical models or ancillary data. The idea can conversely encourage independence of model predictions with other variables that are known to be uncertain either in their representation or magnitude. The method is computationally efficient and comes with a closed-form analytic solution. Through a consistency-vs-accuracy path diagram, one can assess the consistency between data-driven models and physical models. We demonstrate in three examples on simulations and measurement data in Earth and climate studies that the proposed ML framework allows us to trade-off physical consistency and accuracy.
da Rocha, Ulisses Nunes ; Kasmanas, Jonas Coelho ; Kallies, René ; Saraiva, Joao Pedro ; Toscan, Rodolfo Brizola ; Štefanivc, Polonca ; Bicalho, Marcos Fleming ; Correa, Felipe Borim ; Baştürk, Merve Nida ; et al.: MuDoGeR: Multi-domain genome recovery from metagenomes made easy. In: bioRxiv, Cold Spring Harbor Laboratory (2022), pp. 2022–06
Dachselt, Raimund ; Gaggl, Sarah Alice ; Krötzsch, Markus ; Méndez, Julián ; Rusovac, Dominik ; Yang, Mei: NEXAS: A Visual Tool for Navigating and Exploring Argumentation Solution Spaces.. In: Toni, F. ; Polberg, S. ; Booth, R. ; Caminada, M. ; Kido, H. (eds.): Proceedings of the 9th International Conference on Computational Models of Argument (COMMA 2022), FAIA. vol. 220146. Netherlands : IOS Press, Amsterdam [u. a.], 2022. — Publisher Copyright: textcopyright 2022 The authors and IOS Press. All rights reserved. — ISBN 9781643683065, pp. 116–127

Recent developments on solvers for abstract argumentation frameworks (AFs) made them capable to compute extensions for many semantics efficiently. However, for many input instances these solution spaces can become very large and incomprehensible. So far, for the further exploration and investigation of the AF solution space the user needs to use post-processing methods or handcrafted tools. To compare and explore the solution spaces of two selected semantics, we propose an approach that visually supports the user, via a combination of dimensionality reduction of argumentation extensions and a projection of extensions to sets of accepted or rejected arguments. We introduce the novel web-based visualization tool NEXAS that allows for an interactive exploration of the solution space together with a statistical analysis of the acceptance of individual arguments for the selected semantics, as well as provides an interactive correlation matrix for the acceptance of arguments. We validate the tool with a walk-Through along three use cases.
Dachselt, Raimund ; Gaggl, Sarah ; Krötzsch, Markus ; Méndez, Julián ; Rusovac, Dominik ; Yang, Mei: NEXAS: A Visual Tool for Navigating and Exploring Argumentation Solution Spaces. In: Computational Models of Argument: Proceedings of COMMA 2022 vol. 353, IOS Press (2022), p. 116
De Camargo e Souza CÃ¢mara, Igor ; Turhan, Anni-Yasmin: Rational Defeasible Subsumption in DLs with Nested Quantifiers: the Case of ELIâŠ¥ (2022)
Deckers, Niklas ; Fröbe, Maik ; Kiesel, Johannes ; Pandolfo, Gianluca ; Schröder, Christopher ; Stein, Benno ; Potthast, Martin: The infinite index: Information retrieval on generative text-to-image models, arXiv (2022)

Conditional generative models such as DALL-E and Stable Diffusion generate images based on a user-defined text, the prompt. Finding and refining prompts that produce a desired image has become the art of prompt engineering. Generative models do not provide a built-in retrieval model for a user's information need expressed through prompts. In light of an extensive literature review, we reframe prompt engineering for generative models as interactive text-based retrieval on a novel kind of ``infinite index''. We apply these insights for the first time in a case study on image generation for game design with an expert. Finally, we envision how active learning may help to guide the retrieval of generated images.
del Alamo, Diego ; DeSousa, Lillian ; Nair, Rahul M. ; Rahman, Suhaila ; Meiler, Jens ; Mchaourab, Hassane S.: Integrated AlphaFold2 and DEER investigation of the conformational dynamics of a pH-dependent APC antiporter. In: Proceedings of the National Academy of Sciences vol. 119, Proceedings of the National Academy of Sciences (2022), Nr. 34
del Alamo, Diego ; Sala, Davide ; Mchaourab, Hassane S ; Meiler, Jens: Sampling alternative conformational states of transporters and receptors with AlphaFold2. In: eLife vol. 11, eLife Sciences Publications, Ltd (2022)
Diebel-Fischer, H.: Zerlegt die Digitalisierung Verantwortung? : Ethische Herausforderungen sozio-technischer Systeme : Universität Rostock, 2022
Diebel-Fischer, Hermann: Ethik und technisches Handeln. Eine Verhältnisbestimmung zweier Aspekte des menschlichen Lebensvollzugs.. In: Kammasch, G. ; Keil, S. ; Winkler, D. (eds.): Wege zu technischer Bildung. Deutschland : Ingenieur-Pädagogische Wissensgesellschaft, 2022 — ISBN 9783981872859, pp. 135–140
Diebel-Fischer, Hermann: Rezension zu: Alexis Fritz, Christof Mandry, Ingo Proft, Jo-sef Schuster (Hrsg) (2021) Digitalisierung im Gesundheitswesen. Anthropologische und ethische Herausforderungen der Mensch-Maschine-Interaktion: Jahrbuch fÃ¼r Moraltheolo-gie, Bd. 5, Herder, Freiburg i.Br (2022)
Diebel-Fischer, Hermann: Democratizing Algorithms? An Assessment of a Potentially Dangerous Endeavor (2022)
Diebel-Fischer, Hermann ; Hellmig, Lutz: Ethische Fragen und informatische Modelle – eine symbiotische Beziehung in der informatischen Bildung, Gesellschaft für Informatik,Bonn (2022) — ISBN 978-3-88579-720-3
Diebel-Fischer, Hermann ; Hellmig, Lutz ; Tischler, Maya: Technik und Verantwortung im Zeitalter der Digitalisierung, Universität Rostock (2022)
Diebel-Fischer, Hermann ; Lehmann, Christoph: Lost in translation? Capturing the world in data considering ethics.
Donnadieu, Emmanuel ; Luu, Maik ; Alb, Miriam ; Anliker, Brigitte ; Arcangeli, Silvia ; Bonini, Chiara ; De Angelis, Biagio ; Choudhary, Rashmi ; Espie, David ; et al.: Time to evolve: predicting engineered T cell-associated toxicity with next-generation models. In: Journal for ImmunoTherapy of Cancer vol. 10, BMJ (2022), Nr. 5, p. e003486
Donner, Mana-Teresa: Digitalisierung von Prüfungsformaten in der Hochschullehre - Coronabedingte Veränderungen der universitären Prüfungsprozesse aus Sicht von Hochschullehrenden der Universität Graz, Karl-Franzens-Universität Graz, Master thesis, 2022

Ein zentrales Element jeder effektiven Lehr- und Lernstrategie ist die Bewertung. Damit eng verbunden ist die ständige Herausforderung seitens Hochschullehrender eine geeignete Bewertungsstrategie zu entwickeln, da die Bewertungsstruktur passend auf die beabsichtigten Lernergebnisse abgestimmt sein muss. Die im Frühjahr 2020 coronabedingte Welle der Digitalisierung im Bereich der Hochschullehre eröffnete neben den veränderten Lehr- und Lernmethoden auch neue Prüfungsformen und Bewertungsansätze. Im Zuge der Studie wird das Ziel verfolgt zu erforschen, inwieweit sich die digitale Prüfungsrealisierung im Vergleich zu jenen in Präsenz unterscheiden. Damit Unterscheidungen in den Bereichen Prüfungsformate, Prüfungsgestaltung sowie Strategien zur Prüfungsrealisierung möglich sind, werden mit 12 Hochschullehrenden der Universität Graz Leitfadeninterviews durchgeführt sowie 14 Prüfungsbögen aus der Präsenz- und Online-Lehre über eine Dokumentenanalyse miteinander verglichen. Es zeigt sich, dass die Strategien der Prüfungsrealisierung und auch die Prüfungsformate von der Lehrveranstaltungsgröße abhängig sind. Bei Online-Prüfungen werden zudem vermehrt Verständnis- und Transferfragen sowie Open-Book Prüfungen eingesetzt, um der verminderten Kontrolle im Online-Setting entgegenwirken zu können. In der digitalen Prüfungsrealisierung stehen den Lehrenden zahlreiche Möglichkeiten der Prüfungsformate, aber auch Maßnahmen gegen Täuschungsversuche zur Verfügung. Der:Die Lehrende sollte dabei im Sinne der konstruktiven Ausrichtung agieren und das Prüfungsformat sowie die einzelnen Prüfungsitems auf die intendierten Lernziele und die jeweiligen Lerninhalte der Lehrveranstaltung abstimmen.
Dvov rák, Wolfgang ; König, Matthias ; Ulbricht, Markus ; Woltran, Stefan: Rediscovering argumentation principles utilizing Collective Attacks, arXiv (2022)

Argumentation Frameworks (AFs) are a key formalism in AI research. Their semantics have been investigated in terms of principles, which define characteristic properties in order to deliver guidance for analysing established and developing new semantics. Because of the simple structure of AFs, many desired properties hold almost trivially, at the same time hiding interesting concepts behind syntactic notions. We extend the principle-based approach to Argumentation Frameworks with Collective Attacks (SETAFs) and provide a comprehensive overview of common principles for their semantics. Our analysis shows that investigating principles based on decomposing the given SETAF (e.g. directionality or SCC-recursiveness) poses additional challenges in comparison to usual AFs. We introduce the notion of the reduct as well as the modularization principle for SETAFs which will prove beneficial for this kind of investigation. We then demonstrate how our findings can be utilized for incremental computation of extensions and give a novel parameterized tractability result for verifying preferred extensions.
Dvov rák, Wolfgang ; Ulbricht, Markus ; Woltran, Stefan: Recursion in abstract argumentation is hard --- on the complexity of semantics based on weak admissibility. In: J. Artif. Intell. Res. vol. 74, AI Access Foundation (2022), pp. 1403–1447

We study the computational complexity of abstract argumentation semantics based on weak admissibility, a recently introduced concept to deal with arguments of self-defeating nature. Our results reveal that semantics based on weak admissibility are of much higher complexity (under typical assumptions) compared to all argumentation semantics which have been analysed in terms of complexity so far. In fact, we show PSPACE-completeness of all non-trivial standard decision problems for weak-admissible based semantics. We then investigate potential tractable fragments and show that restricting the frameworks under consideration to certain graph-classes significantly reduces the complexity. We also show that weak-admissibility based extensions can be computed by dividing the given graph into its strongly connected components (SCCs). This technique ensures that the bottleneck when computing extensions is the size of the largest SCC instead of the size of the graph itself and therefore contributes to the search for fixed-parameter tractable implementations for reasoning with weak admissibility.
Ebel, Patrick ; Gülle, Kim Julian ; Lingenfelder, Christoph ; Vogelsang, Andreas: ICEBOAT: An Interactive User Behavior Analysis Tool for Automotive User Interfaces.. In: Adjunct Proceedings of the 35th Annual ACM Symposium on User Interface Software and Technology, UIST ’22 Adjunct. Bend, OR, USA : Association for Computing Machinery, 2022 — ISBN 9781450393218

In this work, we present ICEBOAT an interactive tool that enables automotive UX experts to explore how users interact with In-Vehicle Information Systems (IVISs). Based on large naturalistic driving data continuously collected from production line vehicles, ICEBOAT visualizes drivers’ interactions and driving behavior on different levels of detail. Hence, it allows to easily compare different user flows based on performance- and safety-related metrics.
Ebert, Matthias P ; Meindl-Beinker, Nadja M ; Gutting, Tobias ; Maenz, Martin ; Betge, Johannes ; Schulte, Nadine ; Zhan, Tianzuo ; Weidner, Philip ; Burgermeister, Elke ; et al.: Second-line therapy with nivolumab plus ipilimumab for older patients with oesophageal squamous cell cancer (RAMONA): a multicentre, open-label phase 2 trial. In: Lancet Healthy Longev. vol. 3, Elsevier BV (2022), Nr. 6, pp. e417-e427

BACKGROUND: The overall survival of patients with advanced and refractory oesophageal squamous cell carcinoma, mostly aged 65 years and older, is poor. Treatment with PD-1 antibodies showed improved progression-free survival and overall survival. We assessed the safety and efficacy of combined nivolumab and ipilimumab therapy in this population. METHODS: This multicentre, open-label, phase 2 trial done in 32 sites in Germany included patients aged 65 years and older with oesophageal squamous cell carcinoma and disease progression or recurrence following first-line therapy. Patients were treated with nivolumab (240 mg fixed dose once every 2 weeks, intravenously) in the safety run-in phase and continued with nivolumab and ipilimumab (nivolumab 240 mg fixed dose once every 2 weeks and ipilimumab 1 mg/kg once every 6 weeks, intravenously). The primary endpoint was overall survival, which was compared with a historical cohort receiving standard chemotherapy in the intention-to-treat population. This study is registered with ClinicalTrials.gov, NCT03416244. FINDINGS: Between March 2, 2018, and Aug 20, 2020, we screened 75 patients with advanced oesophageal squamous cell carcinoma. We enrolled 66 patients (50 [76%] men and 16 [24%] women; median age 70·5 years [IQR 67·0-76·0]), 44 (67%) of whom received combined nivolumab and ipilimumab therapy and 22 (33%) received nivolumab alone. Median overall survival time at the prespecified data cutoff was 7·2 months (95% CI 5·7-12·4) and significantly higher than in a historical cohort receiving standard chemotherapy (p=0·0063). The most common treatment-related adverse events were fatigue (12 [29%] of 42), nausea (11 [26%]), and diarrhoea (ten [24%]). Grade 3-5 treatment-related adverse events occurred in 13 (20%) of 66 patients. Treatment-related death occurred in one patient with bronchiolitis obliterans while on nivolumab and ipilimumab treatment. INTERPRETATION: Patients aged at least 65 years, with advanced oesophageal squamous cell carcinoma might benefit from combined nivolumab and ipilimumab therapy in second-line treatment. FUNDING: Bristol Myers Squibb.
Egger, Rudolf ; Hummel, Sandra: Biographieforschung und Hochschulforschung.. In: Nittel, D. ; von Felden, H. ; Mendel, M. (eds.): Erziehungswissenschaftliche Biographieforschung und Biographiearbeit. Deutschland : Verlag Julius Beltz GmbH, 2022 — ISBN 978-3-7799-6107-9, pp. 574–585
Eggers, Dustyn ; Höner zu Siederdissen, Christian ; Stadler, Peter F.: Accuracy of RNA Structure Prediction Depends on the Pseudoknot Grammar.. In: Advances in Bioinformatics and Computational Biology : Springer Nature Switzerland, 2022 — ISBN 9783031211751, pp. 20–31
Eidi, Marzieh: Topological and geometric methods with a view towards data analysis, Universität Leipzig, PhD dissertation, 2022
Elhalawati, Ali ; Krötzsch, Markus ; Mennicke, Stephan: An Existential Rule Framework for~Computing Why-Provenance On-Demand for~Datalog.. In: Rules and Reasoning : Springer International Publishing, 2022, pp. 146–163
Ellmauthaler, Stefan ; Gaggl, Sarah Alice ; Rusovac, Dominik ; Wallner, Johannes P: Representing abstract dialectical frameworks with binary decision diagrams.. In: Logic Programming and Nonmonotonic Reasoning, Lecture notes in computer science. Cham : Springer International Publishing, 2022, pp. 177–189
Ellmauthaler, Stefan ; Gaggl, Sarah Alice ; Rusovac, Dominik ; Wallner, Johannes P.: ADF - BDD : An ADF Solver Based on Binary Decision Diagrams.. In: Toni, F. ; Polberg, S. ; Booth, R. ; Caminada, M. ; Kido, H. (eds.): Proceedings of the 9th International Conference on Computational Models of Argument (COMMA 2022), FAIA. vol. 220146. Netherlands : IOS Press, Amsterdam [u. a.], 2022. — Funding Information: 1This work is partly supported by the BMBF, Grant 01IS20056 NAVAS, by the Center for Scalable Data Analytics and Artificial Intelligence (ScaDS.AI), and by the DFG through the Collaborative Research Center, Grant TRR 248 project ID 389792660. 2https://github.com/ellmau/adf-obdd, version 0.2.4, https://crates.io/crates/adf_bdd 3https://crates.io/crates/biodivine-lib-bdd — ISBN 9781643683065, pp. 355–356
Ellmauthaler, Stefan ; Krötzsch, Markus ; Mennicke, Stephan: Answering queries with negation over existential rules. In: Proc. Conf. AAAI Artif. Intell. vol. 36, Association for the Advancement of Artificial Intelligence (AAAI) (2022), Nr. 5, pp. 5626–5633

Ontology-based query answering with existential rules is well understood and implemented for positive queries, in particular conjunctive queries. For queries with negation, however, there is no agreed-upon semantics or standard implementation. This problem is unknown for simpler rule languages, such as Datalog, where it is intuitive and practical to evaluate negative queries over the least model. This fails for existential rules, which instead of a single least model have multiple universal models that may not lead to the same results for negative queries. We therefore propose universal core models as a basis for a meaningful (non-monotonic) semantics for queries with negation. Since cores are hard to compute, we identify syntactic conditions (on rules and queries) under which our core-based semantics can equivalently be obtained for other universal models, such as those produced by practical chase algorithms. Finally, we use our findings to propose a semantics for a broad class of existential rules with negation.
Elstner, Theresa ; Kiesel, Johannes ; Meyer, Lars ; Martius, Max ; Schmidt, Sebastian ; Stein, Benno ; Potthast, Martin: Visual Web Archive Quality Assessment.. In: Linking Theory and Practice of Digital Libraries, Lecture notes in computer science. Cham : Springer International Publishing, 2022, pp. 365–371
Ender, Anna ; Grafl, Nadine ; Kolberg, Tim ; Findeiß, Sven ; Stadler, Peter F ; Mörl, Mario: Synthetic riboswitches for the analysis of tRNA processing by eukaryotic RNase P enzymes. In: RNA vol. 28, Cold Spring Harbor Lab (2022), Nr. 4, pp. 551–567
Ender, Anna ; Stadler, Peter F ; Mörl, Mario ; Findeiß, Sven: RNA design principles for riboswitches that regulate RNase P-mediated tRNA processing.. In: Riboregulator Design and Analysis : Springer, 2022, pp. 179–202
Engelhardt, Jan ; Scheer, Oliver ; Stadler, Peter ; Prohaska, Sonja: Evolution of DNA Methylation Across Ecdysozoa. In: Journal of Molecular Evolution vol. 90 (2022)
Falakh, Faiq Miftakhul ; Rudolph, Sebastian: AGM Revision in Description Logics Under Fixed-Domain Semantics (2022)
Falakh, Faiq Miftakhul ; Rudolph, Sebastian ; Sauerwald, Kai: Semantic Characterizations of AGM Revision for Tarskian Logics.. In: Governatori, G. ; Turhan, A.-Y. (eds.): Proceedings of the 6th International Joint Conference on Rules and Reasoning (RuleML+RR 2022), LNCS. vol. 13752 : Springer, 2022, pp. 95–110
Fallmann, Jörg ; Goldmann, Robin ; Stadler, Peter F: MONSDA: Modular Organizer of Nextflow and Snakemake Driven HTS Data Analysis, OSF Preprints (2022)
Fischer, Marion F. S. ; Crowe, James E. ; Meiler, Jens: Computational epitope mapping of class I fusion proteins using low complexity supervised learning methods. In: Schneidman, D. (ed.) PLOS Computational Biology vol. 18, Public Library of Science (PLoS) (2022), Nr. 12, p. e1010230
Flegel, Thomas ; Neumann, Anja ; Holst, Anna-Lena ; Kretzschmann, Olivia ; Loderstedt, Shenja ; Tästensen, Carina ; Gutmann, Sarah ; Dietzel, Josephine ; Becker, Lisa Franziska ; et al.: Machine learning algorithms predict canine structural epilepsy with high accuracy. In: Frontiers in Veterinary Science vol. 11 (2024)

Introduction
Clinical reasoning in veterinary medicine is often based on clinicians’ personal experience in combination with information derived from publications describing cohorts of patients. Studies on the use of scientific methods for patient individual decision making are largely lacking. This applies to the prediction of the individual underlying pathology in seizuring dogs as well. The aim of this study was to apply machine learning to the prediction of the risk of structural epilepsy in dogs with seizures.
Materials and methods
Dogs with a history of seizures were retrospectively as well as prospectively included. Data about clinical history, neurological examination, diagnostic tests performed as well as the final diagnosis were collected. For data analysis, the Bayesian Network and Random Forest algorithms were used. A total of 33 features for Random Forest and 17 for Bayesian Network were available for analysis. The following four feature selection methods were applied to select features for further analysis: Permutation Importance, Forward Selection, Random Selection and Expert Opinion. The two algorithms Bayesian Network and Random Forest were trained to predict structural epilepsy using the selected features.
Results
A total of 328 dogs of 119 different breeds were identified retrospectively between January 2017 and June 2021, of which 33.2% were diagnosed with structural epilepsy. An overall of 89,848 models were trained. The Bayesian Network in combination with the Random feature selection performed best. It was able to predict structural epilepsy with an accuracy of 0.969 (sensitivity: 0.857, specificity: 1.000) among all dogs with seizures using the following features: age at first seizure, cluster seizures, seizure in last 24 h, seizure in last 6 month, and seizure in last year.
Conclusion
Machine learning algorithms such as Bayesian Networks and Random Forests identify dogs with structural epilepsy with a high sensitivity and specificity. This information could provide some guidance to clinicians and pet owners in their clinical decision-making process.
Fränzl, Martin ; Cichos, Frank: Hydrodynamic manipulation of nano-objects by optically induced thermo-osmotic flows. In: Nature communications vol. 13, Nature Publishing Group UK London (2022), Nr. 1, p. 656
Franczyk, Bogdan ; Zwanzger, Michael ; Heyer, Gerhard ; Krajsic, Philippe ; Käßner, Martin ; Gass, Leonie ; Ebenthal, Loana ; Herrbruck, Leon ; Lahr, Daniel ; et al.: ELISA-Intelligent consumer protection system to enforce tenancy rights (Intelligentes Verbrauchschutzsystem zur Durchsetzung von Mietrechten): Schlussbericht, Stand September 2022: Projektlaufzeit: 01.01. 2020-30.06. 2022 : Universität Leipzig, 2022
Frey, Johannes ; Götz, Fabian ; Hofer, Marvin ; Hellmann, Sebastian: Managing and Compiling Data Dependencies for Semantic Applications Using Databus Client.. In: , 2022 — ISBN 978-3-030-98875-3, pp. 114–125
Fritzsch, Clemens ; Hoffmann, Jorn ; Bogdan, Martin: Reduction of bitstream size for low-cost iCE40 FPGAs.. In: 2022 32nd International Conference on Field-Programmable Logic and Applications (FPL). Belfast, United Kingdom : IEEE, 2022
Fritzsch, Clemens ; Hoffmann, Jorn ; Bogdan, Martin: Evolving hardware by direct bitstream manipulation of a modern FPGA.. In: 2022 IEEE Congress on Evolutionary Computation (CEC). Padua, Italy : IEEE, 2022
Fröbe, Maik ; Akiki, Christopher ; Potthast, Martin ; Hagen, Matthias: How train-test leakage affects zero-shot retrieval, arXiv (2022)

Neural retrieval models are often trained on (subsets of) the millions of queries of the MS MARCO / ORCAS datasets and then tested on the 250 Robust04 queries or other TREC benchmarks with often only 50 queries. In such setups, many of the few test queries can be very similar to queries from the huge training data -- in fact, 69% of the Robust04 queries have near-duplicates in MS MARCO / ORCAS. We investigate the impact of this unintended train-test leakage by training neural retrieval models on combinations of a fixed number of MS MARCO / ORCAS queries that are highly similar to the actual test queries and an increasing number of other queries. We find that leakage can improve effectiveness and even change the ranking of systems. However, these effects diminish as the amount of leakage among all training instances decreases and thus becomes more realistic.
Fröbe, Maik ; Akiki, Christopher ; Potthast, Martin ; Hagen, Matthias: Noise-reduction for automatically transferred relevance judgments.. In: Lecture Notes in Computer Science, Lecture notes in computer science. Cham : Springer International Publishing, 2022, pp. 48–61
Fröbe, Maik ; Günther, Sebastian ; Probst, Maximilian ; Potthast, Martin ; Hagen, Matthias: The Power of Anchor Text in the Neural Retrieval Era.. In: , 2022 — ISBN 978-3-030-99735-9, pp. 567–583
Fröbe, Maik ; Günther, Sebastian ; Probst, Maximilian ; Potthast, Martin ; Hagen, Matthias: Webis-MS-MARCO-Anchor-Texts-22, Zenodo (2022)

The Webis MS MARCO Anchor Text 2022 dataset enriches Version 1 and 2 of the document collection of MS MARCO with anchor text extracted from six Common Crawl snapshots. The six Common Crawl snapshots cover the years 2016 to 2021 (between 1.7-3.4 billion documents each). We sampled 1,000 anchor texts for documents with more than 1,000 anchor texts at random and all anchor texts for documents with less than 1,000 anchor texts (this sampling yields that all anchor text is included for 94% of the documents in Version 1 and 97% of documents for Version 2). Overall, the MS MARCO Anchor Text 2022 dataset enriches 1,703,834 documents for Version 1 and 4,821,244 documents for Version 2 with anchor text. Cleaned versions of the MS MARCO Anchor Text 2022 dataset are available in ir_datasets, Zenodo and Hugging Face. The raw dataset with additional information and all metadata for the extracted anchor texts (roughly 100GB) is available on Hugging Face and files.webis.de. The details of the construction of the Webis MS MARCO Anchor Text 2022 dataset are described in the associated paper. If you use this dataset, please cite @InProceedingsfroebe:2022a, address = Berlin Heidelberg New York, author = Maik Fr``obe and Sebastian G''unther and Maximilian Probst and Martin Potthast and Matthias Hagen, booktitle = Advances in Information Retrieval. 44th European Conference on IR Research (ECIR 2022), editor = Matthias Hagen and Suzan Verberne and Craig Macdonald and Christin Seifert and Krisztian Balog and Kjetil Norvrag and Vinay Setty, month = apr, publisher = Springer, series = Lecture Notes in Computer Science, site = Stavanger, Norway, title = The Power of Anchor Text in the Neural Retrieval Era, year = 2022
Funk, Maurice ; Jung, Jean Christoph ; Lutz, Carsten: Frontiers and exact learning of ELI queries under DL-Lite ontologies.. In: Proceedings of the Thirty-First International Joint Conference on Artificial Intelligence. Vienna, Austria : International Joint Conferences on Artificial Intelligence Organization, 2022

We study ELI queries (ELIQs) in the presence of ontologies formulated in the description logic DL-Lite. For the dialect DL-LiteH, we show that ELIQs have a frontier (set of least general generalizations) that is of polynomial size and can be computed in polynomial time. In the dialect DL-LiteF, in contrast, frontiers may be infinite. We identify a natural syntactic restriction that enables the same positive results as for DL-LiteH. We use our results on frontiers to show that ELIQs are learnable in polynomial time in the presence of a DL-LiteH / restricted DL-LiteF ontology in Angluin's framework of exact learning with only membership queries.
Gaggl, Sarah Alice ; Hanisch, Philipp ; Krötzsch, Markus: Simulating sets in answer set programming.. In: Proceedings of the Thirty-First International Joint Conference on Artificial Intelligence. Vienna, Austria : International Joint Conferences on Artificial Intelligence Organization, 2022

We study the extension of non-monotonic disjunctive logic programs with terms that represent sets of constants, called DLP(S), under the stable model semantics. This strictly increases expressive power, but keeps reasoning decidable, though cautious entailment is coNEXPTIME^NP-complete, even for data complexity. We present two new reasoning methods for DLP(S): a semantics-preserving translation of DLP(S) to logic programming with function symbols, which can take advantage of lazy grounding techniques, and a ground-and-solve approach that uses non-monotonic existential rules in the grounding stage. Our evaluation considers problems of ontological reasoning that are not in scope for traditional ASP (unless EXPTIME =$Pi$P2 ), and we find that our new existential-rule grounding performs well in comparison with native implementations of set terms in ASP.
Gatter, Thomas ; Stadler, Peter F: Kosteneffektive hybride Genomassemblierung mit LazyB. In: BIOspektrum vol. 28, Springer (2022), Nr. 3, pp. 283–286
Gerritzen, Johannes ; Hornig, Andreas ; Gröger, Benjamin ; Gude, Maik: A Data Driven Modelling Approach for the Strain Rate Dependent 3D Shear Deformation and Failure of Thermoplastic Fibre Reinforced Composites: Experimental Characterisation and Deriving Modelling Parameters. In: Journal of Composites Science vol. 6, MDPI (2022), Nr. 10, p. 318
Ghaffari Laleh, Narmin ; Loeffler, Chiara Maria Lavinia ; Grajek, Julia ; Stav nková, Katev rina ; Pearson, Alexander T ; Muti, Hannah Sophie ; Trautwein, Christian ; Enderling, Heiko ; Poleszczuk, Jan ; et al.: Classical mathematical models for prediction of response to chemotherapy and immunotherapy. In: PLoS Comput. Biol. vol. 18, Public Library of Science (PLoS) (2022), Nr. 2, p. e1009822

Classical mathematical models of tumor growth have shaped our understanding of cancer and have broad practical implications for treatment scheduling and dosage. However, even the simplest textbook models have been barely validated in real world-data of human patients. In this study, we fitted a range of differential equation models to tumor volume measurements of patients undergoing chemotherapy or cancer immunotherapy for solid tumors. We used a large dataset of 1472 patients with three or more measurements per target lesion, of which 652 patients had six or more data points. We show that the early treatment response shows only moderate correlation with the final treatment response, demonstrating the need for nuanced models. We then perform a head-to-head comparison of six classical models which are widely used in the field: the Exponential, Logistic, Classic Bertalanffy, General Bertalanffy, Classic Gompertz and General Gompertz model. Several models provide a good fit to tumor volume measurements, with the Gompertz model providing the best balance between goodness of fit and number of parameters. Similarly, when fitting to early treatment data, the general Bertalanffy and Gompertz models yield the lowest mean absolute error to forecasted data, indicating that these models could potentially be effective at predicting treatment outcome. In summary, we provide a quantitative benchmark for classical textbook models and state-of-the art models of human tumor growth. We publicly release an anonymized version of our original data, providing the first benchmark set of human tumor growth data for evaluation of mathematical models.
Ghaffari Laleh, Narmin ; Muti, Hannah Sophie ; Loeffler, Chiara Maria Lavinia ; Echle, Amelie ; Saldanha, Oliver Lester ; Mahmood, Faisal ; Lu, Ming Y ; Trautwein, Christian ; Langer, Rupert ; et al.: Benchmarking weakly-supervised deep learning pipelines for whole slide classification in computational pathology. In: Med. Image Anal. vol. 79, Elsevier BV (2022), Nr. 102474, p. 102474

Artificial intelligence (AI) can extract visual information from histopathological slides and yield biological insight and clinical biomarkers. Whole slide images are cut into thousands of tiles and classification problems are often weakly-supervised: the ground truth is only known for the slide, not for every single tile. In classical weakly-supervised analysis pipelines, all tiles inherit the slide label while in multiple-instance learning (MIL), only bags of tiles inherit the label. However, it is still unclear how these widely used but markedly different approaches perform relative to each other. We implemented and systematically compared six methods in six clinically relevant end-to-end prediction tasks using data from N=2980 patients for training with rigorous external validation. We tested three classical weakly-supervised approaches with convolutional neural networks and vision transformers (ViT) and three MIL-based approaches with and without an additional attention module. Our results empirically demonstrate that histological tumor subtyping of renal cell carcinoma is an easy task in which all approaches achieve an area under the receiver operating curve (AUROC) of above 0.9. In contrast, we report significant performance differences for clinically relevant tasks of mutation prediction in colorectal, gastric, and bladder cancer. In these mutation prediction tasks, classical weakly-supervised workflows outperformed MIL-based weakly-supervised methods for mutation prediction, which is surprising given their simplicity. This shows that new end-to-end image analysis pipelines in computational pathology should be compared to classical weakly-supervised methods. Also, these findings motivate the development of new methods which combine the elegant assumptions of MIL with the empirically observed higher performance of classical weakly-supervised approaches. We make all source codes publicly available at https://github.com/KatherLab/HIA, allowing easy application of all methods to any similar task.
Gienapp, Lukas ; Fröbe, Maik ; Hagen, Matthias ; Potthast, Martin: Sparse pairwise re-ranking with pre-trained transformers, arXiv (2022)

Pairwise re-ranking models predict which of two documents is more relevant to a query and then aggregate a final ranking from such preferences. This is often more effective than pointwise re-ranking models that directly predict a relevance value for each document. However, the high inference overhead of pairwise models limits their practical application: usually, for a set of $k$ documents to be re-ranked, preferences for all $k^2-k$ comparison pairs excluding self-comparisons are aggregated. We investigate whether the efficiency of pairwise re-ranking can be improved by sampling from all pairs. In an exploratory study, we evaluate three sampling methods and five preference aggregation methods. The best combination allows for an order of magnitude fewer comparisons at an acceptable loss of retrieval effectiveness, while competitive effectiveness is already achieved with about one third of the comparisons.
Girstmair, Johannes ; Moon, HongKee ; Brillard, Charlène ; Haase, Robert ; Tomancak, Pavel: Time to upgrade: A new OpenSPIM guide to build and operate advanced OpenSPIM configurations. In: Advanced biology vol. 6 (2022), Nr. 4, p. 2101182
Gonzalez Somermeyer, Louisa ; Fleiss, Aubin ; Mishin, Alexander S ; Bozhanova, Nina G ; Igolkina, Anna A ; Meiler, Jens ; Alaball Pujol, Maria-Elisenda ; Putintseva, Ekaterina V ; Sarkisyan, Karen S ; et al.: Heterogeneity of the GFP fitness landscape and data-driven protein design. In: eLife vol. 11, eLife Sciences Publications, Ltd (2022)
González, Larry ; Ivliev, Alex ; Krötzsch, Markus ; Mennicke, Stephan: Efficient Dependency Analysis for Rule-Based Ontologies.. In: Sattler, U. ; Hogan, A. ; Keet, M. ; Presutti, V. ; Almeida, J. P. A. ; Takeda, H. ; Monnin, P. ; Pirrò, G. ; dtextquoterightAmato, C. (eds.): The Semantic Web – ISWC 2022, Lecture Notes in Computer Science, Volume 13489. Germany : Springer, Berlin [u. a.], 2022. — Publisher Copyright: textcopyright 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG. — ISBN 978-3-031-19432-0, pp. 267–283

Several types of dependencies have been proposed for the static analysis of existential rule ontologies, promising insights about computational properties and possible practical uses of a given set of rules, e.g., in ontology-based query answering. Unfortunately, these dependencies are rarely implemented, so their potential is hardly realised in practice. We focus on two kinds of rule dependencies – positive reliances and restraints – and design and implement optimised algorithms for their efficient computation. Experiments on real-world ontologies of up to more than 100,000 rules show the scalability of our approach, which lets us realise several previously proposed applications as practical case studies. In particular, we can analyse to what extent rule-based bottom-up approaches of reasoning can be guaranteed to yield redundancy-free “lean” knowledge graphs (so-called cores) on practical ontologies.
Gornik, Sebastian G ; Flores, Victor ; Reinhardt, Franziska ; Erber, Lieselotte ; Salas-Leiva, Dayana E ; Douvropoulou, Olga ; Lassadi, Imen ; Einarsson, Elin ; Mörl, Mario ; et al.: Mitochondrial genomes in Perkinsus decode conserved frameshifts in all genes. In: Molecular biology and evolution vol. 39, Oxford University Press US (2022), Nr. 10, p. msac191
Gospodnetic, Petra ; Gillmann, Christina ; Scheuermann, Gerik: Special Issue on Visualization in Manufacturing. In: IEEE Computer Graphics and Applications vol. 42 (2022), Nr. 2, pp. 8–9

The articles in this special section focus on visualization in manufacturing. While the overall idea of manufacturing might seem straightforward, the manufacturing processes themselves are extremely diverse, complex, and specialized depending on the area of application. Regardless of whether the raw materials are being transformed into simple objects, or simple objects into more complex systems, what all manufacturing processes have in common is to strive for performance optimization. Consequently, there is a need for various levels of communicating information, such as a manufacturing progress overview, detailed production result communication, or outcome prediction based on different parameters. Visualization tools are a natural answer to those needs as they can help to put large amounts of data into a straightforward and comprehensible context. However, an open question remains—Is it possible to establish common grounds for the field of visualization in manufacturing? The question persists mostly because of dissipated visualization efforts across different scientific fields, thus making it challenging to gather the efforts, compare them, and deduct common challenges and requirements. In this special issue, we decided to provide researchers with a venue where different visualization efforts and challenges in manufacturing can be highlighted, which will further facilitate establishing visualization in manufacturing as a distinct research field.
Grimmer, Martin ; Kaelble, Tim ; Nirsberger, Felix ; Schulze, Emmely ; Rucks, Toni ; Hoffmann, Jörn ; Rahm, Erhard: Dataset Report: LID-DS 2021.. In: International Conference on Critical Information Infrastructures Security : Springer, 2022, pp. 63–73
Groß, David ; Klauck, Michaela ; Gros, Timo P. ; Steinmetz, Marcel ; Hoffmann, Jörg ; Gumhold, Stefan: Glyph-Based Visual Analysis of Q-Leaning Based Action Policy Ensembles on Racetrack.. In: Banissi, E. ; Ursyn, A. ; Bannatyne, M. W. M. ; Pires, J. M. ; Datia, N. ; Nazemi, K. ; Kovalerchuk, B. ; Andonie, R. ; Nakayama, M. ; et al. (eds.): 26th International Conference Information Visualisation, IV 2022, Vienna, Austria, July 19-22, 2022 : IEEE, 2022, pp. 1–10
Guedan, Sonia ; Luu, Maik ; Ammar, Delphine ; Barbao, Paula ; Bonini, Chiara ; Bousso, Philippe ; Buchholz, Christian J ; Casucci, Monica ; De Angelis, Biagio ; et al.: Time 2EVOLVE: predicting efficacy of engineered T-cells – how far is the bench from the bedside?. In: Journal for ImmunoTherapy of Cancer vol. 10, BMJ (2022), Nr. 5, p. e003487
Gulsevin, Alican ; Glazer, Andrew M ; Shields, Tiffany ; Kroncke, Brett M ; Roden, Dan M ; Meiler, Jens: Veratridine can bind to a site at the mouth of the channel pore at human cardiac sodium channel NaV1.5. In: Int. J. Mol. Sci. vol. 23, MDPI AG (2022), Nr. 4, p. 2225

The cardiac sodium ion channel (NaV1.5) is a protein with four domains (DI-DIV), each with six transmembrane segments. Its opening and subsequent inactivation results in the brief rapid influx of Na+ ions resulting in the depolarization of cardiomyocytes. The neurotoxin veratridine (VTD) inhibits NaV1.5 inactivation resulting in longer channel opening times, and potentially fatal action potential prolongation. VTD is predicted to bind at the channel pore, but alternative binding sites have not been ruled out. To determine the binding site of VTD on NaV1.5, we perform docking calculations and high-throughput electrophysiology experiments in the present study. The docking calculations identified two distinct binding regions. The first site was in the pore, close to the binding site of NaV1.4 and NaV1.5 blocking drugs in experimental structures. The second site was at the ``mouth'' of the pore at the cytosolic side, partly solvent-exposed. Mutations at this site (L409, E417, and I1466) had large effects on VTD binding, while residues deeper in the pore had no effect, consistent with VTD binding at the mouth site. Overall, our results suggest a VTD binding site close to the cytoplasmic mouth of the channel pore. Binding at this alternative site might indicate an allosteric inactivation mechanism for VTD at NaV1.5.
Gulsevin, Alican ; Han, Bing ; Porta, Jason C. ; Mchaourab, Hassane S. ; Meiler, Jens ; Kenworthy, Anne K.: Template-free prediction of a new monotopic membrane protein fold and oligomeric assembly by Alphafold2, Cold Spring Harbor Laboratory (2022)
Gulsevin, Alican ; Meiler, Jens: Benchmarking Peptide Structure Prediction with AlphaFold2, Cold Spring Harbor Laboratory (2022)
Gupta, Aryaman ; Günther, Ulrik ; Incardona, Pietro ; Reina, Guido ; Frey, Steffen ; Gumhold, Stefan ; Sbalzarini, Ivo F.: Efficient Raycasting of View-Dependent Piecewise Constant Representations of Volumetric Data, 2022. — 5 pages, 4 figures

We present an efficient raycasting-based rendering algorithm for view-dependent piecewise constant representations of volumetric data. Our algorithm leverages the properties of perspective projection to simplify intersections of rays with the view-dependent frustums that form part of these representations. It also leverages spatial homogeneity in the underlying volume data to minimize memory accesses. We further introduce techniques for skipping empty-space and for dynamic subsampling for accelerated approximate renderings at controlled frame rates. Benchmarks show that responsive frame rates can be achieved close to the viewpoint of generation for HD display resolutions, while providing high-fidelity approximate renderings of Gigabyte-sized volumes.
Gupta, Aryaman ; Incardona, Pietro ; Brock, Anton ; Reina, Guido ; Frey, Steffen ; Gumhold, Stefan ; Günther, Ulrik ; Sbalzarini, Ivo F: Parallel compositing of Volumetric Depth Images for interactive visualization of distributed volumes at high frame rates, arXiv (2022)

We present a parallel compositing algorithm for Volumetric Depth Images (VDIs) of large three-dimensional volume data. Large distributed volume data are routinely produced in both numerical simulations and experiments, yet it remains challenging to visualize them at smooth, interactive frame rates. VDIs are view-dependent piecewise constant representations of volume data that offer a potential solution. They are more compact and less expensive to render than the original data. So far, however, there is no method for generating VDIs from distributed data. We propose an algorithm that enables this by sort-last parallel generation and compositing of VDIs with automatically chosen content-adaptive parameters. The resulting composited VDI can then be streamed for remote display, providing responsive visualization of large, distributed volume data.
Gupta, Aryaman ; Incardona, Pietro ; Hunt, Paul ; Reina, Guido ; Frey, Steffen ; Gumhold, Stefan ; Günther, Ulrik ; Sbalzarini, Ivo: Content-adaptive generation and parallel compositing of volumetric depth images for responsive visualization of large volume data.
Gupta, Aryaman ; Incardona, Pietro ; Hunt, Paul ; Reina, Guido ; Frey, Steffen ; Gumhold, Stefan ; Günther, Ulrik ; Sbalzarini, Ivo F.: Content-adaptive generation and parallel compositing of volumetric depth images for responsive visualization of large volume data, 2022. — 10 pages, 10 figures

We present a content-adaptive generation and parallel compositing algorithm for view-dependent explorable representations of large three-dimensional volume data. Large distributed volume data are routinely produced in both numerical simulations and experiments, yet it remains challenging to visualize them at smooth, interactive frame rates. Volumetric Depth Images (VDIs), view-dependent piece wise-constant representations of volume data, offer a potential solution: they are more compact and less expensive to render than the original data. So far, however, there is no method to generate such representations on distributed data and to automatically adapt the representation to the contents of the data. We propose an approach that addresses both issues by enabling sort-last parallel generation of VDIs with content-adaptive parameters. The resulting VDIs can be streamed for display, providing responsive visualization of large, potentially distributed, volume data.
Guzman, Grover E C ; Stadler, Peter F ; Fujita, André: Efficient eigenvalue counts for tree-like networks. In: Journal of Complex Networks vol. 10 (2022), Nr. 5, p. cnac040. — _eprint: https://academic.oup.com/comnet/article-pdf/10/5/cnac040/45499049/cnac040.pdf

Estimating the number of eigenvalues textbackslashmu_[a,b]textbackslash of a network’s adjacency matrix in a given interval textbackslash[a,b]textbackslash is essential in several fields. The straightforward approach consists of calculating all the eigenvalues in textbackslashO(ntextasciicircum3)textbackslash (where textbackslashntextbackslash is the number of nodes in the network) and then counting the ones that belong to the interval textbackslash[a,b]textbackslash. Another approach is to use Sylvester’s law of inertia, which also requires textbackslashO(ntextasciicircum3)textbackslash. Although both methods provide the exact number of eigenvalues in textbackslash[a,b]textbackslash, their application for large networks is computationally infeasible. Sometimes, an approximation of textbackslashmu_[a,b]textbackslash is enough. In this case, Chebyshev’s method approximates textbackslashmu_[a,b]textbackslash in textbackslashO(textbarEtextbar)textbackslash (where textbackslashtextbarEtextbartextbackslash is the number of edges). This study presents two alternatives to compute textbackslashmu_[a,b]textbackslash for locally tree-like networks: edge- and degree-based algorithms. The former presented a better accuracy than Chebyshev’s method. It runs in textbackslashO(dtextbarEtextbar)textbackslash, where textbackslashdtextbackslash is the number of iterations. The latter presented slightly lower accuracy but ran linearly (textbackslashO(n)textbackslash).
Haar, Christoph ; Buchmann, Erik: IoT Security With INFINITE: The 3-Dimensional Internet Of Things Maturity Model.. In: 2022 9th International Conference on Internet of Things: Systems, Management and Security (IOTSMS), 2022, pp. 1–8
Haar, Christoph ; Buchmann, Erik: IoT Security: A Basic IoT Hardware Security Framework (2022)
Haase, Robert ; Fazeli, Elnaz ; Legland, David ; Doube, Michael ; Culley, Siân ; Belevich, Ilya ; Jokitalo, Eija ; Schorb, Martin ; Klemm, Anna ; et al.: A hitchhiker’s guide through the bio-image analysis software universe. In: Febs Letters vol. 596 (2022), Nr. 19, pp. 2472–2485
Hänel, Tobias ; Kumar, Nishant ; Schlesinger, Dmitrij ; Li, Mengze ; Ünal, Erdem ; Eslami, Abouzar ; Gumhold, Stefan: Enhancing Fairness of Visual Attribute Predictors.. In: Proceedings of the Asian Conference on Computer Vision (ACCV), 2022, pp. 1211–1227
Hagen, Matthias ; Fröbe, Maik ; Jurk, Artur ; Potthast, Martin: Clickbait spoiling via question answering and passage retrieval, arXiv (2022)

We introduce and study the task of clickbait spoiling: generating a short text that satisfies the curiosity induced by a clickbait post. Clickbait links to a web page and advertises its contents by arousing curiosity instead of providing an informative summary. Our contributions are approaches to classify the type of spoiler needed (i.e., a phrase or a passage), and to generate appropriate spoilers. A large-scale evaluation and error analysis on a new corpus of 5,000 manually spoiled clickbait posts -- the Webis Clickbait Spoiling Corpus 2022 -- shows that our spoiler type classifier achieves an accuracy of 80%, while the question answering model DeBERTa-large outperforms all others in generating spoilers for both types.
Hartmann, Tom ; Bannach, Max ; Middendorf, Martin ; Stadler, Peter F. ; Wieseke, Nicolas ; Hellmuth, Marc: Complete edge-colored permutation graphs. In: Advances in Applied Mathematics vol. 139, Elsevier BV (2022), p. 102377
Hauser, Katja ; Kurz, Alexander ; Haggenmüller, Sarah ; Maron, Roman C ; von Kalle, Christof ; Utikal, Jochen S ; Meier, Friedegund ; Hobelsberger, Sarah ; Gellrich, Frank F ; et al.: Explainable artificial intelligence in skin cancer recognition: A systematic review. In: Eur. J. Cancer vol. 167, Elsevier BV (2022), pp. 54–69

BACKGROUND: Due to their ability to solve complex problems, deep neural networks (DNNs) are becoming increasingly popular in medical applications. However, decision-making by such algorithms is essentially a black-box process that renders it difficult for physicians to judge whether the decisions are reliable. The use of explainable artificial intelligence (XAI) is often suggested as a solution to this problem. We investigate how XAI is used for skin cancer detection: how is it used during the development of new DNNs? What kinds of visualisations are commonly used? Are there systematic evaluations of XAI with dermatologists or dermatopathologists? METHODS: Google Scholar, PubMed, IEEE Explore, Science Direct and Scopus were searched for peer-reviewed studies published between January 2017 and October 2021 applying XAI to dermatological images: the search terms histopathological image, whole-slide image, clinical image, dermoscopic image, skin, dermatology, explainable, interpretable and XAI were used in various combinations. Only studies concerned with skin cancer were included. RESULTS: 37 publications fulfilled our inclusion criteria. Most studies (19/37) simply applied existing XAI methods to their classifier to interpret its decision-making. Some studies (4/37) proposed new XAI methods or improved upon existing techniques. 14/37 studies addressed specific questions such as bias detection and impact of XAI on man-machine-interactions. However, only three of them evaluated the performance and confidence of humans using CAD systems with XAI. CONCLUSION: XAI is commonly applied during the development of DNNs for skin cancer detection. However, a systematic and rigorous evaluation of its usefulness in this scenario is lacking.
Heins, Jonathan ; Rook, Jeroen ; Schäpermeier, Lennart ; Kerschke, Pascal ; Bossek, Jakob ; Trautmann, Heike: BBE: Basin-based evaluation of multimodal multi-objective optimization problems.. In: Lecture Notes in Computer Science, Lecture notes in computer science. Cham : Springer International Publishing, 2022, pp. 192–206
Heinz, Céline N ; Echle, Amelie ; Foersch, Sebastian ; Bychkov, Andrey ; Kather, Jakob Nikolas: The future of artificial intelligence in digital pathology - results of a survey across stakeholder groups. In: Histopathology vol. 80, Wiley (2022), Nr. 7, pp. 1121–1127

AIMS: Artificial intelligence (AI) provides a powerful tool to extract information from digitised histopathology whole slide images. During the last 5 years, academic and commercial actors have developed new technical solutions for a diverse set of tasks, including tissue segmentation, cell detection, mutation prediction, prognostication and prediction of treatment response. In the light of limited overall resources, it is presently unclear for researchers, practitioners and policymakers which of these topics are stable enough for clinical use in the near future and which topics are still experimental, but worth investing time and effort into. METHODS AND RESULTS: To identify potentially promising applications of AI in pathology, we performed an anonymous online survey of 75 computational pathology domain experts from academia and industry. Participants enrolled in 2021 were queried about their subjective opinion on promising and appealing subfields of computational pathology with a focus upon solid tumours. The results of this survey indicate that the prediction of treatment response directly from routine pathology slides is regarded as the most promising future application. This item was ranked highest in the overall analysis and in subgroups by age and professional background. Furthermore, prediction of genetic alterations, gene expression and survival directly from routine pathology images scored consistently high throughout subgroups. CONCLUSIONS: Together, these data demonstrate a possible direction for the development of computational pathology systems in clinical, academic and industrial research in the near future.
Hellmuth, Marc ; Schaller, David ; Stadler, Peter F.: Compatibility of partitions with trees, hierarchies and split systems. In: Discrete Applied Mathematics vol. 314, Elsevier BV (2022), pp. 265–283
Herzog, Christian ; Diebel-Fischer, Hermann: Teaching ethics through the back door? Employing ideas from assemblage theory to foster a responsible innovation mindset.. In: Towards a new future in engineering education, new scenarios that european alliances of tech universities open up. Barcelona : Universitat Politècnica de Catalunya, 2022

Adding ethics courses to engineering curricula seeks to equip students with the critical mindset that enables careers committed to serving humanity. Yet, the knowledge of ethical theories is neither a necessary, let alone sufficient condition for being good [1]. There is no automatism that translates ethical knowledge into action, overriding attitudes that were developed during the enculturation of a student. However, we deem teaching assemblage theory a promising means to achieve a sustained commitment to responsible innovation practice. We base our argument on assemblage theory's (cf. [2, 3]) capacity to conceptualize the interplay of human actors and technological artefacts in terms of dynamic evolutionary systems. The notion of an assemblage as a collection of potentially heterogeneous elements that---despite displaying consistency---remains malleable through reorganization, interconnection and, (re- )attribution forms the ontological basis that guides a conceptual approach to thinking in-between the extremes of technological determinism and social constructivism. Information algorithms, e.g., can be regarded as having the power to facilitate ethical action as part of a larger assemblage [4] and artificial intelligence can arguably only be understood as ``trustworthy'' within sociotechnological systems in which a shared responsibility realizes both epistemic and moral conditions for trust [5]. Ultimately, we intend engineering students to realize the extent of their influence on the world and, therefore, their responsibility for contributing to a prosperous community. Thus, ethics is not only taught by conveying its classical normative theories but rather explored by discovering the entangledness of technology and society.
Hoffmann, Jörn ; Fritzsch, Clemens ; Bogdan, Martin: CoBEA.. In: Proceedings of the Genetic and Evolutionary Computation Conference Companion. Boston Massachusetts : ACM, 2022
Hofmann, Simon M. ; Beyer, Frauke ; Lapuschkin, Sebastian ; Goltermann, Ole ; Loeffler, Markus ; M√ºller, Klaus-Robert ; Villringer, Arno ; Samek, Wojciech ; Witte, A. Veronica: Towards the interpretability of deep learning models for multi-modal neuroimaging: Finding structural changes of the ageing brain. In: NeuroImage vol. 261 (2022), p. 119504

Brain-age (BA) estimates based on deep learning are increasingly used as neuroimaging biomarker for brain health; however, the underlying neural features have remained unclear. We combined ensembles of convolutional neural networks with Layer-wise Relevance Propagation (LRP) to detect which brain features contribute to BA. Trained on magnetic resonance imaging (MRI) data of a population-based study (n¬†=¬†2637, 18‚Äì82 years), our models estimated age accurately based on single and multiple modalities, regionally restricted and whole-brain images (mean absolute errors 3.37‚Äì3.86 years). We find that BA estimates capture ageing at both small and large-scale changes, revealing gross enlargements of ventricles and subarachnoid spaces, as well as white matter lesions, and atrophies that appear throughout the brain. Divergence from expected ageing reflected cardiovascular risk factors and accelerated ageing was more pronounced in the frontal lobe. Applying LRP, our study demonstrates how superior deep learning models detect brain-ageing in healthy and at-risk individuals throughout adulthood.
Hohlbein, Johannes ; Diederich, Benedict ; Marsikova, Barbora ; Reynaud, Emmanuel G ; Holden, Séamus ; Jahr, Wiebke ; Haase, Robert ; Prakash, Kirti: Open microscopy in the life sciences: quo vadis?. In: Nature methods vol. 19, Nature Publishing Group US New York (2022), Nr. 9, pp. 1020–1025
Ionescu, Bogdan ; Müller, Henning ; Druagulinescu, Ana Maria ; Idrissi-Yaghir, Ahmad ; Radzhabov, Ahmedkhan ; Herrera, Alba Garcia Seco de ; Andrei, Alexandra ; Stan, Alexandru ; Storaas, Andrea M. ; et al.: Advancing Multimedia Retrieval in Medical, Social Media and Content Recommendation Applications with ImageCLEF 2024.. In: Goharian, N. ; Tonellotto, N. ; He, Y. ; Lipani, A. ; McDonald, G. ; Macdonald, C. ; Ounis, I. (eds.): Advances in Information Retrieval. Cham : Springer Nature Switzerland, 2024 — ISBN 978-3-031-56072-9, pp. 44–52

The ImageCLEF evaluation campaign was integrated with CLEF (Conference and Labs of the Evaluation Forum) for more than 20 years and represents a Multimedia Retrieval challenge aimed at evaluating the technologies for annotation, indexing, and retrieval of multimodal data. Thus, it provides information access to large data collections in usage scenarios and domains such as medicine, argumentation and content recommendation. ImageCLEF 2024 has four main tasks: (i) a Medical task targeting automatic image captioning for radiology images, synthetic medical images created with Generative Adversarial Networks (GANs), Visual Question Answering and medical image generation based on text input, and multimodal dermatology response generation; (ii) a joint ImageCLEF-Touché task Image Retrieval/Generation for Arguments to convey the premise of an argument, (iii) a Recommending task addressing cultural heritage content-recommendation, and (iv) a joint ImageCLEF-ToPicto task aiming to provide a translation in pictograms from natural language. In 2023, participation increased by 67% with respect to 2022 which reveals its impact on the community.
Iporre-Rivas, Ariel ; Scheuermann, Gerik ; Gillmann, Christina: Understanding Graph Convolutional Networks to detect Brain Lesions from Stroke, The Eurographics Association (2022)
Jäkel, René ; Peukert, Eric ; et. al.: Schlussbericht der Anwendungspartner zum Verbundvorhaben: ScaDS – Competence Center for Scalable Data Services and Solutions Dresden/Leipzig -- Phase 2 (2022)
Jain, Saiyam B. ; Zongru, Shao ; Veettil, Sachin K. T. ; Hecht, Michael: Adversarial attacks for machine learning denoisers and how to resisit them.. In: Volpe, G. ; Pereira, J. B. ; Brunner, D. ; Ozcan, A. (eds.): Emerging Topics in Artificial Intelligence (ETAI) 2022. vol. 12204 : SPIE, 2022, p. 1220402
Joharinad, Parvaneh ; Jost, Jürgen: Geometry of Data (2022)
Jonsson, Joel ; Cheeseman, Bevan L. ; Maddu, Suryanarayana ; Gonciarz, Krzysztof ; Sbalzarini, Ivo F.: Parallel Discrete Convolutions on Adaptive Particle Representations of Images. In: IEEE Transactions on Image Processing vol. 31, Wiley-IEEE Press (2022), pp. 4197–4212. — Publisher Copyright: textcopyright 1992-2012 IEEE.

We present data structures and algorithms for native implementations of discrete convolution operators over Adaptive Particle Representations (APR) of images on parallel computer architectures. The APR is a content-adaptive image representation that locally adapts the sampling resolution to the image signal. It has been developed as an alternative to pixel representations for large, sparse images as they typically occur in fluorescence microscopy. It has been shown to reduce the memory and runtime costs of storing, visualizing, and processing such images. This, however, requires that image processing natively operates on APRs, without intermediately reverting to pixels. Designing efficient and scalable APR-native image processing primitives, however, is complicated by the APR's irregular memory structure. Here, we provide the algorithmic building blocks required to efficiently and natively process APR images using a wide range of algorithms that can be formulated in terms of discrete convolutions. We show that APR convolution naturally leads to scale-adaptive algorithms that efficiently parallelize on multi-core CPU and GPU architectures. We quantify the speedups in comparison to pixel-based algorithms and convolutions on evenly sampled data. We achieve pixel-equivalent throughputs of up to 1TB/s on a single Nvidia GeForce RTX 2080 gaming GPU, requiring up to two orders of magnitude less memory than a pixel-based implementation.
Jordan, Rita: Nothing personal? Der Personenbezug von Daten in der DSGVO im Licht von künstlicher Intelligenz und Big Data.. In: Künstliche Intelligenz, Demokratie und Privatheit : Nomos Verlagsgesellschaft mbH & Co. KG, 2022, pp. 59–76
Jung, Jean Christoph ; Lutz, Carsten ; Marcinkowski, Jerzy: Conservative extensions for existential rules, arXiv (2022)

We study the problem to decide, given sets T1,T2 of tuple-generating dependencies (TGDs), also called existential rules, whether T2 is a conservative extension of T1. We consider two natural notions of conservative extension, one pertaining to answers to conjunctive queries over databases and one to homomorphisms between chased databases. Our main results are that these problems are undecidable for linear TGDs, undecidable for guarded TGDs even when T1 is empty, and decidable for frontier-one TGDs.
Jurenaite, Neringa ; León-Periñán, Daniel ; Donath, Veronika ; Torge, Sunna ; Jäkel, René: SetQuence & SetOmic: Deep Set Transformer-based Representations of Cancer Multi-Omics.. In: 2022 IEEE Conference on Computational Intelligence in Bioinformatics and Computational Biology (CIBCB), 2022, pp. 1–9

In oncology, Deep Learning has shown great potential to personalise tasks such as tumour type classification, based on per-patient omics data-sets. Being high dimensional, incorporation of such data in one model is a challenge, often leading to one-dimensional studies and, therefore, information loss. Instead, we first propose relying on non-fixed sets of mutated genome sequences, which can be used for supervised learning of oncology-relevant tasks by our Transformer-based Deep Neural Network, SETQUENCE. Second, we extend the model to incorporate these representations as well as multiple sources of omics data in a flexible way with SETOMIC. Evaluation, using these representations, shows improved robustness and reduced information loss compared to previous approaches, while still being computationally tractable. By means of Explainable Artificial Intelligence methods, our models are shown to be able to recapitulate the biological contribution of several features in cancer, such as individual expression loci. This validation opens the door to novel directions in multi-faceted genome-wide biomarker discovery and personalised treatment among other presently clinically relevant tasks.
Jurenaite, Neringa ; Leon-Perinan, Daniel ; Donath, Veronika ; Torge, Sunna ; Jakel, Rene: SetQuence & SetOmic: Deep Set Transformer-based Representations of Cancer Multi-Omics.. In: 2022 IEEE Conference on Computational Intelligence in Bioinformatics and Computational Biology, CIBCB 2022, 2022 IEEE Conference on Computational Intelligence in Bioinformatics and Computational Biology, CIBCB 2022. United States of America : IEEE, New York [u. a.], 2022. — Publisher Copyright: textcopyright 2022 IEEE.; 2022 IEEE Conference on Computational Intelligence in Bioinformatics and Computational Biology, CIBCB 2022 ; Conference date: 15-08-2022 Through 17-08-2022 — ISBN 9781665484626, pp. 139–147

In oncology, Deep Learning has shown great potential to personalise tasks such as tumour type classification, based on per-patient omics data-sets. Being high dimensional, incorporation of such data in one model is a challenge, often leading to one-dimensional studies and, therefore, information loss. Instead, we first propose relying on non-fixed sets of mutated genome sequences, which can be used for supervised learning of oncology-relevant tasks by our Transformer-based Deep Neural Network, SETQUENCE. Second, we extend the model to incorporate these representations as well as multiple sources of omics data in a flexible way with SETOMIC. Evaluation, using these representations, shows improved robustness and reduced information loss compared to previous approaches, while still being computationally tractable. By means of Explainable Artificial Intelligence methods, our models are shown to be able to recapitulate the biological contribution of several features in cancer, such as individual expression loci. This validation opens the door to novel directions in multi-faceted genome-wide biomarker discovery and personalised treatment among other presently clinically relevant tasks.
Jurkschat, Lena ; Wiedemann, Gregor ; Heinrich, Maximilian ; Ruckdeschel, Mattes ; Torge, Sunna: Few-Shot Learning for Argument Aspects of the Nuclear Energy Debate.. In: Calzolari, N. ; Bechet, F. ; Blache, P. ; Choukri, K. ; Cieri, C. ; Declerck, T. ; Goggi, S. ; Isahara, H. ; Maegaard, B. ; et al. (eds.): 2022 Language Resources and Evaluation Conference, LREC 2022, Language Resources and Evaluation Conference (LREC) : European Language Resources Association (ELRA), 2022. — Publisher Copyright: textcopyright European Language Resources Association (ELRA), licensed under CC-BY-NC-4.0.; 13th International Conference on Language Resources and Evaluation Conference, LREC 2022 ; Conference date: 20-06-2022 Through 25-06-2022, pp. 663–672

We approach aspect-based argument mining as a supervised machine learning task to classify arguments into semantically coherent groups referring to the same defined aspect categories. As an exemplary use case, we introduce the Argument Aspect Corpus-Nuclear Energy that separates arguments about the topic of nuclear energy into nine major aspects. Since the collection of training data for further aspects and topics is costly, we investigate the potential for current transformer-based few-shot learning approaches to accurately classify argument aspects. The best approach is applied to a British newspaper corpus covering the debate on nuclear energy over the past 21 years. Our evaluation shows that a stable prediction of shares of argument aspects in this debate is feasible with 50 to 100 training samples per aspect. Moreover, we see signals for a clear shift in the public discourse in favor of nuclear energy in recent years. This revelation of changing patterns of pro and contra arguments related to certain aspects over time demonstrates the potential of supervised argument aspect detection for tracking issue-specific media discourses.
Kalms, Lester ; Häring, Tim ; Goehringer, Diana: DECISION: Distributing OpenVX Applications on CPUs, GPUs and FPGAs using OpenCL.. In: , 2022, pp. 84–91
Kammoun, Amina ; Slama, Rim ; Tabia, Hedi ; Ouni, Tarek ; Abid, Mohmed: Generative Adversarial Networks for face generation: A survey. In: ACM Comput. Surv., Association for Computing Machinery (ACM) (2022)

Recently, Generative Adversarial Networks (GANs) have received enormous progress, which makes them able to learn complex data distributions in particular faces. More and more efficient GAN architectures have been designed and proposed to learn the different variations of faces, such as cross pose, age, expression and style. These GAN based approaches need to be reviewed, discussed, and categorized in terms of architectures, applications, and metrics. Several reviews that focus on the use and advances of GAN in general have been proposed. However, the GAN models applied to the face, that we call facial GANs, have never been addressed. In this article, we review facial GANs and their different applications. We mainly focus on architectures, problems and performance evaluation with respect to each application and used datasets. More precisely, we reviewed the progress of architectures and we discussed the contributions and limits of each. Then, we exposed the encountered problems of facial GANs and proposed solutions to handle them. Additionally, as GANs evaluation has become a notable current defiance, we investigate the state of the art quantitative and qualitative evaluation metrics and their applications. We concluded the article with a discussion on the face generation challenges and proposed open research issues.
Kather, Jakob Nikolas ; Ghaffari Laleh, Narmin ; Foersch, Sebastian ; Truhn, Daniel: Medical domain knowledge in domain-agnostic generative AI. In: NPJ Digit. Med. vol. 5, Springer Science and Business Media LLC (2022), Nr. 1, p. 90
Kattenborn, Teja ; Richter, Ronny ; Guimar~aes-Steinicke, Claudia ; Feilhauer, Hannes ; Wirth, Christian: AngleCam : Predicting the temporal variation of leaf angle distributions from image series with deep learning. In: Methods Ecol. Evol. vol. 13, Wiley (2022), Nr. 11, pp. 2531–2545
Kattenborn, Teja ; Schiefer, Felix ; Frey, Julian ; Feilhauer, Hannes ; Mahecha, Miguel D ; Dormann, Carsten F: Spatially autocorrelated training and validation samples inflate performance assessment of convolutional neural networks. In: ISPRS Open Journal of Photogrammetry and Remote Sensing vol. 5, Elsevier BV (2022), Nr. 100018, p. 100018
Kers, Jesper ; Bülow, Roman D ; Klinkhammer, Barbara M ; Breimer, Gerben E ; Fontana, Francesco ; Abiola, Adeyemi Adefidipe ; Hofstraat, Rianne ; Corthals, Garry L ; Peters-Sengers, Hessel ; et al.: Deep learning-based classification of kidney transplant pathology: a retrospective, multicentre, proof-of-concept study. In: Lancet Digit. Health vol. 4, Elsevier BV (2022), Nr. 1, pp. e18-e26

BACKGROUND: Histopathological assessment of transplant biopsies is currently the standard method to diagnose allograft rejection and can help guide patient management, but it is one of the most challenging areas of pathology, requiring considerable expertise, time, and effort. We aimed to analyse the utility of deep learning to preclassify histology of kidney allograft biopsies into three main broad categories (ie, normal, rejection, and other diseases) as a potential biopsy triage system focusing on transplant rejection. METHODS: We performed a retrospective, multicentre, proof-of-concept study using 5844 digital whole slide images of kidney allograft biopsies from 1948 patients. Kidney allograft biopsy samples were identified by a database search in the Departments of Pathology of the Amsterdam UMC, Amsterdam, Netherlands (1130 patients) and the University Medical Center Utrecht, Utrecht, Netherlands (717 patients). 101 consecutive kidney transplant biopsies were identified in the archive of the Institute of Pathology, RWTH Aachen University Hospital, Aachen, Germany. Convolutional neural networks (CNNs) were trained to classify allograft biopsies as normal, rejection, or other diseases. Three times cross-validation (1847 patients) and deployment on an external real-world cohort (101 patients) were used for validation. Area under the receiver operating characteristic curve (AUROC) was used as the main performance metric (the primary endpoint to assess CNN performance). FINDINGS: Serial CNNs, first classifying kidney allograft biopsies as normal (AUROC 0·87 [ten times bootstrapped CI 0·85-0·88]) and disease (0·87 [0·86-0·88]), followed by a second CNN classifying biopsies classified as disease into rejection (0·75 [0·73-0·76]) and other diseases (0·75 [0·72-0·77]), showed similar AUROC in cross-validation and deployment on independent real-world data (first CNN normal AUROC 0·83 [0·80-0·85], disease 0·83 [0·73-0·91]; second CNN rejection 0·61 [0·51-0·70], other diseases 0·61 [0·50-0·74]). A single CNN classifying biopsies as normal, rejection, or other diseases showed similar performance in cross-validation (normal AUROC 0·80 [0·73-0·84], rejection 0·76 [0·66-0·80], other diseases 0·50 [0·36-0·57]) and generalised well for normal and rejection classes in the real-world data. Visualisation techniques highlighted rejection-relevant areas of biopsies in the tubulointerstitium. INTERPRETATION: This study showed that deep learning-based classification of transplant biopsies could support pathological diagnostics of kidney allograft rejection. FUNDING: European Research Council; German Research Foundation; German Federal Ministries of Education and Research, Health, and Economic Affairs and Energy; Dutch Kidney Foundation; Human(e) AI Research Priority Area of the University of Amsterdam; and Max-Eder Programme of German Cancer Aid.
Kestemont, M. ; Manjavacas, E. ; Markov, I. ; Bevendorff, J. ; Wiegmann, M. ; Stamatatos, E. ; Stein, B. ; Potthast, M.: Overview of the cross-domain authorship verification task at PAN 2021.. In: Faggioli, G. ; Ferro, N. ; Joly, A. ; Maistro, M. ; Piroi, F. (eds.): CLEF-WN 2021 - Proceedings of the Working Notes of CLEF 2021 - Conference and Labs of the Evaluation Forum, CEUR Workshop Proceedings. vol. 2936 : CEUR-WS, 2021. — 2021 Working Notes of CLEF - Conference and Labs of the Evaluation Forum, CLEF-WN 2021 ; Conference date: 21-09-2021 Through 24-09-2021, pp. 1743–1759

textcopyright 2021 Copyright for this paper by its authors. Use permitted under Creative Commons License Attribution 4.0 International (CC BY 4.0).Idiosyncrasies in human writing styles make it difficult to develop systems for authorship identification that scale well across individuals. In this year's edition of PAN, the authorship identification track focused on open-set authorship verification, so that systems are applied to unknown documents by previously unseen authors in a new domain. As in the previous year, the sizable materials for this campaign were sampled from English-language fanfiction. The calibration materials handed out to the participants were the same as last year, but a new test set was compiled with authors and fandom domains not present in any of the previous datasets. The general setup of the task did not change, i.e., systems still had to estimate the probability of a pair of documents being authored by the same person. We attracted 13 submissions by 10 international teams, which were compared to three complementary baselines, using five diverse evaluation metrics. Post-hoc analyses show that systems benefitted from the abundant calibration materials and were well-equipped to handle the open-set scenario: Both the top-performing approach and the highly competitive cohort of runner-ups presented surprisingly strong verifiers. We conclude that, at least within this specific text variety, (large-scale) open-set authorship verification is not necessarily or inherently more difficult than a closed-set setup, which offers encouraging perspectives for the future of the field.
Kheifetz, Yuri ; Kirsten, Holger ; Scholz, Markus: On the Parametrization of Epidemiologic Models—Lessons from Modelling COVID-19 Epidemic. In: Viruses vol. 14 (2022), Nr. 7

Numerous prediction models of SARS-CoV-2 pandemic were proposed in the past. Unknown parameters of these models are often estimated based on observational data. However, lag in case-reporting, changing testing policy or incompleteness of data lead to biased estimates. Moreover, parametrization is time-dependent due to changing age-structures, emerging virus variants, non-pharmaceutical interventions, and vaccination programs. To cover these aspects, we propose a principled approach to parametrize a SIR-type epidemiologic model by embedding it as a hidden layer into an input-output non-linear dynamical system (IO-NLDS). Observable data are coupled to hidden states of the model by appropriate data models considering possible biases of the data. This includes data issues such as known delays or biases in reporting. We estimate model parameters including their time-dependence by a Bayesian knowledge synthesis process considering parameter ranges derived from external studies as prior information. We applied this approach on a specific SIR-type model and data of Germany and Saxony demonstrating good prediction performances. Our approach can estimate and compare the relative effectiveness of non-pharmaceutical interventions and provide scenarios of the future course of the epidemic under specified conditions. It can be translated to other data sets, i.e., other countries and other SIR-type models.
Khouzami, Nesrine ; Michel, Friedrich ; Incardona, Pietro ; Castrillon, Jeronimo ; Sbalzarini, Ivo F.: Model-based autotuning of discretization methods in numerical simulations of partial differential equations. In: Journal of Computational Science vol. 57, Elsevier BV (2022), p. 101489
Kiakou, Dimitra ; Adamopoulos, Adam ; Scherf, Nico: Graph-Based Disease Prediction in Neuroimaging: Investigating the Impact of Feature Selection.. In: Worldwide Congress on “Genetics, Geriatrics and Neurodegenerative Diseases Research" : Springer, 2022, pp. 223–230
Kirsten, Toralf ; Meineke, Frank ; Löffler-Wirth, Henry ; Uciteli, Alexandr ; Beger, Christoph ; Stäubert, Sebastian ; Löbe, Matthias ; Hänsel, René ; Rauscher, Franziska ; et al.: The Leipzig Health Atlas - An open platform to present, archive and share bio-medical data, analyses and models online. In: Methods of Information in Medicine vol. 61 (2022)
Kneuer, Marianne ; Wallaschek, Stefan: Framing COVID-19: Public Leadership and Crisis Communication By Chancellor Angela Merkel During the Pandemic in 2020. In: German Politics vol. 32 (2022), pp. 1–24
Knutzen, Florian ; Averbeck, Paul ; Barrasso, Caterina ; Bouwer, Laurens M. ; Gardiner, Barry ; Grünzweig, José M. ; Hänel, Sabine ; Haustein, Karsten ; Johannessen, Marius Rohde ; et al.: Impacts and damages of the European multi-year drought and heat event 2018–2022 on forests, a review, 2023
König, Matthias ; Rapberger, Anna ; Ulbricht, Markus: Just a Matter of Perspective.. In: Computational Models of Argument, Frontiers in artificial intelligence and applications : IOS Press, 2022

Many structured argumentation approaches proceed by constructing a Dung-style argumentation framework (AF) corresponding to a given knowledge base. While a main strength of AFs is their simplicity, instantiating a knowledge base oftentimes requires exponentially many arguments or additional functions in order to establish the connection. In this paper we make use of more expressive argumentation formalisms. We provide several novel translations by utilizing claim-augmented AFs (CAFs) and AFs with collective attacks (SETAFs). We use these frameworks to translate assumption-based argumentation (ABA) frameworks as well as logic programs (LPs) into the realm of graph-based argumentation.
Krajsic, Philippe: Artificial Intelligence in Process Mining.
Krajsic, Philippe ; Franczyk, Bogdan: Catch Me If You Can: Online Classification for Near Real-Time Anomaly Detection in Business Process Event Streams. In: Procedia Computer Science vol. 207, Elsevier BV (2022), pp. 235–244
Krieg, Laura ; Didt, Konrad ; Karkossa, Isabel ; Bernhart, Stephan H ; Kehr, Stephanie ; Subramanian, Narmadha ; Lindhorst, Andreas ; Schaudinn, Alexander ; Tabei, Shirin ; et al.: Multiomics reveal unique signatures of human epiploic adipose tissue related to systemic insulin resistance. In: Gut vol. 71, BMJ Publishing Group (2022), Nr. 11, pp. 2179–2193
Kühnapfel, Andreas ; Ahnert, Peter ; Horn, Katrin ; Kirsten, Holger ; Loeffler, Markus ; Scholz, Markus: First genome-wide association study of 99 body measures derived from 3-dimensional body scans. In: Genes & Diseases vol. 9, Elsevier (2022), Nr. 3, pp. 777–788
Kuntz, Charles P. ; Woods, Hope ; McKee, Andrew G. ; Zelt, Nathan B. ; Mendenhall, Jeffrey L. ; Meiler, Jens ; Schlebach, Jonathan P.: Towards generalizable predictions for G protein-coupled receptor variant expression. In: Biophysical Journal vol. 121 (2022), Nr. 14, pp. 2712–2720

Missense mutations that compromise the plasma membrane expression (PME) of integral membrane proteins are the root cause of numerous genetic diseases. Differentiation of this class of mutations from those that specifically modify the activity of the folded protein has proven useful for the development and targeting of precision therapeutics. Nevertheless, it remains challenging to predict the effects of mutations on the stability and/ or expression of membrane proteins. In this work, we utilize deep mutational scanning data to train a series of artificial neural networks to predict the PME of transmembrane domain variants of G protein-coupled receptors from structural and/ or evolutionary features. We show that our best-performing network, which we term the PME predictor, can recapitulate mutagenic trends within rhodopsin and can differentiate pathogenic transmembrane domain variants that cause it to misfold from those that compromise its signaling. This network also generates statistically significant predictions for the relative PME of transmembrane domain variants for another class A G protein-coupled receptor (Œ≤2 adrenergic receptor) but not for an unrelated voltage-gated potassium channel (KCNQ1). Notably, our analyses of these networks suggest structural features alone are generally sufficient to recapitulate the observed mutagenic trends. Moreover, our findings imply that networks trained in this manner may be generalizable to proteins that share a common fold. Implications of our findings for the design of mechanistically specific genetic predictors are discussed.
Kurz, Alexander ; Hauser, Katja ; Mehrtens, Hendrik Alexander ; Krieghoff-Henning, Eva ; Hekler, Achim ; Kather, Jakob Nikolas ; Fröhling, Stefan ; von Kalle, Christof ; Brinker, Titus Josef: Uncertainty estimation in medical image classification: Systematic review. In: JMIR Med. Inform. vol. 10 (2022), Nr. 8, p. e36427

BACKGROUND: Deep neural networks are showing impressive results in different medical image classification tasks. However, for real-world applications, there is a need to estimate the network's uncertainty together with its prediction. OBJECTIVE: In this review, we investigate in what form uncertainty estimation has been applied to the task of medical image classification. We also investigate which metrics are used to describe the effectiveness of the applied uncertainty estimation. METHODS: Google Scholar, PubMed, IEEE Xplore, and ScienceDirect were screened for peer-reviewed studies, published between 2016 and 2021, that deal with uncertainty estimation in medical image classification. The search terms ``uncertainty,'' ``uncertainty estimation,'' ``network calibration,'' and ``out-of-distribution detection'' were used in combination with the terms ``medical images,'' ``medical image analysis,'' and ``medical image classification.'' RESULTS: A total of 22 papers were chosen for detailed analysis through the systematic review process. This paper provides a table for a systematic comparison of the included works with respect to the applied method for estimating the uncertainty. CONCLUSIONS: The applied methods for estimating uncertainties are diverse, but the sampling-based methods Monte-Carlo Dropout and Deep Ensembles are used most frequently. We concluded that future works can investigate the benefits of uncertainty estimation in collaborative settings of artificial intelligence systems and human experts. INTERNATIONAL REGISTERED REPORT IDENTIFIER (IRRID): RR2-10.2196/11936.
Laleh, Narmin ; Ligero, Marta ; Perez-Lopez, Raquel ; Kather, Jakob: Facts and Hopes on the Use of Artificial Intelligence for Predictive Immunotherapy Biomarkers in Cancer. In: Clinical Cancer Research vol. 29 (2022)
Lange, Maximilian ; Feilhauer, Hannes ; Kühn, Ingolf ; Doktor, Daniel: Mapping land-use intensity of grasslands in Germany with machine learning and Sentinel-2 time series. In: Remote Sens. Environ. vol. 277, Elsevier BV (2022), Nr. 112888, p. 112888
Lauber-Roensberg, Anne: Befugnisse des SacheigentÃ¼mers: Recht am Bild und Recht am Datum der eigenen Sache? (2022)
Laurenccon, Hugo ; Saulnier, Lucile ; Wang, Thomas ; Akiki, Christopher ; Moral, Albert Villanova ; Scao, Teven Le ; others: The BigScience ROOTS Corpus: A 1.6TB Composite Multilingual Dataset.. In: Koyejo, S. ; Mohamed, S. ; Agarwal, A. ; Belgrave, D. ; Cho, K. ; Oh, A. (eds.): Advances in Neural Information Processing Systems 35 (NeurIPS 2022). vol. 35 : Curran Associates, Inc., 2022, pp. 31809–31826
Le, Hoang Thanh ; Middendorf, Martin ; Shi, Yuhui: An Improvement Heuristic Based on Variable Neighborhood Search for Dynamic Orienteering Problems with Changing Node Values and Changing Budgets. In: SN Computer Science vol. 3 (2022), Nr. 4, p. 326

We study the Dynamic Orienteering Problem (DOP) with changing node values and changing budgets. It is a complex combinatorial optimization problem with many applications, e.g., in tour planning. To solve the DOP, an improvement heuristic based on Variable Neighborhood Search $$backslashmathrm VNS_backslashmathrm DOP$$is proposed. In addition, three methods for handling solutions that became invalid by budget changes are presented. Heuristic $$backslashmathrm VNS_backslashmathrm DOP$$is experimentally compared with two improvement heuristics based on state-of-the-art algorithms for the static Orienteering Problem. In addition, the influence of the three invalid solution handling methods on the algorithms' optimization behavior is evaluated experimentally. For the experiments, benchmark instances as well as instances generated from existing road networks are used. As a quality measure for the algorithms, their performance over time is used. The results show that both types of dynamic changes, i.e., changes in the node values and changes in the budget, lead to higher volatility in the results for all compared algorithms. However, the latter type has a more negative effect on the performance. Out of the compared algorithms, the proposed heuristic $$backslashmathrm VNS_backslashmathrm DOP$$obtains the best results in most cases on a variety of problem instances with dynamic node values and dynamic budgets, showing that it has a high performance over time in dynamic environments and is able to deal with different levels of dynamic changes. For DOPs with changing budgets, the invalid solution handling method that repairs solutions by fixing the violation of the budget constraint as fast as possible performs best for the considered algorithms.
Leal, Wilmer ; Llanos, Eugenio J ; Bernal, Andrés ; Stadler, Peter F ; Jost, Jürgen ; Restrepo, Guillermo: The expansion of chemical space in 1826 and in the 1840s prompted the convergence to the periodic system. In: Proceedings of the National Academy of Sciences vol. 119, National Acad Sciences (2022), Nr. 30, p. e2119083119
Leinhauser, Matthew ; Widera, René ; Bastrakov, Sergei ; Debus, Alexander ; Bussmann, Michael ; Chandrasekaran, Sunita: Metrics and design of an instruction roofline model for AMD GPUs. In: ACM Trans. Parallel Comput. vol. 9, Association for Computing Machinery (ACM) (2022), Nr. 1, pp. 1–14

Due to the recent announcement of the Frontier supercomputer, many scientific application developers are working to make their applications compatible with AMD (CPU-GPU) architectures, which means moving away from the traditional CPU and NVIDIA-GPU systems. Due to the current limitations of profiling tools for AMD GPUs, this shift leaves a void in how to measure application performance on AMD GPUs. In this article, we design an instruction roofline model for AMD GPUs using AMD's ROCProfiler and a benchmarking tool, BabelStream (the HIP implementation), as a way to measure an application's performance in instructions and memory transactions on new AMD hardware. Specifically, we create instruction roofline models for a case study scientific application, PIConGPU, an open source particle-in-cell simulations application used for plasma and laser-plasma physics on the NVIDIA V100, AMD Radeon Instinct MI60, and AMD Instinct MI100 GPUs. When looking at the performance of multiple kernels of interest in PIConGPU we find that although the AMD MI100 GPU achieves a similar, or better, execution time compared to the NVIDIA V100 GPU, profiling tool differences make comparing performance of these two architectures hard. When looking at execution time, GIPS, and instruction intensity, the AMD MI60 achieves the worst performance out of the three GPUs used in this work.
Levinkov, Evgeny ; Kardoost, Amirhossein ; Andres, Bjoern ; Keuper, Margret: Higher-order multicuts for geometric model fitting and motion segmentation. In: IEEE Trans. Pattern Anal. Mach. Intell. vol. 45, Institute of Electrical and Electronics Engineers (IEEE) (2022), Nr. 1, pp. 608–622

Minimum cost lifted multicut problem is a generalization of the multicut problem and is a means to optimizing a decomposition of a graph w.r.t. both positive and negative edge costs. Its main advantage is that multicut-based formulations do not require the number of components given a priori; instead, it is deduced from the solution. However, the standard multicut cost function is limited to pairwise relationships between nodes, while several important applications either require or can benefit from a higher-order cost function, i.e. hyper-edges. In this paper, we propose a pseudo-boolean formulation for a multiple model fitting problem. It is based on a formulation of any-order minimum cost lifted multicuts, which allows to partition an undirected graph with pairwise connectivity such as to minimize costs defined over any set of hyper-edges. As the proposed formulation is NP-hard and the branch-and-bound algorithm is too slow in practice, we propose an efficient local search algorithm for inference into resulting problems. We demonstrate versatility and effectiveness of our approach in several applications: geometric multiple model fitting, homography and motion estimation, motion segmentation.
Lin, Ying-Chi ; Hoffmann, Phillip ; Rahm, Erhard: Enhancing cross-lingual biomedical concept normalization using deep neural network pretrained language models. In: SN Comput. Sci. vol. 3, Springer Science and Business Media LLC (2022), Nr. 5

AbstractIn this study, we propose a new approach for cross-lingual biomedical concept normalization, the process of mapping text in non-English documents to English concepts of a knowledge base. The resulting mappings, named as semantic annotations, enhance data integration and interoperability of documents in different languages. The US FDA (Food and Drug Administration), therefore, requires all submitted medical forms to be semantically annotated. These standardized medical forms are used in health care practice and biomedical research and are translated/adapted into various languages. Mapping them to the same concepts (normally in English) facilitates the comparison of multiple medical studies even cross-lingually. However, the translation and adaptation of these forms can cause them to deviate from its original text syntactically and in wording. This leads the conventional string matching methods to produce low-quality annotation results. Therefore, our new approach incorporates semantics into the cross-lingual concept normalization process. This is done using sentence embeddings generated by BERT-based pretrained language models. We evaluate the new approach by annotating entire questions of German medical forms with concepts in English, as required by the FDA. The new approach achieves an improvement of 136% in recall, 52% in precision and 66% in F-measure compared to the conventional string matching methods.
Llanos Ballestas, Eugenio ; Leal, Wilmer ; Bernal, Andrés ; Jost, Jürgen ; Stadler, Peter F.: Are the chemical families still there? exploration of similarity among elements, American Chemical Society (ACS) (2022)
Loeffler, Chiara Maria Lavinia ; Ortiz Bruechle, Nadina ; Jung, Max ; Seillier, Lancelot ; Rose, Michael ; Laleh, Narmin Ghaffari ; Knuechel, Ruth ; Brinker, Titus J ; Trautwein, Christian ; et al.: Artificial intelligence-based detection of FGFR3 mutational status directly from routine histology in bladder cancer: A possible preselection for molecular testing?. In: Eur. Urol. Focus vol. 8, Elsevier BV (2022), Nr. 2, pp. 472–479

BACKGROUND: Fibroblast growth factor receptor (FGFR) inhibitor treatment has become the first clinically approved targeted therapy in bladder cancer. However, it requires previous molecular testing of each patient, which is costly and not ubiquitously available. OBJECTIVE: To determine whether an artificial intelligence system is able to predict mutations of the FGFR3 gene directly from routine histology slides of bladder cancer. DESIGN, SETTING, AND PARTICIPANTS: We trained a deep learning network to detect FGFR3 mutations on digitized slides of muscle-invasive bladder cancers stained with hematoxylin and eosin from the Cancer Genome Atlas (TCGA) cohort (n = 327) and validated the algorithm on the ``Aachen'' cohort (n = 182; n = 121 pT2-4, n = 34 stroma-invasive pT1, and n = 27 noninvasive pTa tumors). OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: The primary endpoint was the area under the receiver operating curve (AUROC) for mutation detection. Performance of the deep learning system was compared with visual scoring by an uropathologist. RESULTS AND LIMITATIONS: In the TCGA cohort, FGFR3 mutations were detected with an AUROC of 0.701 (p < 0.0001). In the Aachen cohort, FGFR3 mutants were found with an AUROC of 0.725 (p < 0.0001). When trained on TCGA, the network generalized to the Aachen cohort, and detected FGFR3 mutants with an AUROC of 0.625 (p = 0.0112). A subgroup analysis and histological evaluation found highest accuracy in papillary growth, luminal gene expression subtypes, females, and American Joint Committee on Cancer (AJCC) stage II tumors. In a head-to-head comparison, the deep learning system outperformed the uropathologist in detecting FGFR3 mutants. CONCLUSIONS: Our computer-based artificial intelligence system was able to detect genetic alterations of the FGFR3 gene of bladder cancer patients directly from histological slides. In the future, this system could be used to preselect patients for further molecular testing. However, analyses of larger, multicenter, muscle-invasive bladder cancer cohorts are now needed in order to validate and extend our findings. PATIENT SUMMARY: In this report, a computer-based artificial intelligence (AI) system was applied to histological slides to predict genetic alterations of the FGFR3 gene in bladder cancer. We found that the AI system was able to find the alteration with high accuracy. In the future, this system could be used to preselect patients for further molecular testing.
Loeffler-Wirth, Henry ; Kreuz, Markus ; Schmidt, Maria ; Ott, German ; Siebert, Reiner ; Binder, Hans: Classifying Germinal Center Derived Lymphomas—Navigate a Complex Transcriptional Landscape. In: Cancers vol. 14, MDPI AG (2022), Nr. 14, p. 3434
Loeffler-Wirth, Henry ; Rade, Michael ; Arakelyan, Arsen ; Kreuz, Markus ; Loeffler, Markus ; Koehl, Ulrike ; Reiche, Kristin ; Binder, Hans: Transcriptional states of CAR-T infusion relate to neurotoxicity – lessons from high-resolution single-cell SOM expression portraying. In: Frontiers in Immunology vol. 13 (2022)

Anti-CD19 CAR-T cell immunotherapy is a hopeful treatment option for patients with B cell lymphomas, however it copes with partly severe adverse effects like neurotoxicity. Single-cell resolved molecular data sets in combination with clinical parametrization allow for comprehensive characterization of cellular subpopulations, their transcriptomic states, and their relation to the adverse effects. We here present a re-analysis of single-cell RNA sequencing data of 24 patients comprising more than 130,000 cells with focus on cellular states and their association to immune cell related neurotoxicity. For this, we developed a single-cell data portraying workflow to disentangle the transcriptional state space with single-cell resolution and its analysis in terms of modularly-composed cellular programs. We demonstrated capabilities of single-cell data portraying to disentangle transcriptional states using intuitive visualization, functional mining, molecular cell stratification, and variability analyses. Our analysis revealed that the T cell composition of the patient’s infusion product as well as the spectrum of their transcriptional states of cells derived from patients with low ICANS grade do not markedly differ from those of cells from high ICANS patients, while the relative abundancies, particularly that of cycling cells, of LAG3-mediated exhaustion and of CAR positive cells, vary. Our study provides molecular details of the transcriptomic landscape with possible impact to overcome neurotoxicity.
Lutz, Carsten ; Przybylko, Marcin: Efficiently enumerating answers to ontology-mediated queries, arXiv (2022)

We study the enumeration of answers to ontology-mediated queries (OMQs) where the ontology is a set of guarded TGDs or formulated in the description logic ELI and the query is a conjunctive query (CQ). In addition to the traditional notion of an answer, we propose and study two novel notions of partial answers that can take into account nulls generated by existential quantifiers in the ontology. Our main result is that enumeration of the traditional complete answers and of both kinds of partial answers is possible with linear-time preprocessing and constant delay for OMQs that are both acyclic and free-connex acyclic. We also provide partially matching lower bounds. Similar results are obtained for the related problems of testing a single answer in linear time and of testing multiple answers in constant time after linear time preprocessing. In both cases, the border between tractability and intractability is characterized by similar, but slightly different acyclicity properties.
Lutz, Carsten ; Sabellek, Leif: A complete classification of the complexity and rewritability of ontology-mediated queries based on the description logic EL. In: Artif. Intell. vol. 308, Elsevier BV (2022), Nr. 103709, p. 103709
Lyon, Tim S ; Álvarez, Luc’ia Gómez: Automating reasoning with standpoint logic via nested sequents, arXiv (2022)

Standpoint logic is a recently proposed formalism in the context of knowledge integration, which advocates a multi-perspective approach permitting reasoning with a selection of diverse and possibly conflicting standpoints rather than forcing their unification. In this paper, we introduce nested sequent calculi for propositional standpoint logics--proof systems that manipulate trees whose nodes are multisets of formulae--and show how to automate standpoint reasoning by means of non-deterministic proof-search algorithms. To obtain worst-case complexity-optimal proof-search, we introduce a novel technique in the context of nested sequents, referred to as ``coloring,'' which consists of taking a formula as input, guessing a certain coloring of its subformulae, and then running proof-search in a nested sequent calculus on the colored input. Our technique lets us decide the validity of standpoint formulae in CoNP since proof-search only produces a partial proof relative to each permitted coloring of the input. We show how all partial proofs can be fused together to construct a complete proof when the input is valid, and how certain partial proofs can be transformed into a counter-model when the input is invalid. These ``certificates'' (i.e. proofs and counter-models) serve as explanations of the (in)validity of the input.
Macias, Rocio I R ; Cardinale, Vincenzo ; Kendall, Timothy J ; Avila, Matias A ; Guido, Maria ; Coulouarn, Cedric ; Braconi, Chiara ; Frampton, Adam E ; Bridgewater, John ; et al.: Clinical relevance of biomarkers in cholangiocarcinoma: critical revision and future directions. In: Gut, BMJ (2022), pp. gutjnl–2022
Maddu, Suryanarayana ; Cheeseman, Bevan L. ; Sbalzarini, Ivo F ; Müller, Christian L.: Stability selection enables robust learning of differential equations from limited noisy data. In: Proceedings of the Royal Society of London : Series A, Mathematical, physical and engineering sciences vol. 478, Royal Society Publishing (2022), Nr. 2262. — Publisher Copyright: textcopyright 2022 Royal Society Publishing. All rights reserved.

We present a statistical learning framework for robust identification of differential equations from noisy spatio-temporal data. We address two issues that have so far limited the application of such methods, namely their robustness against noise and the need for manual parameter tuning, by proposing stability-based model selection to determine the level of regularization required for reproducible inference. This avoids manual parameter tuning and improves robustness against noise in the data. Our stability selection approach, termed PDE-STRIDE, can be combined with any sparsity-promoting regression method and provides an interpretable criterion for model component importance. We show that the particular combination of stability selection with the iterative hard-thresholding algorithm from compressed sensing provides a fast and robust framework for equation inference that outperforms previous approaches with respect to accuracy, amount of data required, and robustness. We illustrate the performance of PDE-STRIDE on a range of simulated benchmark problems, and we demonstrate the applicability of PDE-STRIDE on real-world data by considering purely data-driven inference of the protein interaction network for embryonic polarization in Caenorhabditis elegans. Using fluorescence microscopy images of C. elegans zygotes as input data, PDE-STRIDE is able to learn the molecular interactions of the proteins.
Maddu, Suryanarayana ; Sturm, Dominik ; Mueller, Christian L. ; Sbalzarini, Ivo F.: Inverse Dirichlet weighting enables reliable training of physics informed neural networks. In: Machine learning: science and technology vol. 3, IOP Publishing Ltd. (2022), Nr. 1. — Funding Information: This work was supported by the German Research Foundation (DFG) – EXC-2068, Cluster of Excellence textquoteleftPhysics of Lifetextquoteright, and by the Center for Scalable Data Analytics and Artificial Intelligence (ScaDS.AI) Dresden/Leipzig, funded by the Federal Ministry of Education and Research (BMBF). The present work was also partly funded by the Center for Advanced Systems Understanding (CASUS), which is financed by Germanytextquoterights Federal Ministry of Education and Research (BMBF) and by the Saxon Ministry for Science, Culture and Tourism (SMWK) with tax funds on the basis of the budget approved by the Saxon State Parliament. Publisher Copyright: textcopyright 2022 The Author(s). Published by IOP Publishing Ltd.

We characterize and remedy a failure mode that may arise from multi-scale dynamics with scale imbalances during training of deep neural networks, such as physics informed neural networks (PINNs). PINNs are popular machine-learning templates that allow for seamless integration of physical equation models with data. Their training amounts to solving an optimization problem over a weighted sum of data-fidelity and equation-fidelity objectives. Conflicts between objectives can arise from scale imbalances, heteroscedasticity in the data, stiffness of the physical equation, or from catastrophic interference during sequential training. We explain the training pathology arising from this and propose a simple yet effective inverse Dirichlet weighting strategy to alleviate the issue. We compare with Sobolev training of neural networks, providing the baseline of analytically epsilon-optimal training. We demonstrate the effectiveness of inverse Dirichlet weighting in various applications, including a multi-scale model of active turbulence, where we show orders of magnitude improvement in accuracy and convergence over conventional PINN training. For inverse modeling using sequential training, we find that inverse Dirichlet weighting protects a PINN against catastrophic forgetting.
Maddu, Suryanarayana ; Vagne, Quentin ; Sbalzarini, Ivo F.: Learning deterministic hydrodynamic equations from stochastic active particle dynamics, 2022

We present a principled data-driven strategy for learning deterministic hydrodynamic models directly from stochastic non-equilibrium active particle trajectories. We apply our method to learning a hydrodynamic model for the propagating density lanes observed in self-propelled particle systems and to learning a continuum description of cell dynamics in epithelial tissues. We also infer from stochastic particle trajectories the latent phoretic fields driving chemotaxis. This demonstrates that statistical learning theory combined with physical priors can enable discovery of multi-scale models of non-equilibrium stochastic processes characteristic of collective movement in living systems.
Maiello, Lorenzo ; Ball, Lorenzo ; Micali, Marco ; Iannuzzi, Francesca ; Scherf, Nico ; Hoffmann, Ralf-Thorsten ; Gama de Abreu, Marcelo ; Pelosi, Paolo ; Huhle, Robert: Automatic Lung Segmentation and Quantification of Aeration in Computed Tomography of the Chest Using 3D Transfer Learning. In: Frontiers in Physiology vol. 12, Frontiers Media SA (2022)
Malekian, Negin ; Agrawal, Amay A. ; Berendonk, Thomas U. ; Al-Fatlawi, Ali ; Schroeder, Michael: A genome-wide scan of wastewater E. coli for genes under positive selection: focusing on mechanisms of antibiotic resistance. In: Scientific Reports vol. 12, Springer Science and Business Media LLC (2022), Nr. 1
Marcolongo, Aris ; Vladymyrov, Mykhailo ; Lienert, Sebastian ; Peleg, Nadav ; Haug, Sigve ; Zscheischler, Jakob: Predicting years with extremely low gross primary production from daily weather data using Convolutional Neural Networks. In: Environmental Data Science vol. 1 (2022), p. e2
Maron, Roman C ; Hekler, Achim ; Haggenmüller, Sarah ; von Kalle, Christof ; Utikal, Jochen S ; Müller, Verena ; Gaiser, Maria ; Meier, Friedegund ; Hobelsberger, Sarah ; et al.: Model soups improve performance of dermoscopic skin cancer classifiers. In: Eur. J. Cancer vol. 173, Elsevier BV (2022), pp. 307–316

BACKGROUND: Image-based cancer classifiers suffer from a variety of problems which negatively affect their performance. For example, variation in image brightness or different cameras can already suffice to diminish performance. Ensemble solutions, where multiple model predictions are combined into one, can improve these problems. However, ensembles are computationally intensive and less transparent to practitioners than single model solutions. Constructing model soups, by averaging the weights of multiple models into a single model, could circumvent these limitations while still improving performance. OBJECTIVE: To investigate the performance of model soups for a dermoscopic melanoma-nevus skin cancer classification task with respect to (1) generalisation to images from other clinics, (2) robustness against small image changes and (3) calibration such that the confidences correspond closely to the actual predictive uncertainties. METHODS: We construct model soups by fine-tuning pre-trained models on seven different image resolutions and subsequently averaging their weights. Performance is evaluated on a multi-source dataset including holdout and external components. RESULTS: We find that model soups improve generalisation and calibration on the external component while maintaining performance on the holdout component. For robustness, we observe performance improvements for pertubated test images, while the performance on corrupted test images remains on par. CONCLUSIONS: Overall, souping for skin cancer classifiers has a positive effect on generalisation, robustness and calibration. It is easy for practitioners to implement and by combining multiple models into a single model, complexity is reduced. This could be an important factor in achieving clinical applicability, as less complexity generally means more transparency.
Martinez-Vega, Beatriz ; Tkachenko, Mariia ; Matkabi, Marianne ; Ortega, Samuel ; Fabelo, Himar ; Balea-Fernandez, Francisco ; Salvia, Marco La ; Torti, Emanuele ; Leporati, Francesco ; et al.: Evaluation of Preprocessing Methods on Independent Medical Hyperspectral Databases to Improve Analysis. In: Sensors vol. 22 (2022), Nr. 22, p. 8917
Martinuzzi, Francesco ; Rackauckas, Chris ; Abdelrehim, Anas ; Mahecha, Miguel D ; Mora, Karin: ReservoirComputing.Jl: An efficient and modular library for reservoir computing models, arXiv (2022)

We introduce ReservoirComputing.jl, an open source Julia library for reservoir computing models. The software offers a great number of algorithms presented in the literature, and allows to expand on them with both internal and external tools in a simple way. The implementation is highly modular, fast and comes with a comprehensive documentation, which includes reproduced experiments from literature. The code and documentation are hosted on Github under an MIT license https://github.com/SciML/ReservoirComputing.jl.
Martinuzzi, Francesco ; Rackauckas, Chris ; Abdelrehim, Anas ; Mahecha, Miguel D ; Mora, Karin: ReservoirComputing. jl: An efficient and modular library for reservoir computing models. In: Journal of Machine Learning Research vol. 23 (2022), Nr. 288, pp. 1–8

We introduce ReservoirComputing.jl, an open source Julia library for reservoir computing models. It is designed for temporal or sequential tasks such as time series prediction and modeling complex dynamical systems. As such it is suited to process a range of complex spatio-temporal data sets, from mathematical models to climate data. The key ideas of reservoir computing are the model architecture, i.e. the reservoir, which embeds the input into a higher dimensional space, and the learning paradigm, where only the readout layer is trained. As a result the computational resources can be kept low, and only linear optimization is required for the training. Although reservoir computing has proven itself as a successful machine learning algorithm, the software implementations have lagged behind, hindering wide recognition, reproducibility, and uptake by general scientists. ReservoirComputing.jl enhances this field by being intuitive, highly modular, and faster compared to alternative tools. A variety of modular components from the literature are implemented, e.g. two reservoir types - echo state networks and cellular automata models, and multiple training methods including Gaussian and support vector regression. A comprehensive documentation, which includes reproduced experiments from the literature is provided.
Marx, Erik ; Leonhardt, Thiemo ; Baberowski, David ; Bergner, Nadine: Using Matchboxes to Teach the Basics of Machine Learning: an Analysis of (Possible) Misconceptions.. In: Proceedings of the Second Teaching Machine Learning and Artificial Intelligence Workshop : PMLR, 2022, pp. 25–29

Pros and cons of Gardners Hexapawn
Marx, Erik ; Leonhardt, Thiemo ; Bergner, Nadine: Brief Summary of Existing Research on Studentstextquoteright Conceptions of AI.. In: , 2022. — Publisher Copyright: textcopyright 2022 Owner/Author.; WiPSCE 2022 ; Conference date: 31-10-2022 Through 02-11-2022, pp. 1–2

Already now, pupils come into contact with many phenomena of computer science (CS), especially artificial intelligence (AI) technologies, which appear in different forms and in a variety of applications, in their everyday lives. In this work we present insights into students' conceptions of AI. For this purpose already conducted research in the field is analysed and initial findings are presented. According to these, students associate AI particularly with autonomously acting systems, which are characterised primarily by human characteristics or behaviour. Finally avenues for further research are identified.
Marx, Erik ; Leonhardt, Thiemo ; Bergner, Nadine: Brief summary of existing research on students’ conceptions of AI.. In: Proceedings of the 17th Workshop in Primary and Secondary Computing Education. Morschach Switzerland : ACM, 2022
Marx, Maximilian ; Krötzsch, Markus: Tuple-Generating Dependencies Capture Complex Values.. In: Olteanu, D. ; Vortmeier, N. (eds.): Proceedings of the 25th International Conference on Database Theory (ICDT 2022), 25th International Conference on Database Theory (ICDT 2022) ; Vol. 220. vol. 220 : Schloss Dagstuhl - Leibniz-Zentrum für Informatik, 2022. — Publisher Copyright: textcopyright Maximilian Marx and Markus Krötzsch; — ISBN 9783959772235, pp. 13:1–13:20

We formalise a variant of Datalog that allows complex values constructed by nesting elements of the input database in sets and tuples. We study its complexity and give a translation into sets of tuple-generating dependencies (TGDs) for which the standard chase terminates on any input database. We identify a fragment for which reasoning is tractable. As membership is undecidable for this fragment, we develop decidable sufficient conditions.
McDonald, Eli Fritz ; Woods, Hope ; Smith, Shannon T ; Kim, Minsoo ; Schoeder, Clara T ; Plate, Lars ; Meiler, Jens: Structural comparative modeling of multi-domain F508del CFTR. In: Biomolecules vol. 12, MDPI AG (2022), Nr. 3, p. 471

Cystic fibrosis (CF) is a rare genetic disease caused by mutations in the cystic fibrosis transmembrane conductance regulator (CFTR), an epithelial anion channel expressed in several vital organs. Absence of functional CFTR results in imbalanced osmotic equilibrium and subsequent mucus build up in the lungs-which increases the risk of infection and eventually causes death. CFTR is an ATP-binding cassette (ABC) transporter family protein composed of two transmembrane domains (TMDs), two nucleotide binding domains (NBDs), and an unstructured regulatory domain. The most prevalent patient mutation is the deletion of F508 (F508del), making F508del CFTR the primary target for current FDA approved CF therapies. However, no experimental multi-domain F508del CFTR structure has been determined and few studies have modeled F508del using multi-domain WT CFTR structures. Here, we used cryo-EM density data and Rosetta comparative modeling (RosettaCM) to compare a F508del model with published experimental data on CFTR NBD1 thermodynamics. We then apply this modeling method to generate multi-domain WT and F508del CFTR structural models. These models demonstrate the destabilizing effects of F508del on NBD1 and the NBD1/TMD interface in both the inactive and active conformation of CFTR. Furthermore, we modeled F508del/R1070W and F508del bound to the CFTR corrector VX-809. Our models reveal the stabilizing effects of VX-809 on multi-domain models of F508del CFTR and pave the way for rational design of additional drugs that target F508del CFTR for treatment of CF.
McGoff, Kevin ; Mukherjee, Sayan ; Nobel, Andrew B: Gibbs posterior convergence and the thermodynamic formalism. In: Ann. Appl. Probab. vol. 32, Institute of Mathematical Statistics (2022), Nr. 1
Meinecke, Christofer ; Schebera, Jeremias ; Eschrich, Jakob ; Wiegreffe, Daniel: Visualizing Similarities between American Rap-Artists based on Text Reuse.. In: LEVIA’22 : Leipzig Symposium on Visualization in Applications 2022. Leipzig : Leipzig University, 2022
Mihindukulasooriya, Nandana ; Dubey, Mohnish ; Gliozzo, Alfio ; Lehmann, Jens ; Ngomo, Axel-Cyrille Ngonga ; Usbeck, Ricardo: SeMantic AnsweR Type prediction task (SMART) at ISWC 2020 Semantic Web Challenge, arXiv (2021)

Each year the International Semantic Web Conference accepts a set of Semantic Web Challenges to establish competitions that will advance the state of the art solutions in any given problem domain. The SeMantic AnsweR Type prediction task (SMART) was part of ISWC 2020 challenges. Question type and answer type prediction can play a key role in knowledge base question answering systems providing insights that are helpful to generate correct queries or rank the answer candidates. More concretely, given a question in natural language, the task of SMART challenge is, to predict the answer type using a target ontology (e.g., DBpedia or Wikidata).
Monteiro, Lummy Maria ; Saraiva, Joao ; Toscan, Rodolfo ; Stadler, Peter ; Silva-Rocha, Rafael ; Nunes da Rocha, Ulisses: PredicTF: prediction of bacterial transcription factors in complex microbial communities using deep learning. In: Environmental Microbiome vol. 17 (2022)
Mordhorst, Laurin ; Morozova, Maria ; Papazoglou, Sebastian ; Fricke, Björn ; Oeschger, Jan Malte ; Tabarin, Thibault ; Rusch, Henriette ; Jäger, Carsten ; Geyer, Stefan ; et al.: Towards a representative reference for MRI-based human axon radius assessment using light microscopy. In: Neuroimage vol. 249, Elsevier (2022), p. 118906
Müller, Stefan ; Flamm, Christoph ; Stadler, Peter F.: What makes a reaction network “chemical”?. In: Journal of Cheminformatics vol. 14, Springer Science and Business Media LLC (2022), Nr. 1
Mukherjee, Souhrid ; Cassini, Thomas A. ; Hu, Ningning ; Yang, Tao ; Li, Bian ; Shen, Wangzhen ; Moth, Christopher W. ; Rinker, David C. ; Sheehan, Jonathan H. ; et al.: Personalized structural biology reveals the molecular mechanisms underlying heterogeneous epileptic phenotypes caused by de novo KCNC2 variants. In: Human Genetics and Genomics Advances vol. 3 (2022), Nr. 4, p. 100131

Summary Whole-exome sequencing (WES) in the clinic has identified several rare monogenic developmental and epileptic encephalopathies (DEE) caused by ion channel variants. However, WES often fails to provide actionable insight for rare diseases, such as DEEs, due to the challenges of interpreting variants of unknown significance (VUS). Here, we describe a ‚Äúpersonalized structural biology‚Äù (PSB) approach that leverages recent innovations in the analysis of protein 3D structures to address this challenge. We illustrate this approach in an Undiagnosed Diseases Network (UDN) individual with DEE symptoms and a de novo VUS in KCNC2 (p.V469L), the Kv3.2 voltage-gated potassium channel. A nearby KCNC2 variant (p.V471L) was recently suggested to cause DEE-like phenotypes. Computational structural modeling suggests that both affect protein function. However, despite their proximity, the p.V469L variant is likely to sterically block the channel pore, while the p.V471L variant is likely to stabilize the open state. Biochemical and electrophysiological analyses demonstrate heterogeneous loss-of-function and gain-of-function effects, as well as differential response to 4-aminopyridine treatment. Molecular dynamics simulations illustrate that the pore of the p.V469L variant is more constricted, increasing the energetic barrier for K+ permeation, whereas the p.V471L variant stabilizes the open conformation. Our results implicate variants in KCNC2 as causative for DEE and guide the interpretation of a UDN individual. They further delineate the molecular basis for the heterogeneous clinical phenotypes resulting from two proximal pathogenic variants. This demonstrates how the PSB approach can provide an analytical framework for individualized hypothesis-driven interpretation of protein-coding VUS.
Muschalski, Lars ; Wollmann, Joanna ; Hornig, Andreas ; Modler, Niels: Steuerung von Compliant-Mechanismen durch Reinforcement Learning. In: GETRIEBETAGUNG 2022 (2022), p. 121
Nam, David ; Chapiro, Julius ; Paradis, Valerie ; Seraphin, Tobias Paul ; Kather, Jakob Nikolas: Artificial intelligence in liver diseases: Improving diagnostics, prognostics and response prediction. In: JHEP Rep. vol. 4, Elsevier BV (2022), Nr. 4, p. 100443

Clinical routine in hepatology involves the diagnosis and treatment of a wide spectrum of metabolic, infectious, autoimmune and neoplastic diseases. Clinicians integrate qualitative and quantitative information from multiple data sources to make a diagnosis, prognosticate the disease course, and recommend a treatment. In the last 5 years, advances in artificial intelligence (AI), particularly in deep learning, have made it possible to extract clinically relevant information from complex and diverse clinical datasets. In particular, histopathology and radiology image data contain diagnostic, prognostic and predictive information which AI can extract. Ultimately, such AI systems could be implemented in clinical routine as decision support tools. However, in the context of hepatology, this requires further large-scale clinical validation and regulatory approval. Herein, we summarise the state of the art in AI in hepatology with a particular focus on histopathology and radiology data. We present a roadmap for the further development of novel biomarkers in hepatology and outline critical obstacles which need to be overcome.
Nata’ala, Muhammad Kabiru ; Avila Santos, Anderson P ; Coelho Kasmanas, Jonas ; Bartholomäus, Alexander ; Saraiva, Jo~ao Pedro ; Godinho Silva, Sandra ; Keller-Costa, Tina ; Costa, Rodrigo ; Gomes, Newton C M ; et al.: MarineMetagenomeDB: a public repository for curated and standardized metadata for marine metagenomes. In: Environ. Microbiome vol. 17, Springer Science and Business Media LLC (2022), Nr. 1, p. 57

BACKGROUND: Metagenomics is an expanding field within microbial ecology, microbiology, and related disciplines. The number of metagenomes deposited in major public repositories such as Sequence Read Archive (SRA) and Metagenomic Rapid Annotations using Subsystems Technology (MG-RAST) is rising exponentially. However, data mining and interpretation can be challenging due to mis-annotated and misleading metadata entries. In this study, we describe the Marine Metagenome Metadata Database (MarineMetagenomeDB) to help researchers identify marine metagenomes of interest for re-analysis and meta-analysis. To this end, we have manually curated the associated metadata of several thousands of microbial metagenomes currently deposited at SRA and MG-RAST. RESULTS: In total, 125 terms were curated according to 17 different classes (e.g., biome, material, oceanic zone, geographic feature and oceanographic phenomena). Other standardized features include sample attributes (e.g., salinity, depth), sample location (e.g., latitude, longitude), and sequencing features (e.g., sequencing platform, sequence count). MarineMetagenomeDB version 1.0 contains 11,449 marine metagenomes from SRA and MG-RAST distributed across all oceans and several seas. Most samples were sequenced using Illumina sequencing technology (84.33%). More than 55% of the samples were collected from the Pacific and the Atlantic Oceans. About 40% of the samples had their biomes assigned as 'ocean'. The 'Quick Search' and 'Advanced Search' tabs allow users to use different filters to select samples of interest dynamically in the web app. The interactive map allows the visualization of samples based on their location on the world map. The web app is also equipped with a novel download tool (on both Windows and Linux operating systems), that allows easy download of raw sequence data of selected samples from their respective repositories. As a use case, we demonstrated how to use the MarineMetagenomeDB web app to select estuarine metagenomes for potential large-scale microbial biogeography studies. CONCLUSION: The MarineMetagenomeDB is a powerful resource for non-bioinformaticians to find marine metagenome samples with curated metadata and stimulate meta-studies involving marine microbiomes. Our user-friendly web app is publicly available at https://webapp.ufz.de/marmdb/ .
Nebe, Michèle ; Kehr, Stephanie ; Schmitz, Samuel ; Breitfeld, Jana ; Lorenz, Judith ; Le Duc, Diana ; Stadler, Peter ; Meiler, Jens ; Kiess, Wieland ; et al.: Small integral membrane protein 10 like 1 enhances differentiation of adipose progenitor cells. In: Biochemical and Biophysical Research Communications vol. 604 (2022)
Nikolov, S ; Tranchida, J ; Ramakrishna, K ; Lokamani, M ; Cangi, A ; Wood, M A: Dissociating the phononic, magnetic and electronic contributions to thermal conductivity: a computational study in alpha-iron. In: J. Mater. Sci. vol. 57, Springer Science and Business Media LLC (2022), Nr. 23, pp. 10535–10548

AbstractComputational tools to study thermodynamic properties of magnetic materials have, until recently, been limited to phenomenological modeling or to small domain sizes limiting our mechanistic understanding of thermal transport in ferromagnets. Herein, we study the interplay of phonon and magnetic spin contributions to the thermal conductivity in $alpha$ $alpha$ -iron utilizing non-equilibrium molecular dynamics simulations. It was observed that the magnetic spin contribution to the total thermal conductivity exceeds lattice transport for temperatures up to two-thirds of the Curie temperature after which only strongly coupled magnon-phonon modes become active heat carriers. Characterizations of the phonon and magnon spectra give a detailed insight into the coupling between these heat carriers, and the temperature sensitivity of these coupled systems. Comparisons to both experiments and ab initio data support our inferred electronic thermal conductivity, supporting the coupled molecular dynamics/spin dynamics framework as a viable method to extend the predictive capability for magnetic material properties.
Nixon, Michelle ; Letourneau, Jeffrey ; David, Lawrence ; Mukherjee, Sayan ; Silverman, Justin: A Statistical Analysis of Compositional Surveys.
Nixon, Michelle Pistner ; Letourneau, Jeffrey ; David, Lawrence A ; Lazar, Nicole A ; Mukherjee, Sayan ; Silverman, Justin D: Scale Reliant Inference, arXiv (2022)

This article develops new tools and new statistical theory for a statistical problem we call Scale Reliant Inference (SRI). Many scientific fields collect multivariate data that lack scale: where the size, sum, or total of each measurement is arbitrary and is not representative of the scale of the underlying system being measured. For example, in the analysis of high-throughput sequencing data, it is well known that the number of sequencing reads (the sequencing depth) varies substantially due non-biological (technical) factors. This article develops a formal problem statement for SRI which unifies problems seen in multiple scientific fields. Informally, we define SRI as an estimation problem in which an estimand of interest cannot be uniquely identified due to the lack of scale information in the observed data. This problem statement represents a reformulation of the related field of Compositional Data Analysis and allows us to prove fundamental limits on SRI. For example, we prove that inferential criteria such as consistency, calibration, and bias are unattainable for common SRI tasks. Moreover, we show that common methods often applied to SRI implicitly assume infinite knowledge of the system scale and can lead to a troubling phenomena termed unacknowledged bias. Counter-intuitively, we show that this problem worsens with more data and can lead to substantially elevated Type-I and Type-II error rates. Still, we show that rigorous statistical inference is possible so long as models acknowledge the fundamental uncertainty in the system scale. We introduce a class of models we call Scale Simulation Random Variables (SSRVs) as flexible, rigorous, and computationally efficient approach to SRI.
Noble, Robert ; Burri, Dominik ; Le Sueur, Cécile ; Lemant, Jeanne ; Viossat, Yannick ; Kather, Jakob Nikolas ; Beerenwinkel, Niko: Spatial structure governs the mode of tumour evolution. In: Nat. Ecol. Evol. vol. 6, Springer Science and Business Media LLC (2022), Nr. 2, pp. 207–217

Characterizing the mode-the way, manner or pattern-of evolution in tumours is important for clinical forecasting and optimizing cancer treatment. Sequencing studies have inferred various modes, including branching, punctuated and neutral evolution, but it is unclear why a particular pattern predominates in any given tumour. Here we propose that tumour architecture is key to explaining the variety of observed genetic patterns. We examine this hypothesis using spatially explicit population genetics models and demonstrate that, within biologically relevant parameter ranges, different spatial structures can generate four tumour evolutionary modes: rapid clonal expansion, progressive diversification, branching evolution and effectively almost neutral evolution. Quantitative indices for describing and classifying these evolutionary modes are presented. Using these indices, we show that our model predictions are consistent with empirical observations for cancer types with corresponding spatial structures. The manner of cell dispersal and the range of cell-cell interactions are found to be essential factors in accurately characterizing, forecasting and controlling tumour evolution.
Nunn, Adam ; Otto, Christian ; Fasold, Mario ; Stadler, Peter F. ; Langenberger, David: Manipulating base quality scores enables variant calling from bisulfite sequencing alignments using conventional bayesian approaches. In: BMC Genomics vol. 23 (2022), Nr. 1, p. 477

Calling germline SNP variants from bisulfite-converted sequencing data poses a challenge for conventional software, which have no inherent capability to dissociate true polymorphisms from artificial mutations induced by the chemical treatment. Nevertheless, SNP data is desirable both for genotyping and to understand the DNA methylome in the context of the genetic background. The confounding effect of bisulfite conversion however can be conceptually resolved by observing differences in allele counts on a per-strand basis, whereby artificial mutations are reflected by non-complementary base pairs.
Obraczka, Daniel ; Rahm, Erhard: Fast hubness-reduced nearest neighbor search for entity alignment in Knowledge Graphs. In: SN Comput. Sci. vol. 3, Springer Science and Business Media LLC (2022), Nr. 6

AbstractThe flexibility of Knowledge Graphs to represent heterogeneous entities and relations of many types is challenging for conventional data integration frameworks. In order to address this challenge the use of Knowledge Graph Embeddings (KGEs) to encode entities from different data sources into a common lower-dimensional embedding space has been a highly active research field. It was recently discovered however that KGEs suffer from the so-called hubness phenomenon. If a dataset suffers from hubness some entities become hubs, that dominate the nearest neighbor search results of the other entities. Since nearest neighbor search is an integral step in the entity alignment procedure when using KGEs, hubness is detrimental to the alignment quality. We investigate a variety of hubness reduction techniques and (approximate) nearest neighbor libraries to show we can perform hubness-reduced nearest neighbor search at practically no cost w.r.t speed, while reaping a significant improvement in quality. We ensure the statistical significance of our results with a Bayesian analysis. For practical use and future research we provide the open-source python library at https://github.com/dobraczka/kiez.
Okhrin, Ostap ; Rockinger, Michael ; Schmid, Manuel: Simulating the Cox--Ingersoll--Ross and Heston Processes: Matching the First Four Moments. In: Journal of Computational Finance vol. 26 (2022), Nr. 2
Oyshi, Marzan Tasnim ; Maleska, Verena ; Schanze, Jochen ; Bormann, Franziskus ; Dachselt, Raimund ; Gumhold, Stefan: FloodVis: Visualization of Climate Ensemble Flood Projections in Virtual Reality.. In: EnvirVis@ EuroVis, 2022, pp. 1–9
Oyshi, Marzan Tasnim ; Russig, Benjamin ; Dachselt, Raimund ; Gumhold, Stefan: VRCellLabeler (VCL): Immersive labeling of Platynereis embryo’s cell lineage trees in Virtual Reality.. In: Eurographics Workshop on Visual Computing for Biology and Medicine, 2022
PeÃ±aloza, Rafael ; Turhan, Anni-Yasmin: User-aware Explications of Ontology Consequences: Levelling Technicality (2022)
Pennitz, Peter ; Kirsten, Holger ; Friedrich, Vincent D. ; Wyler, Emanuel ; Goekeri, Cengiz ; Obermayer, Benedikt ; Heinz, Gitta A. ; Mashreghi, Mir-Farzin ; Büttner, Maren ; et al.: A pulmonologist’s guide to perform and analyse cross-species single lung cell transcriptomics. In: European Respiratory Review vol. 31, European Respiratory Society (ERS) (2022), Nr. 165, p. 220056
Pester, Britta ; Russig, Benjamin ; Winke, Oliver ; Ligges, Carolin ; Dachselt, Raimund ; Gumhold, Stefan: Understanding multi-modal brain network data: An immersive 3D visualization approach. In: Comput. Graph. vol. 106. USA, Pergamon Press, Inc. (2022), Nr. C, pp. 88–97
Phul, Saksham ; Kuenze, Georg ; Vanoye, Carlos G ; Sanders, Charles R ; George, Jr ; Meiler, Jens: Predicting the functional impact of KCNQ1 variants with artificial neural networks. In: PLoS Comput. Biol. vol. 18, Public Library of Science (PLoS) (2022), Nr. 4, p. e1010038

Recent advances in experimental and computational protein structure determination have provided access to high-quality structures for most human proteins and mutants thereof. However, linking changes in structure in protein mutants to functional impact remains an active area of method development. If successful, such methods can ultimately assist physicians in taking appropriate treatment decisions. This work presents three artificial neural network (ANN)-based predictive models that classify four key functional parameters of KCNQ1 variants as normal or dysfunctional using PSSM-based evolutionary and/or biophysical descriptors. Recent advances in predicting protein structure and variant properties with artificial intelligence (AI) rely heavily on the availability of evolutionary features and thus fail to directly assess the biophysical underpinnings of a change in structure and/or function. The central goal of this work was to develop an ANN model based on structure and physiochemical properties of KCNQ1 potassium channels that performs comparably or better than algorithms using only on PSSM-based evolutionary features. These biophysical features highlight the structure-function relationships that govern protein stability, function, and regulation. The input sensitivity algorithm incorporates the roles of hydrophobicity, polarizability, and functional densities on key functional parameters of the KCNQ1 channel. Inclusion of the biophysical features outperforms exclusive use of PSSM-based evolutionary features in predicting activation voltage dependence and deactivation time. As AI is increasingly applied to problems in biology, biophysical understanding will be critical with respect to 'explainable AI', i.e., understanding the relation of sequence, structure, and function of proteins. Our model is available at www.kcnq1predict.org.
Phul, Saksham ; Kuenze, Georg ; Vanoye, Carlos G. ; Sanders, Charles R. ; George, Alfred L. ; Meiler, Jens: Predicting the functional impact of KCNQ1 variants with artificial neural networks. In: Slusky, J. (ed.) PLOS Computational Biology vol. 18, Public Library of Science (PLoS) (2022), Nr. 4, p. e1010038
Platow, Birte: Isten Ã©s az Ãºj istenek: Az Istenbe vetett hit technicista felvÃ¡ltÃ¡sÃ¡rÃ³l Ã©s annak mÅ±kÃ¶dÅ‘kÃ©pessÃ©gÃ©rÅ‘l (2022)
Platow, Birte: Verdrängung des Menschen?.. In: Zuversichtsargumente : Brill Schöningh, 2022, pp. 245–264
Podranski, Kornelius ; Pine, Kerrin J. ; Colnaghi, Timoteo ; Marek, Andreas ; Scheibe, Patrick ; Scherf, Nico ; Weiskopf, Nikolaus: Evaluating different k-space undersampling schemes with iterative and deep learning image reconstruction for fast multi-parameter mapping (2022)
Pott, Janne ; Garcia, Tarcyane ; Hauck, Stefanie M ; Petrera, Agnese ; Wirkner, Kerstin ; Loeffler, Markus ; Kirsten, Holger ; Peters, Annette ; Scholz, Markus: Genetically regulated gene expression and proteins revealed discordant effects. In: PloS one vol. 17, Public Library of Science San Francisco, CA USA (2022), Nr. 5, p. e0268815
Pradip, Ravi ; Cichos, Frank: Deep reinforcement learning with artificial microswimmers.. In: Emerging Topics in Artificial Intelligence (ETAI) 2022. vol. 12204 : SPIE, 2022, pp. 104–110
Präger, Arne ; Nsonga, Baldwin ; Scheuermann, Gerik: Visualizing statistical complexity in 3d turbulent flows using a robust entropy calculation method, Václav Skala-UNION Agency (2022)
Prager, Raphael Patrick ; Seiler, Moritz Vinzent ; Trautmann, Heike ; Kerschke, Pascal: Automated algorithm selection in single-objective continuous optimization: A comparative study of deep learning and landscape analysis methods.. In: Lecture Notes in Computer Science, Lecture notes in computer science. Cham : Springer International Publishing, 2022, pp. 3–17
Rackauckas, Chris ; Gwozdz, Maja ; Jain, Anand ; Ma, Yingbo ; Martinuzzi, Francesco ; Rajput, Utkarsh ; Saba, Elliot ; Shah, Viral B ; Anantharaman, Ranjan ; et al.: Composing modeling and simulation with machine learning in Julia, IEEE (2022), pp. 1–17

In this paper we introduce JuliaSim, a high-performance programming environment designed to blend traditional modeling and simulation with machine learning. JuliaSim can build surrogates from component-based models, including Functional Mockup Units, using continuous-time echo state networks (CTESN). The foundation of this environment, Modeling-Toolkit.jl, is an acausal-modeling language which can compose the trained surrogates as components. We present the JuliaSim model library, consisting of differential-algebraic equations and pre-trained surrogates, which can be composed using the modeling system. We demonstrate a surrogate-accelerated approach on HVAC dynamics by showing that the CTESN surrogates capture dynamics at less than 4% error with an acceleration of 340x, and speed up design optimization by two orders of magnitude. We showcase the surrogate deployed in a co …
Rapberger, Anna ; Ulbricht, Markus: On Dynamics in Structured Argumentation Formalisms.. In: Proceedings of the Nineteenth International Conference on Principles of Knowledge Representation and Reasoning. Haifa, Israel : International Joint Conferences on Artificial Intelligence Organization, 2022

In this paper we contribute to the investigation of dynamics in assumption-based argumentation (ABA) and investigate situations where a given knowledge base undergoes certain changes. We show that two frequently investigated problems, namely enforcement of a given target atom and deciding strong equivalence of two given ABA frameworks, are intractable in general. Interestingly, these problems are both tractable for abstract argumentation frameworks (AFs) which admit a close correspondence to ABA by constructing semantics-preserving instances. Inspired by this observation, we search for tractable fragments for ABA frameworks by means of the instantiated AFs. We argue that the usual instantiation procedure is not suitable for the investigation of dynamic scenarios since too much information is lost when constructing the AF. We thus consider an extension of AFs, called cvAFs, equipping arguments with conclusions and vulnerabilities in order to better anticipate their role after the underlying knowledge base is extended. We investigate enforcement and strong equivalence for cvAFs and present syntactic conditions to decide them. We show that the correspondence between cvAFs and ABA frameworks is close enough to capture ABA also in dynamic scenarios. This yields the desired tractable ABA fragment. We furthermore discuss consequences for the corresponding problems for logic programs.
Rapberger, Anna ; Ulbricht, Markus ; Wallner, Johannes Peter: Argumentation Frameworks Induced by Assumption-Based Argumentation: Relating Size and Complexity.. In: Proceedings of the 20th International Workshop on Non-Monotonic Reasoning, NMR 2022, Part of the Federated Logic Conference (FLoC 2022), Haifa, Israel, August 7-9, 2022, 2022, pp. 92–103
Reimer, Jan Heinrich ; Huck, Johannes ; Bondarenko, Alexander: Grimjack at Touché 2022: Axiomatic Re-ranking and Query Reformulation.. In: Faggioli, G. ; Ferro, N. ; Hanbury, A. ; Potthast, M. (eds.): Working Notes Papers of the CLEF 2022 Evaluation Labs, CEUR Workshop Proceedings. vol. 3180, 2022
Reinhardt, Franziska ; Stadler, Peter F.: ExceS-A: an exon-centric split aligner. In: Journal of Integrative Bioinformatics vol. 19, Walter de Gruyter GmbH (2022), Nr. 1
Ribeiro, Francisco W ; da Silva, Samiria MO ; de A de Souza Filho, Francisco ; Carvalho, Taís MN ; de M. Lopes, Tereza MX: Diversification of urban water supply: An assessment of social costs and water production costs. In: Water Policy vol. 24, IWA Publishing (2022), Nr. 6, pp. 980–997

The incorporation of new water sources into a supply system requires an assessment of their economic feasibility, which, in turn, demands knowledge of their associated costs. This study calculates water production cost and evaluates social cost by applying the residual value method and calculating the shadow price for several water sources. The results indicate that desalination and industrial reuse incur similar costs, with the former being more competitive in terms of investment (US dollar (USD) 0.28/m3) and the latter in operation and maintenance (USD 0.57/m3). Cisterns and greywater reuse incur higher investment costs (USD 2.20/m3 and USD 2.60/m3, respectively), while well water has the lowest total cost (USD 0.08/m3). Desalination showed the lowest degree of distortion between shadow price and water cost and between shadow price and the average tariff; meanwhile, there was moderate …
Roche, Kimberly E ; Mukherjee, Sayan: The accuracy of absolute differential abundance analysis from relative count data. In: PLoS Comput. Biol. vol. 18, Public Library of Science (PLoS) (2022), Nr. 7, p. e1010284

Concerns have been raised about the use of relative abundance data derived from next generation sequencing as a proxy for absolute abundances. For example, in the differential abundance setting, compositional effects in relative abundance data may give rise to spurious differences (false positives) when considered from the absolute perspective. In practice however, relative abundances are often transformed by renormalization strategies intended to compensate for these effects and the scope of the practical problem remains unclear. We used simulated data to explore the consistency of differential abundance calling on renormalized relative abundances versus absolute abundances and find that, while overall consistency is high, with a median sensitivity (true positive rates) of 0.91 and specificity (1-false positive rates) of 0.89, consistency can be much lower where there is widespread change in the abundance of features across conditions. We confirm these findings on a large number of real data sets drawn from 16S metabarcoding, expression array, bulk RNA-seq, and single-cell RNA-seq experiments, where data sets with the greatest change between experimental conditions are also those with the highest false positive rates. Finally, we evaluate the predictive utility of summary features of relative abundance data themselves. Estimates of sparsity and the prevalence of feature-level change in relative abundance data give reasonable predictions of discrepancy in differential abundance calling in simulated data and can provide useful bounds for worst-case outcomes in real data.
Röhling, Amelie ; Weil, Johannes: Die Grenzen privater Normsetzung durch soziale Netzwerke: Zur Drittwirkung der Unionsgrundrechte bei Community Standards am Beispiel von Hate Speech.. In: Entscheidungsträger im Internet : Nomos Verlagsgesellschaft mbH & Co. KG, 2022, pp. 151–180
Rost, Christopher ; Gomez, Kevin ; Täschner, Matthias ; Fritzsche, Philip ; Schons, Lucas ; Christ, Lukas ; Adameit, Timo ; Junghanns, Martin ; Rahm, Erhard: Distributed temporal graph analytics with GRADOOP. In: VLDB J. vol. 31, Springer Science and Business Media LLC (2022), Nr. 2, pp. 375–401

AbstractTemporal property graphs are graphs whose structure and properties change over time. Temporal graph datasets tend to be large due to stored historical information, asking for scalable analysis capabilities. We give a complete overview of Gradoop, a graph dataflow system for scalable, distributed analytics of temporal property graphs which has been continuously developed since 2005. Its graph model TPGM allows bitemporal modeling not only of vertices and edges but also of graph collections. A declarative analytical language called GrALa allows analysts to flexibly define analytical graph workflows by composing different operators that support temporal graph analysis. Built on a distributed dataflow system, large temporal graphs can be processed on a shared-nothing cluster. We present the system architecture of Gradoop, its data model TPGM with composable temporal graph operators, like snapshot, difference, pattern matching, graph grouping and several implementation details. We evaluate the performance and scalability of selected operators and a composed workflow for synthetic and real-world temporal graphs with up to 283 M vertices and 1.8 B edges, and a graph lifetime of about 8 years with up to 20 M new edges per year. We also reflect on lessons learned from the Gradoop effort.
Rostami, Amirhossein ; Vogginger, Bernhard ; Yan, Yexin ; Mayr, Christian G.: E-prop on SpiNNaker 2: Exploring online learning in spiking RNNs on neuromorphic hardware. In: Frontiers in Neuroscience vol. 16 (2022)

Introduction
In recent years, the application of deep learning models at the edge has gained attention. Typically, artificial neural networks (ANNs) are trained on graphics processing units (GPUs) and optimized for efficient execution on edge devices. Training ANNs directly at the edge is the next step with many applications such as the adaptation of models to specific situations like changes in environmental settings or optimization for individuals, e.g., optimization for speakers for speech processing. Also, local training can preserve privacy. Over the last few years, many algorithms have been developed to reduce memory footprint and computation.
Methods
A specific challenge to train recurrent neural networks (RNNs) for processing sequential data is the need for the Back Propagation Through Time (BPTT) algorithm to store the network state of all time steps. This limitation is resolved by the biologically-inspired E-prop approach for training Spiking Recurrent Neural Networks (SRNNs). We implement the E-prop algorithm on a prototype of the SpiNNaker 2 neuromorphic system. A parallelization strategy is developed to split and train networks on the ARM cores of SpiNNaker 2 to make efficient use of both memory and compute resources. We trained an SRNN from scratch on SpiNNaker 2 in real-time on the Google Speech Command dataset for keyword spotting.
Result
We achieved an accuracy of 91.12% while requiring only 680 KB of memory for training the network with 25 K weights. Compared to other spiking neural networks with equal or better accuracy, our work is significantly more memory-efficient.
Discussion
In addition, we performed a memory and time profiling of the E-prop algorithm. This is used on the one hand to discuss whether E-prop or BPTT is better suited for training a model at the edge and on the other hand to explore architecture modifications to SpiNNaker 2 to speed up online learning. Finally, energy estimations predict that the SRNN can be trained on SpiNNaker2 with 12 times less energy than using a NVIDIA V100 GPU.
Roth, Johannes ; Keller, Johannes ; Franke, Stefan ; Neumuth, Thomas ; Schneider, Daniel: Multi-plane UNet++ Ensemble for Glioblastoma Segmentation.. In: Brainlesion: Glioma, Multiple Sclerosis, Stroke and Traumatic Brain Injuries : Springer International Publishing, 2022 — ISBN 9783031089992, pp. 285–294
Sala, Davide ; Del Alamo, Diego ; Mchaourab, Hassane S ; Meiler, Jens: Modeling of protein conformational changes with Rosetta guided by limited experimental data. In: Structure vol. 30, Elsevier BV (2022), Nr. 8, pp. 1157–1168.e3

Conformational changes are an essential component of functional cycles of many proteins, but their characterization often requires an integrative structural biology approach. Here, we introduce and benchmark ConfChangeMover (CCM), a new method built into the widely used macromolecular modeling suite Rosetta that is tailored to model conformational changes in proteins using sparse experimental data. CCM can rotate and translate secondary structural elements and modify their backbone dihedral angles in regions of interest. We benchmarked CCM on soluble and membrane proteins with simulated C$alpha$-C$alpha$ distance restraints and sparse experimental double electron-electron resonance (DEER) restraints, respectively. In both benchmarks, CCM outperformed state-of-the-art Rosetta methods, showing that it can model a diverse array of conformational changes. In addition, the Rosetta framework allows a wide variety of experimental data to be integrated with CCM, thus extending its capability beyond DEER restraints. This method will contribute to the biophysical characterization of protein dynamics.
Saldanha, Oliver Lester ; Quirke, Philip ; West, Nicholas P ; James, Jacqueline A ; Loughrey, Maurice B ; Grabsch, Heike I ; Salto-Tellez, Manuel ; Alwers, Elizabeth ; Cifci, Didem ; et al.: Swarm learning for decentralized artificial intelligence in cancer histopathology. In: Nat. Med. vol. 28, Springer Science and Business Media LLC (2022), Nr. 6, pp. 1232–1239

Artificial intelligence (AI) can predict the presence of molecular alterations directly from routine histopathology slides. However, training robust AI systems requires large datasets for which data collection faces practical, ethical and legal obstacles. These obstacles could be overcome with swarm learning (SL), in which partners jointly train AI models while avoiding data transfer and monopolistic data governance. Here, we demonstrate the successful use of SL in large, multicentric datasets of gigapixel histopathology images from over 5,000 patients. We show that AI models trained using SL can predict BRAF mutational status and microsatellite instability directly from hematoxylin and eosin (H&E)-stained pathology slides of colorectal cancer. We trained AI models on three patient cohorts from Northern Ireland, Germany and the United States, and validated the prediction performance in two independent datasets from the United Kingdom. Our data show that SL-trained AI models outperform most locally trained models, and perform on par with models that are trained on the merged datasets. In addition, we show that SL-based AI models are data efficient. In the future, SL can be used to train distributed AI models for any histopathology image analysis task, eliminating the need for data transfer.
Sauer, Philipp ; Bevendorff, Janek ; Gienapp, Lukas ; Kircheis, Wolfgang ; Körner, Erik ; Stein, Benno ; Potthast, Martin: SMAuC -- The Scientific Multi-Authorship Corpus.
Scao, Teven ; Fan, Angela ; Akiki, Christopher ; Pavlick, Ellie ; Ilić, Suzana ; Hesslow, Daniel ; Castagné, Roman ; Luccioni, Alexandra ; Yvon, François ; et al.: BLOOM: A 176B-Parameter Open-Access Multilingual Language Model.
Scao, Teven Le ; Fan, Angela ; Akiki, Christopher ; others: BLOOM: A 176B-Parameter Open-Access Multilingual Language Model. In: CoRR vol. abs/2211.05100 (2022)
Schäpermeier, Lennart ; Grimme, Christian ; Kerschke, Pascal: MOLE.. In: Proceedings of the Genetic and Evolutionary Computation Conference. Boston Massachusetts : ACM, 2022
Schäpermeier, Lennart ; Grimme, Christian ; Kerschke, Pascal: Plotting Impossible? Surveying Visualization Methods for Continuous Multi-Objective Benchmark Problems. In: IEEE transactions on neural networks / a publication of the IEEE Neural Networks Council vol. 26 (2022), pp. 1306–1320
Schaller, David ; Hellmuth, Marc ; Stadler, Peter F.: AsymmeTree: A Flexible Python Package for the Simulation of Complex Gene Family Histories. In: Software vol. 1, MDPI AG (2022), Nr. 3, pp. 276–298
Scherf, Nico: Computer statt Mensch: Kann KI unsere Probleme lösen?, Hessischer Rundfunk (hr) (2022)
Scherf, Nico: Einige Gedanken und Fragen zum Umgang mit und zur Veröffentlichung von Bioimaging-Datenanalysen.. In: 5. FDM-Workshop 2022, 2022
Scherf, Nico: A gentle introduction to deep learning.. In: 11th IMPRS NeuroCom Summer School, 2022
Scherf, Nico: Machine learning in computational microscopy.. In: 11th IMPRS NeuroCom Summer School, 2022
Schlaeppi, Anjalie ; Adams, Wilson ; Haase, Robert ; Huisken, Jan ; MacDonald, Ryan B ; Eliceiri, Kevin W ; Kugler, Elisabeth C: Meeting in the middle: towards successful multidisciplinary bioimage analysis collaboration. In: Frontiers in bioinformatics vol. 2, Frontiers Media SA (2022), p. 889755
Schlatt, Ferdinand ; Bettin, Dieter ; Hagen, Matthias ; Stein, Benno ; Potthast, Martin: Mining Health-related Cause-Effect Statements with High Precision at Large Scale.. In: Proceedings of the 29th International Conference on Computational Linguistics. Gyeongju, Republic of Korea : International Committee on Computational Linguistics, 2022, pp. 1925–1936

An efficient assessment of the health relatedness of text passages is important to mine the web at scale to conduct health sociological analyses or to develop a health search engine. We propose a new efficient and effective termhood score for predicting the health relatedness of phrases and sentences, which achieves 69% recall at over 90% precision on a web dataset with cause-effect statements. It is more effective than state-of-the-art medical entity linkers and as effective but much faster than BERT-based approaches. Using our method, we compile the Webis Medical CauseNet 2022, a new resource of 7.8 million health-related cause-effect statements such as ``Studies show that stress induces insomnia'' in which the cause (`stress') and effect (`insomnia') are labeled.
Schmitz, Rüdiger ; Kather, Jakob Nikolas: Artificial intelligence in Barrett’s oesophagus and the need for shared and combined data. In: United European Gastroenterol. J. vol. 10, Wiley (2022), Nr. 6, pp. 525–527
Schmitz, Samuel ; Schmitz, Emily A ; Crowe, Jr ; Meiler, Jens: The human antibody sequence space and structural design of the V, J regions, and CDRH3 with Rosetta. In: MAbs vol. 14, Informa UK Limited (2022), Nr. 1, p. 2068212

The human adaptive immune response enables the targeting of epitopes on pathogens with high specificity. Infection with a pathogen induces somatic hyper-mutation and B-cell selection processes that govern the shape and diversity of the antibody sequence landscape. To date, even the largest immunome repertoires of adaptive immune receptors acquired by next-generation sequencing cannot fully capture the vast antibody sequence space of a single individual, which is estimated to be at least 1012 potential sequences. Degeneracy of the genetic code means that the number of possible nucleotide triplets (64) is greater than the number of canonical amino acids (20), resulting in some amino acids being encoded by multiple triplets and different amino acids sharing the same nucleotide in 1 or 2 positions in the triplet. We hypothesize that the degeneracy of the genetic code can be used to statistically model an enlarged space of human antibody amino acid sequences, accommodating for the discrepancy between the observed and the hypothesized antibody sequence space. Facilitated by Bayesian statistics and immunome repertoire clustering, we calculated amino acid probabilities from single nucleotide frequencies to infer a human amino acid sequence space that is used to design human-like antibodies with Rosetta. We show that antibodies designed with our restraints are on average up to 16.6% more human-like in the V and J regions compared to the Rosetta designs produced without constraints. The human-likeness of the heavy-chain CDR3 region (CDRH3) could be increased for 8 of 27 antibodies compared to Rosetta designs with a similar number of mutations and could be successfully applied on Mus musculus antibodies to demonstrate humanization.
Schneider, Lennart ; Schäpermeier, Lennart ; Prager, Raphael Patrick ; Bischl, Bernd ; Trautmann, Heike ; Kerschke, Pascal: HPO $times $ ELA: Investigating hyperparameter optimization landscapes by means of exploratory landscape analysis.. In: Lecture Notes in Computer Science, Lecture notes in computer science. Cham : Springer International Publishing, 2022, pp. 575–589

AbstractHyperparameter optimization (HPO) is a key component of machine learning models for achieving peak predictive performance. While numerous methods and algorithms for HPO have been proposed over the last years, little progress has been made in illuminating and examining the actual structure of these black-box optimization problems. Exploratory landscape analysis (ELA) subsumes a set of techniques that can be used to gain knowledge about properties of unknown optimization problems. In this paper, we evaluate the performance of five different black-box optimizers on 30 HPO problems, which consist of two-, three- and five-dimensional continuous search spaces of the XGBoost learner trained on 10 different data sets. This is contrasted with the performance of the same optimizers evaluated on 360 problem instances from the black-box optimization benchmark (BBOB). We then compute ELA features on the HPO and BBOB problems and examine similarities and differences. A cluster analysis of the HPO and BBOB problems in ELA feature space allows us to identify how the HPO problems compare to the BBOB problems on a structural meta-level. We identify a subset of BBOB problems that are close to the HPO problems in ELA feature space and show that optimizer performance is comparably similar on these two sets of benchmark problems. We highlight open challenges of ELA for HPO and discuss potential directions of future research and applications.
Schneider, Lucas ; Krieghoff-Henning, Eva ; Laiouar-Pedari, Sara ; Kuntz, Sara ; Hekler, Achim ; Kather, Jakob N ; Gaiser, Timo ; Fröhling, Stefan ; Brinker, Titus J: Response to letter entitled: Re: Integration of deep learning-based image analysis and genomic data in cancer pathology: A systematic review. In: Eur. J. Cancer vol. 172, Elsevier BV (2022), pp. 403–404
Schneider, Lucas ; Laiouar-Pedari, Sara ; Kuntz, Sara ; Krieghoff-Henning, Eva ; Hekler, Achim ; Kather, Jakob N ; Gaiser, Timo ; Fröhling, Stefan ; Brinker, Titus J: Integration of deep learning-based image analysis and genomic data in cancer pathology: A systematic review. In: Eur. J. Cancer vol. 160, Elsevier BV (2022), pp. 80–91

BACKGROUND: Over the past decade, the development of molecular high-throughput methods (omics) increased rapidly and provided new insights for cancer research. In parallel, deep learning approaches revealed the enormous potential for medical image analysis, especially in digital pathology. Combining image and omics data with deep learning tools may enable the discovery of new cancer biomarkers and a more precise prediction of patient prognosis. This systematic review addresses different multimodal fusion methods of convolutional neural network-based image analyses with omics data, focussing on the impact of data combination on the classification performance. METHODS: PubMed was screened for peer-reviewed articles published in English between January 2015 and June 2021 by two independent researchers. Search terms related to deep learning, digital pathology, omics, and multimodal fusion were combined. RESULTS: We identified a total of 11 studies meeting the inclusion criteria, namely studies that used convolutional neural networks for haematoxylin and eosin image analysis of patients with cancer in combination with integrated omics data. Publications were categorised according to their endpoints: 7 studies focused on survival analysis and 4 studies on prediction of cancer subtypes, malignancy or microsatellite instability with spatial analysis. CONCLUSIONS: Image-based classifiers already show high performances in prognostic and predictive cancer diagnostics. The integration of omics data led to improved performance in all studies described here. However, these are very early studies that still require external validation to demonstrate their generalisability and robustness. Further and more comprehensive studies with larger sample sizes are needed to evaluate performance and determine clinical benefits.
Schneider, Maja ; Gehrke, Lukas ; Christen, Peter ; Rahm, Erhard: D-TOUR: Detour-based point of interest detection in privacy-sensitive trajectories. In: INFORMATIK 2022, Gesellschaft für Informatik, Bonn (2022)
Schoeder, Clara T ; Gilchuk, Pavlo ; Sangha, Amandeep K ; Ledwitch, Kaitlyn V ; Malherbe, Delphine C ; Zhang, Xuan ; Binshtein, Elad ; Williamson, Lauren E ; Martina, Cristina E ; et al.: Epitope-focused immunogen design based on the ebolavirus glycoprotein HR2-MPER region. In: PLoS Pathog. vol. 18, Public Library of Science (PLoS) (2022), Nr. 5, p. e1010518

The three human pathogenic ebolaviruses: Zaire (EBOV), Bundibugyo (BDBV), and Sudan (SUDV) virus, cause severe disease with high fatality rates. Epitopes of ebolavirus glycoprotein (GP) recognized by antibodies with binding breadth for all three ebolaviruses are of major interest for rational vaccine design. In particular, the heptad repeat 2 -membrane-proximal external region (HR2-MPER) epitope is relatively conserved between EBOV, BDBV, and SUDV GP and targeted by human broadly-neutralizing antibodies. To study whether this epitope can serve as an immunogen for the elicitation of broadly-reactive antibody responses, protein design in Rosetta was employed to transplant the HR2-MPER epitope identified from a co-crystal structure with the known broadly-reactive monoclonal antibody (mAb) BDBV223 onto smaller scaffold proteins. From computational analysis, selected immunogen designs were produced as recombinant proteins and functionally validated, leading to the identification of a sterile alpha motif (SAM) domain displaying the BDBV-HR2-MPER epitope near its C terminus as a promising candidate. The immunogen was fused to one component of a self-assembling, two-component nanoparticle and tested for immunogenicity in rabbits. Robust titers of cross-reactive serum antibodies to BDBV and EBOV GPs and moderate titers to SUDV GP were induced following immunization. To confirm the structural composition of the immunogens, solution NMR studies were conducted and revealed structural flexibility in the C-terminal residues of the epitope. Overall, our study represents the first report on an epitope-focused immunogen design based on the structurally challenging BDBV-HR2-MPER epitope.
Schor, Jana ; Scheibe, Patrick ; Bernt, Matthias ; Busch, Wibke ; Lai, Chih ; Hackermüller, Jörg: AI for predicting chemical-effect associations at the chemical universe level—deepFPlearn. In: Briefings in bioinformatics vol. 23, Oxford University Press (2022), Nr. 5, p. bbac257
Schrammen, Peter Leonard ; Ghaffari Laleh, Narmin ; Echle, Amelie ; Truhn, Daniel ; Schulz, Volkmar ; Brinker, Titus J ; Brenner, Hermann ; Chang-Claude, Jenny ; Alwers, Elizabeth ; et al.: Weakly supervised annotation-free cancer detection and prediction of genotype in routine histopathology. In: J. Pathol. vol. 256, Wiley (2022), Nr. 1, pp. 50–60

Deep learning is a powerful tool in computational pathology: it can be used for tumor detection and for predicting genetic alterations based on histopathology images alone. Conventionally, tumor detection and prediction of genetic alterations are two separate workflows. Newer methods have combined them, but require complex, manually engineered computational pipelines, restricting reproducibility and robustness. To address these issues, we present a new method for simultaneous tumor detection and prediction of genetic alterations: The Slide-Level Assessment Model (SLAM) uses a single off-the-shelf neural network to predict molecular alterations directly from routine pathology slides without any manual annotations, improving upon previous methods by automatically excluding normal and non-informative tissue regions. SLAM requires only standard programming libraries and is conceptually simpler than previous approaches. We have extensively validated SLAM for clinically relevant tasks using two large multicentric cohorts of colorectal cancer patients, Darmkrebs: Chancen der Verhütung durch Screening (DACHS) from Germany and Yorkshire Cancer Research Bowel Cancer Improvement Programme (YCR-BCIP) from the UK. We show that SLAM yields reliable slide-level classification of tumor presence with an area under the receiver operating curve (AUROC) of 0.980 (confidence interval 0.975, 0.984; n = 2,297 tumor and n = 1,281 normal slides). In addition, SLAM can detect microsatellite instability (MSI)/mismatch repair deficiency (dMMR) or microsatellite stability/mismatch repair proficiency with an AUROC of 0.909 (0.888, 0.929; n = 2,039 patients) and BRAF mutational status with an AUROC of 0.821 (0.786, 0.852; n = 2,075 patients). The improvement with respect to previous methods was validated in a large external testing cohort in which MSI/dMMR status was detected with an AUROC of 0.900 (0.864, 0.931; n = 805 patients). In addition, SLAM provides human-interpretable visualization maps, enabling the analysis of multiplexed network predictions by human experts. In summary, SLAM is a new simple and powerful method for computational pathology that could be applied to multiple disease contexts. copyright 2021 The Authors. The Journal of Pathology published by John Wiley & Sons, Ltd. on behalf of The Pathological Society of Great Britain and Ireland.
Seiler, Moritz Vinzent ; Prager, Raphael Patrick ; Kerschke, Pascal ; Trautmann, Heike: A collection of deep learning-based feature-free approaches for characterizing single-objective continuous fitness landscapes.. In: Proceedings of the Genetic and Evolutionary Computation Conference. Boston Massachusetts : ACM, 2022
Siegmund, Norbert ; Dorn, Johannes ; Weber, Max ; Kaltenecker, Christian ; Apel, Sven: Green configuration: Can artificial intelligence help reduce energy consumption of configurable software systems?. In: Computer (Long Beach Calif.) vol. 55, Institute of Electrical and Electronics Engineers (IEEE) (2022), Nr. 3, pp. 74–81
Silverman, Justin D. ; Roche, Kimberly ; Holmes, Zachary C. ; David, Lawrence A. ; Mukherjee, Sayan: Bayesian Multinomial Logistic Normal Models through Marginally Latent Matrix-T Processes. In: Journal of Machine Learning Research vol. 23 (2022), Nr. 7, pp. 1–42
Smith, Shannon T ; Shub, Laura ; Meiler, Jens: PlaceWaters: Real-time, explicit interface water sampling during Rosetta ligand docking. In: PLoS One vol. 17, Public Library of Science (PLoS) (2022), Nr. 5, p. e0269072

Water molecules at the protein-small molecule interface often form hydrogen bonds with both the small molecule ligand and the protein, affecting the structural integrity and energetics of a binding event. The inclusion of these 'bridging waters' has been shown to improve the accuracy of predicted docked structures; however, due to increased computational costs, this step is typically omitted in ligand docking simulations. In this study, we introduce a resource-efficient, Rosetta-based protocol named ``PlaceWaters'' to predict the location of explicit interface bridging waters during a ligand docking simulation. In contrast to other explicit water methods, this protocol is independent of knowledge of number and location of crystallographic waters in homologous structures. We test this method on a diverse protein-small molecule benchmark set in comparison to other Rosetta-based protocols. Our results suggest that this coarse-grained, structure-based approach quickly and accurately predicts the location of bridging waters, improving our ability to computationally screen drug candidates.
Soans, Karen G. ; Ramos, Ana Patricia ; Sidhaye, Jaydeep ; Krishna, Abhijeet ; Solomatina, Anastasia ; Hoffmann, Karl B. ; Schl��ler, Raimund ; Guck, Jochen ; Sbalzarini, Ivo F. ; et al.: Collective cell migration during optic cup formation features changing cell-matrix interactions linked to matrix topology. In: Current Biology vol. 32 (2022), Nr. 22, pp. 4817–4831.e9

Summary Cell migration is crucial for organismal development and shapes organisms in health and disease. Although a lot of research has revealed the role of intracellular components and extracellular signaling in driving single and collective cell migration, the influence of physical properties of the tissue and the environment on migration phenomena in vivo remains less explored. In particular, the role of the extracellular matrix (ECM), which many cells move upon, is currently unclear. To overcome this gap, we use zebrafish optic cup formation, and by combining novel transgenic lines and image analysis pipelines, we study how ECM properties influence cell migration in vivo. We show that collectively migrating rim cells actively move over an immobile extracellular matrix. These cell movements require cryptic lamellipodia that are extended in the direction of migration. Quantitative analysis of matrix properties revealed that the topology of the matrix changes along the migration path. These changes in matrix topologies are accompanied by changes in the dynamics of cell-matrix interactions. Experiments and theoretical modeling suggest that matrix porosity could be linked to efficient migration. Indeed, interfering with matrix topology by increasing its porosity results in a loss of cryptic lamellipodia, less-directed cell-matrix interactions, and overall inefficient migration. Thus, matrix topology is linked to the dynamics of cell-matrix interactions and the efficiency of directed collective rim cell migration during vertebrate optic cup morphogenesis.
Sodoge, Jan ; Kuhlicke, Christian ; Mahecha, Miguel D. ; de Brito, Mariana Madruga: Text mining uncovers the unique dynamics of socio-economic impacts of the 2018–2022 multi-year drought in Germany. In: Natural Hazards and Earth System Sciences vol. 24, Copernicus GmbH (2024), Nr. 5, pp. 1757–1777
Soltani, Salim ; Feilhauer, Hannes ; Duker, Robbert ; Kattenborn, Teja: Transfer learning from citizen science photographs enables plant species identification in UAV imagery. In: ISPRS Open Journal of Photogrammetry and Remote Sensing vol. 5 (2022), p. 100016-

Accurate information on the spatial distribution of plant species and communities is in high demand for various fields of application, such as nature conservation, forestry, and agriculture. A series of studies has shown that Convolutional Neural Networks (CNNs) accurately predict plant species and communities in high-resolution remote sensing data, in particular with data at the centimeter scale acquired with Unoccupied Air Vehicles (UAVs). However, such tasks often require ample training data, which is commonly generated in the field via geocoded in-situ observations or labeling remote sensing data through visual interpretation. Both approaches are laborious and can present a critical bottleneck for CNN applications. An alternative source of training data is given by using knowledge on the appearance of plants in the form of plant photographs from citizen science projects such as the iNaturalist database. Such crowd-sourced plant photographs typically exhibit very different perspectives and great heterogeneity in various aspects, yet the sheer volume of data could reveal great potential for application to bird’s eye views. Here, we explore the potential of transfer learning from such a crowd-sourced data treasure to the remote sensing context. Therefore, we investigate firstly, if we can use crowd-sourced plant photographs for CNN training and subsequent mapping of plant species in high-resolution remote sensing imagery. Secondly, we test if the predictive performance can be increased by a priori selecting photographs that share a more similar perspective to the remote sensing data. We used two case studies to test our proposed approach with multiple RGB orthoimages acquired from UAV with the target plant species Fallopia japonica and Portulacaria afra respectively. Our results demonstrate that CNN models trained with heterogeneous, crowd-sourced plant photographs can indeed predict the target species in UAV orthoimages with surprising accuracy. Filtering the crowd-sourced photographs used for training by acquisition properties increased the predictive performance. This study demonstrates that citizen science data can effectively anticipate a common bottleneck for vegetation assessments and provides an example on how we can effectively harness the ever-increasing availability of crowd-sourced and big data for remote sensing applications.
Soomro, Pirah Noor ; Abduljabbar, Mustafa ; Castrillon, Jeronimo ; Pericàs, Miquel: Shisha: Online scheduling of CNN pipelines on heterogeneous architectures, arXiv (2022)

Chiplets have become a common methodology in modern chip design. Chiplets improve yield and enable heterogeneity at the level of cores, memory subsystem and the interconnect. Convolutional Neural Networks (CNNs) have high computational, bandwidth and memory capacity requirements owing to the increasingly large amount of weights. Thus to exploit chiplet-based architectures, CNNs must be optimized in terms of scheduling and workload distribution among computing resources. We propose Shisha, an online approach to generate and schedule parallel CNN pipelines on chiplet architectures. Shisha targets heterogeneity in compute performance and memory bandwidth and tunes the pipeline schedule through a fast online exploration technique. We compare Shisha with Simulated Annealing, Hill Climbing and Pipe-Search. On average, the convergence time is improved by ~35x in Shisha compared to other exploration algorithms. Despite the quick exploration, Shisha's solution is often better than that of other heuristic exploration algorithms.
Sperling, Leo ; Lämmer, Simon ; Scheuermann, Gerik ; Gillmann, Christina: Uncertainty-aware Evaluation of Machine Learning Performance in binary Classification Tasks.. In: , 2022
Srivastava, Aarohi ; Rastogi, Abhinav ; Rao, Abhishek ; Shoeb, Abu Awal ; Abid, Abubakar ; Fisch, Adam ; Brown, Adam R ; Santoro, Adam ; Gupta, Aditya ; et al.: Beyond the Imitation Game: Quantifying and extrapolating the capabilities of language models, arXiv (2022)

Language models demonstrate both quantitative improvement and new qualitative capabilities with increasing scale. Despite their potentially transformative impact, these new capabilities are as yet poorly characterized. In order to inform future research, prepare for disruptive new model capabilities, and ameliorate socially harmful effects, it is vital that we understand the present and near-future capabilities and limitations of language models. To address this challenge, we introduce the Beyond the Imitation Game benchmark (BIG-bench). BIG-bench currently consists of 204 tasks, contributed by 442 authors across 132 institutions. Task topics are diverse, drawing problems from linguistics, childhood development, math, common-sense reasoning, biology, physics, social bias, software development, and beyond. BIG-bench focuses on tasks that are believed to be beyond the capabilities of current language models. We evaluate the behavior of OpenAI's GPT models, Google-internal dense transformer architectures, and Switch-style sparse transformers on BIG-bench, across model sizes spanning millions to hundreds of billions of parameters. In addition, a team of human expert raters performed all tasks in order to provide a strong baseline. Findings include: model performance and calibration both improve with scale, but are poor in absolute terms (and when compared with rater performance); performance is remarkably similar across model classes, though with benefits from sparsity; tasks that improve gradually and predictably commonly involve a large knowledge or memorization component, whereas tasks that exhibit ``breakthrough'' behavior at a critical scale often involve multiple steps or components, or brittle metrics; social bias typically increases with scale in settings with ambiguous context, but this can be improved with prompting.
Stadler, Peter F ; Fallmann, Jörg: Deutsches Netzwerk für Bioinformatik Infrastruktur, de. NBI, RNA Bioinformatics Center-Leipzig : Professur für Bioinformatik, Institut für Informatik, Universität Leipzig, 2022
Stadler, Peter F. ; Will, Sebastian: Bi-alignments with affine gaps costs. In: Algorithms for Molecular Biology vol. 17, Springer Science and Business Media LLC (2022), Nr. 1
Stamatatos, Efstathios ; Kestemont, Mike ; Kredens, Krzysztof ; Pezik, Piotr ; Heini, Annina ; Bevendorff, Janek ; Stein, Benno ; Potthast, Martin: Overview of the Authorship Verification Task at PAN 2022 (2022)
Strönisch, Sebastian ; Meyer, Marcus ; Lehmann, Christoph: Flow field prediction on large variable sized 2D point clouds with graph convolution.. In: , 2022, pp. 1–10
Subic, Tina ; Sbalzarini, Ivo F.: A Gaussian jump process formulation of the reaction�diffusion master equation enables faster exact stochastic simulations. In: The Journal of Chemical Physics vol. 157, AIP Publishing (2022), Nr. 19
Subramanian, Pallavi ; Gargani, Sofia ; Palladini, Alessandra ; Chatzimike, Margarita ; Grzybek, Michal ; Peitzsch, Mirko ; Papanastasiou, Anastasios D ; Pyrina, Iryna ; Ntafis, Vasileios ; et al.: The RNA binding protein human antigen R is a gatekeeper of liver homeostasis. In: Hepatology vol. 75 (2022), Nr. 4, pp. 881–897
Subramoney, Anand ; Nazeer, Khaleelulla Khan ; Schöne, Mark ; Mayr, Christian ; Kappel, David: Efficient recurrent architectures through activity sparsity and sparse back-propagation through time, arXiv (2022)

Recurrent neural networks (RNNs) are well suited for solving sequence tasks in resource-constrained systems due to their expressivity and low computational requirements. However, there is still a need to bridge the gap between what RNNs are capable of in terms of efficiency and performance and real-world application requirements. The memory and computational requirements arising from propagating the activations of all the neurons at every time step to every connected neuron, together with the sequential dependence of activations, contribute to the inefficiency of training and using RNNs. We propose a solution inspired by biological neuron dynamics that makes the communication between RNN units sparse and discrete. This makes the backward pass with backpropagation through time (BPTT) computationally sparse and efficient as well. We base our model on the gated recurrent unit (GRU), extending it with units that emit discrete events for communication triggered by a threshold so that no information is communicated to other units in the absence of events. We show theoretically that the communication between units, and hence the computation required for both the forward and backward passes, scales with the number of events in the network. Our model achieves efficiency without compromising task performance, demonstrating competitive performance compared to state-of-the-art recurrent network models in real-world tasks, including language modeling. The dynamic activity sparsity mechanism also makes our model well suited for novel energy-efficient neuromorphic hardware. Code is available at https://github.com/KhaleelKhan/EvNN/.
Susik, Mateusz ; Schönborn, Holger ; Sbalzarini, Ivo F.: Hamiltonian Monte Carlo with strict convergence criteria reduces run-to-run variability in forensic DNA mixture deconvolution. In: Forensic Science International: Genetics vol. 60, Elsevier BV (2022), p. 102744
Syed, Shahbaz ; Schwabe, Dominik ; Potthast, Martin: Summary Workbench: Unifying Application and Evaluation of Text Summarization Models.. In: Goldberg, Y. ; Kozareva, Z. ; Zhang, Y. (eds.): The 2022 Conference on Empirical Methods in Natural Language Processing (EMNLP 2022) : Association for Computational Linguistics, 2022
Tang, Wai Shing ; da Silva, Gabriel Monteiro ; Kirveslahti, Henry ; Skeens, Erin ; Feng, Bibo ; Sudijono, Timothy ; Yang, Kevin K ; Mukherjee, Sayan ; Rubenstein, Brenda ; et al.: A topological data analytic approach for discovering biophysical signatures in protein dynamics. In: PLoS Comput. Biol. vol. 18, Public Library of Science (PLoS) (2022), Nr. 5, p. e1010045

Identifying structural differences among proteins can be a non-trivial task. When contrasting ensembles of protein structures obtained from molecular dynamics simulations, biologically-relevant features can be easily overshadowed by spurious fluctuations. Here, we present SINATRA Pro, a computational pipeline designed to robustly identify topological differences between two sets of protein structures. Algorithmically, SINATRA Pro works by first taking in the 3D atomic coordinates for each protein snapshot and summarizing them according to their underlying topology. Statistically significant topological features are then projected back onto a user-selected representative protein structure, thus facilitating the visual identification of biophysical signatures of different protein ensembles. We assess the ability of SINATRA Pro to detect minute conformational changes in five independent protein systems of varying complexities. In all test cases, SINATRA Pro identifies known structural features that have been validated by previous experimental and computational studies, as well as novel features that are also likely to be biologically-relevant according to the literature. These results highlight SINATRA Pro as a promising method for facilitating the non-trivial task of pattern recognition in trajectories resulting from molecular dynamics simulations, with substantially increased resolution.
Thellmann, Klaudia-Doris ; Stadler, Bernhard ; Usbeck, Ricardo ; Lehmann, Jens: Transformer with tree-order encoding for neural program generation, arXiv (2022)

While a considerable amount of semantic parsing approaches have employed RNN architectures for code generation tasks, there have been only few attempts to investigate the applicability of Transformers for this task. Including hierarchical information of the underlying programming language syntax has proven to be effective for code generation. Since the positional encoding of the Transformer can only represent positions in a flat sequence, we have extended the encoding scheme to allow the attention mechanism to also attend over hierarchical positions in the input. Furthermore, we have realized a decoder based on a restrictive grammar graph model to improve the generation accuracy and ensure the well-formedness of the generated code. While we did not surpass the state of the art, our findings suggest that employing a tree-based positional encoding in combination with a shared natural-language subword vocabulary improves generation performance over sequential positional encodings.
Thomas, Brian St. ; You, Kisung ; Lin, Lizhen ; Lim, Lek-Heng ; Mukherjee, Sayan: Learning Subspaces of Different Dimensions. In: Journal of Computational and Graphical Statistics vol. 31, ASA Website (2022), Nr. 2, pp. 337–350

We introduce a Bayesian model for inferring mixtures of subspaces of different dimensions. The model allows flexible and efficient learning of a density supported in an ambient space which in fact can concentrate around some lower-dimensional space. The key challenge in such a mixture model is specification of prior distributions over subspaces of different dimensions. We address this challenge by embedding subspaces or Grassmann manifolds into a sphere of relatively low dimension and specifying priors on the sphere. We provide an efficient sampling algorithm for the posterior distribution of the model parameters. We illustrate that a simple extension of our mixture of subspaces model can be applied to topic modeling. The utility of our approach is demonstrated with applications to real and simulated data.
Tirtarasa, Satyadharma ; Turhan, Anni-Yasmin: A New Dimension to Generalization: Computing Temporal EL Concepts from Positive Examples (Extended Abstract).. In: Description Logics, 2022
Tran, Minh H ; Schoeder, Clara T ; Schey, Kevin L ; Meiler, Jens: Computational structure prediction for antibody-antigen complexes from hydrogen-deuterium exchange mass spectrometry: Challenges and outlook. In: Front. Immunol. vol. 13, Frontiers Media SA (2022), p. 859964

Although computational structure prediction has had great successes in recent years, it regularly fails to predict the interactions of large protein complexes with residue-level accuracy, or even the correct orientation of the protein partners. The performance of computational docking can be notably enhanced by incorporating experimental data from structural biology techniques. A rapid method to probe protein-protein interactions is hydrogen-deuterium exchange mass spectrometry (HDX-MS). HDX-MS has been increasingly used for epitope-mapping of antibodies (Abs) to their respective antigens (Ags) in the past few years. In this paper, we review the current state of HDX-MS in studying protein interactions, specifically Ab-Ag interactions, and how it has been used to inform computational structure prediction calculations. Particularly, we address the limitations of HDX-MS in epitope mapping and techniques and protocols applied to overcome these barriers. Furthermore, we explore computational methods that leverage HDX-MS to aid structure prediction, including the computational simulation of HDX-MS data and the combination of HDX-MS and protein docking. We point out challenges in interpreting and incorporating HDX-MS data into Ab-Ag complex docking and highlight the opportunities they provide to build towards a more optimized hybrid method, allowing for more reliable, high throughput epitope identification.
Troya, Joel ; Fitting, Daniel ; Brand, Markus ; Sudarevic, Boban ; Kather, Jakob Nikolas ; Meining, Alexander ; Hann, Alexander: The influence of computer-aided polyp detection systems on reaction time for polyp detection and eye gaze. In: Endoscopy vol. 54, Georg Thieme Verlag KG (2022), Nr. 10, pp. 1009–1014

BACKGROUND: Multiple computer-aided systems for polyp detection (CADe) have been introduced into clinical practice, with an unclear effect on examiner behavior. This study aimed to measure the influence of a CADe system on reaction time, mucosa misinterpretation, and changes in visual gaze pattern. METHODS: Participants with variable levels of colonoscopy experience viewed video sequences (n = 29) while eye movement was tracked. Using a crossover design, videos were presented in two assessments, with and without CADe support. Reaction time for polyp detection and eye-tracking metrics were evaluated. RESULTS: 21 participants performed 1218 experiments. CADe was significantly faster in detecting polyps compared with participants (median 1.16 seconds [99 %CI 0.40-3.43] vs. 2.97 seconds [99 %CI 2.53-3.77], respectively). However, the reaction time of participants when using CADe (median 2.90 seconds [99 %CI 2.55-3.38]) was similar to that without CADe. CADe increased misinterpretation of normal mucosa and reduced the eye travel distance. CONCLUSIONS: Results confirm that CADe systems detect polyps faster than humans. However, use of CADe did not improve human reaction times. It increased misinterpretation of normal mucosa and decreased the eye travel distance. Possible consequences of these findings might be prolonged examination time and deskilling.
Uhrich, Benjamin ; Schäfer, Martin ; Theile, Oliver ; Rahm, Erhard: Using Physics-Informed Machine Learning to Optimize 3D Printing Processes.. In: Progress in Digital and Physical Manufacturing, 2022
Ulbricht, Markus ; Wallner, Johannes P: Strongly accepting subframeworks: Connecting abstract and structured Argumentation.. In: Computational Models of Argument, Frontiers in artificial intelligence and applications : IOS Press, 2022

Computational argumentation is primed to strengthen the current hot research field of Explainable Artificial Intelligence (XAI), e.g., by dialectical approaches. In this paper, we extend and discuss a recently proposed approach of so-called strong acceptance on abstract argumentation that aims to support explaining argumentative acceptance. Our goal is to push these results into the realm of structured argumentation. In this setting, a knowledge base induces an abstract argumentation framework (AF) via instantiation. We investigate how and under which conditions it is possible to transfer results regarding strong acceptance between the given knowledge base and the induced AF. To this end we consider generic functions formalizing the interaction of the AF and the knowledge base. This approach helps us to infer rather general results making basic assumptions rather than dealing with the technical details of several structured argumentation formalisms. Along the way, we apply our techniques to the concrete approach of assumption-based argumentation (ABA) which constitutes one of the primal structured argumentation formalisms.
Umlauft, Josefine ; Roux, Philippe ; Lecointre, Albanne ; Gimbert, Florent ; Nanni, Ugo ; Walpersdorf, Andrea ; Rouet-LeDuc, Bertrand ; Hulbert, Claudia ; Trugman, Daniel ; et al.: Mapping Glacier Basal Sliding with Beamforming and Artificial Intelligence.. In: EGU General Assembly Conference Abstracts, 2022, pp. EGU22–6948
Urbani, Jacopo ; Krötzsch, Markus ; Eiter, Thomas: Chasing Streams with Existential Rules.. In: Proceedings of the 19th International Conference on Principles of Knowledge Representation and Reasoning, 2022, pp. 415–419
Vargis, Tom Richard ; Ghiasvand, Siavash: A Light-weight and Unsupervised Method for Near Real-time Behavioral Analysis using Operational Data Measurement.. In: The International Conference for High Performance Computing, Networking, Storage, and Analysis. Dallas, Texas, USA, 2022. — arXiv:2402.05114 [cs]

Monitoring the status of large computing systems is essential to identify unexpected behavior and improve their performance and uptime. However, due to the large-scale and distributed design of such computing systems as well as a large number of monitoring parameters, automated monitoring methods should be applied. Such automatic monitoring methods should also have the ability to adapt themselves to the continuous changes in the computing system. In addition, they should be able to identify behavioral anomalies in useful time, to perform appropriate reactions. This work proposes a general lightweight and unsupervised method for near real-time anomaly detection using operational data measurement on large computing systems. The proposed model requires as little as 4 hours of data and 50 epochs for each training process to accurately resemble the behavioral pattern of computing systems.
Vargis, Tom Richard ; Ghiasvand, Siavash: Assessing Anonymized System Logs Usefulness for Behavioral Analysis in RNN Models.. In: Proceedings of the International Workshop on Data-driven Resilience Research. vol. 3376. Leipzig, Germany : arXiv, 2022. — arXiv:2212.01101 [cs] — ISBN urn:nbn:de:0074-3376-1

System logs are a common source of monitoring data for analyzing computing systems' behavior. Due to the complexity of modern computing systems and the large size of collected monitoring data, automated analysis mechanisms are required. Numerous machine learning and deep learning methods are proposed to address this challenge. However, due to the existence of sensitive data in system logs their analysis and storage raise serious privacy concerns. Anonymization methods could be used to clean the monitoring data before analysis. However, anonymized system logs, in general, do not provide adequate usefulness for the majority of behavioral analysis. Content-aware anonymization mechanisms such as PaRS preserve the correlation of system logs even after anonymization. This work evaluates the usefulness of anonymized system logs taken from the Taurus HPC cluster anonymized using PaRS, for behavioral analysis via recurrent neural network models.
Vejdemo-Johansson, Mikael ; CUNY College of Staten Island, ; 2800 Victory Boulevard, 1S-215 ; Mukherjee, Sayan ; CUNY Graduate Center, 365 5th Avenue ; New York NY 10016, USA ; Analytics, Center for Scalable Data ; and Artificial Intelligence, Universit¨at Leipzig ; Humboldtstraße 25, Leipzig ; et al.: Multiple hypothesis testing with persistent homology. In: Found. Data Sci. vol. 4, American Institute of Mathematical Sciences (AIMS) (2022), Nr. 4, pp. 667–705
Vejdemo-Johansson, Mikael ; Mukherjee, Sayan: Multiple hypothesis testing with persistent homology. In: Foundations of Data Science vol. 4 (2022), Nr. 4, pp. 667–705

In this paper we propose a computationally efficient multiple hypothesis testing procedure for persistent homology. The computational efficiency of our procedure is based on the observation that one can empirically simulate a null distribution that is universal across many hypothesis testing applications involving persistence homology. Our observation suggests that one can simulate the null distribution efficiently based on a small number of summaries of the collected data and use this null in the same way that p-value tables were used in classical statistics. To illustrate the efficiency and utility of the null distribution we provide procedures for rejecting acyclicity with both control of the Family-Wise Error Rate (FWER) and the False Discovery Rate (FDR). We will argue that the empirical null we propose is very general conditional on a few summaries of the data based on simulations and limit theorems for persistent homology for point processes.
Velez, Miguel ; Jamshidi, Pooyan ; Siegmund, Norbert ; Apel, Sven ; Kästner, Christian: On debugging the performance of configurable software systems.. In: Proceedings of the 44th International Conference on Software Engineering. Pittsburgh Pennsylvania : ACM, 2022
Vorkel, Daniela ; Haase, Robert: GPU-accelerating ImageJ Macro image processing workflows using CLIJ.. In: Bioimage Data Analysis Workflows--Advanced Components and Methods : Springer International Publishing Cham, 2022, pp. 89–114
Vrandev ci’c, Denny ; Pintscher, Lydia ; Krötzsch, Markus: Wikidata: The Making Of.. In: Ding, Y. ; Tang, J. ; Sequeda, J. F. ; Aroyo, L. ; Castillo, C. ; Houben, G.-J. (eds.): Companion Proceedings of the ACM Web Conference 2023 (WWW’23). United States of America : Association for Computing Machinery (ACM), New York, 2023. — Publisher Copyright: textcopyright 2023 Owner/Author., pp. 615–624

Wikidata, now a decade old, is the largest public knowledge graph, with data on more than 100 million concepts contributed by over 560,000 editors. It is widely used in applications and research. At its launch in late 2012, however, it was little more than a hopeful new Wikimedia project, with no content, almost no community, and a severely restricted platform. Seven years earlier still, in 2005, it was merely a rough idea of a few PhD students, a conceptual nucleus that had yet to pick up many important influences from others to turn into what is now called Wikidata. In this paper, we try to recount this remarkable journey, and we review what has been accomplished, what has been given up on, and what is yet left to do for the future.
Walther, Georg ; Martin, Christian ; Haase, Amelie ; Nestler, Ulf ; Schob, Stefan: Machine learning for rupture risk prediction of intracranial aneurysms: Challenging the PHASES score in geographically constrained areas. In: Symmetry, Special Issue: Neuroscience and Molecular Sciences vol. 14, MDPI AG (2022), Nr. 5, p. 943

Intracranial aneurysms represent a potentially life-threatening condition and occur in 3--5% of the population. They are increasingly diagnosed due to the broad application of cranial magnetic resonance imaging and computed tomography in the context of headaches, vertigo, and other unspecific symptoms. For each affected individual, it is utterly important to estimate the rupture risk of the respective aneurysm. However, clinically applied decision tools, such as the PHASES score, remain insufficient. Therefore, a machine learning approach assessing the rupture risk of intracranial aneurysms is proposed in our study. For training and evaluation of the algorithm, data from a single neurovascular center was used, comprising 446 aneurysms (221 ruptured, 225 unruptured). The machine learning model was then compared with the PHASES score and proved superior in accuracy (0.7825), F1-score (0.7975), sensitivity (0.8643), specificity (0.7022), positive predictive value (0.7403), negative predictive value (0.8404), and area under the curve (0.8639). The frequency distributions of the predicted rupture probabilities and the PHASES score were analyzed. A symmetry can be observed between the rupture probabilities, with a symmetry axis at 0.5. A feature importance analysis reveals that the body mass index, consumption of anticoagulants, and harboring vessel are regarded as the most important features when assessing the rupture risk. On the other hand, the size of the aneurysm, which is weighted most in the PHASES score, is regarded as less important. Based on our findings we discuss the potential role of the model for clinical practice in geographically confined aneurysm patients.
Waltz, Martin ; Kumar Singh, Abhay ; Okhrin, Ostap: Vulnerability-CoVaR: investigating the crypto-market. In: Quant. Finance vol. 22, Informa UK Limited (2022), Nr. 9, pp. 1731–1745
Waltz, Martin ; Okhrin, Ostap: Two-sample testing in reinforcement learning, arXiv (2022)

Value-based reinforcement-learning algorithms have shown strong performances in games, robotics, and other real-world applications. The most popular sample-based method is $Q$-Learning. It subsequently performs updates by adjusting the current $Q$-estimate towards the observed reward and the maximum of the $Q$-estimates of the next state. The procedure introduces maximization bias with approaches like Double $Q$-Learning. We frame the bias problem statistically and consider it an instance of estimating the maximum expected value (MEV) of a set of random variables. We propose the $T$-Estimator (TE) based on two-sample testing for the mean, that flexibly interpolates between over- and underestimation by adjusting the significance level of the underlying hypothesis tests. A generalization, termed $K$-Estimator (KE), obeys the same bias and variance bounds as the TE while relying on a nearly arbitrary kernel function. We introduce modifications of $Q$-Learning and the Bootstrapped Deep $Q$-Network (BDQN) using the TE and the KE. Furthermore, we propose an adaptive variant of the TE-based BDQN that dynamically adjusts the significance level to minimize the absolute estimation bias. All proposed estimators and algorithms are thoroughly tested and validated on diverse tasks and environments, illustrating the bias control and performance potential of the TE and KE.
Wessels, Frederik ; Schmitt, Max ; Krieghoff-Henning, Eva ; Kather, Jakob N ; Nientiedt, Malin ; Kriegmair, Maximilian C ; Worst, Thomas S ; Neuberger, Manuel ; Steeg, Matthias ; et al.: Deep learning can predict survival directly from histology in clear cell renal cell carcinoma. In: PLoS One vol. 17 (2022), Nr. 8, p. e0272656

For clear cell renal cell carcinoma (ccRCC) risk-dependent diagnostic and therapeutic algorithms are routinely implemented in clinical practice. Artificial intelligence-based image analysis has the potential to improve outcome prediction and thereby risk stratification. Thus, we investigated whether a convolutional neural network (CNN) can extract relevant image features from a representative hematoxylin and eosin-stained slide to predict 5-year overall survival (5y-OS) in ccRCC. The CNN was trained to predict 5y-OS in a binary manner using slides from TCGA and validated using an independent in-house cohort. Multivariable logistic regression was used to combine of the CNNs prediction and clinicopathological parameters. A mean balanced accuracy of 72.0% (standard deviation [SD] = 7.9%), sensitivity of 72.4% (SD = 10.6%), specificity of 71.7% (SD = 11.9%) and area under receiver operating characteristics curve (AUROC) of 0.75 (SD = 0.07) was achieved on the TCGA training set (n = 254 patients / WSIs) using 10-fold cross-validation. On the external validation cohort (n = 99 patients / WSIs), mean accuracy, sensitivity, specificity and AUROC were 65.5% (95%-confidence interval [CI]: 62.9-68.1%), 86.2% (95%-CI: 81.8-90.5%), 44.9% (95%-CI: 40.2-49.6%), and 0.70 (95%-CI: 0.69-0.71). A multivariable model including age, tumor stage and metastasis yielded an AUROC of 0.75 on the TCGA cohort. The inclusion of the CNN-based classification (Odds ratio = 4.86, 95%-CI: 2.70-8.75, p < 0.01) raised the AUROC to 0.81. On the validation cohort, both models showed an AUROC of 0.88. In univariable Cox regression, the CNN showed a hazard ratio of 3.69 (95%-CI: 2.60-5.23, p < 0.01) on TCGA and 2.13 (95%-CI: 0.92-4.94, p = 0.08) on external validation. The results demonstrate that the CNN's image-based prediction of survival is promising and thus this widely applicable technique should be further investigated with the aim of improving existing risk stratification in ccRCC.
Wiegmann, Matti ; Völske, Michael ; Stein, Benno ; Potthast, Martin: Language Models as Context-sensitive Word Search Engines.. In: Proceedings of the First Workshop on Intelligent and Interactive Writing Assistants (In2Writing 2022). Dublin, Ireland : Association for Computational Linguistics, 2022, pp. 39–45

Context-sensitive word search engines are writing assistants that support word choice, phrasing, and idiomatic language use by indexing large-scale n-gram collections and implementing a wildcard search. However, search results become unreliable with increasing context size (e.g., ntextgreater=5), when observations become sparse. This paper proposes two strategies for word search with larger n, based on masked and conditional language modeling. We build such search engines using BERT and BART and compare their capabilities in answering English context queries with those of the n-gram-based word search engine Netspeak. Our proposed strategies score within 5 percentage points MRR of n-gram collections while answering up to 5 times as many queries.
Wiese, Lisa ; Weil, Johannes: Endangering Democratic Debate? A Fundamental Rights Analysis of Automated Content Moderation in Social Media. (2022)
Williams, Elena ; Kienast, Manuel ; Medawar, Evelyn ; Reinelt, Janis ; Merola, Alberto ; Ines Klopfenstein, Sophie Anne ; Flint, Anne Rike ; Heeren, Patrick ; Poncette, Akira-Sebastian ; et al.: FHIR-DHP: A Standardized Clinical Data Harmonisation Pipeline for scalable AI application deployment. In: medRxiv, Cold Spring Harbor Laboratory Press (2022), pp. 2022–11
Williams, Richard ; Bornmann, Lutz ; Thor, Andreas: Panel Data and Multilevel Analyses of Academic Publishing Success Paper. In: SSRN Electronic Journal (2022)
Wörtz, Julia ; Smith, Victoria ; Fallmann, Jörg ; König, Sabine ; Thuraisingam, Tharani ; Walther, Paul ; Urlaub, Henning ; Stadler, Peter F. ; Allers, Thorsten ; et al.: Cas1 and Fen1 Display Equivalent Functions During Archaeal DNA Repair. In: Frontiers in Microbiology vol. 13, Frontiers Media SA (2022)
Wolf, Sophie ; Mahecha, Miguel D. ; Sabatini, Francesco Maria ; Wirth, Christian ; Bruelheide, Helge ; Kattge, Jens ; Moreno Martínez, Álvaro ; Mora, Karin ; Kattenborn, Teja: Citizen science plant observations encode global trait patterns. In: Nature Ecology & Evolution vol. 6, Springer Science and Business Media LLC (2022), Nr. 12, pp. 1850–1859
Wolska, Magdalena ; Schröder, Christopher ; Borchardt, Ole ; Stein, Benno ; Potthast, Martin: Trigger Warnings: Bootstrapping a Violence Detector for FanFiction.
Xavier, Louise Caroline Peixoto ; da Silva, Samiria Maria Oliveira ; Carvalho, Taís Maria Nunes ; Filho, João Dehon Pontes ; de Assis de Souza Filho, Francisco: Use of Machine Learning in Evaluation of Drought Perception in Irrigated Agriculture: The Case of an Irrigated Perimeter in Brazil. In: Water vol. 12, Multidisciplinary Digital Publishing Institute (2020), Nr. 6, p. 1546

This study aimed to understand the perception of drought among farmers, in order to support decision-making in the water allocation process. This study was carried out in the Tabuleiro de Russas irrigated perimeter, in northeast Brazil, over the drought period of 2012–2018. Two analyses were conducted: (i) drought characterization, using the Standardized Precipitation Index (SPI) based on drought duration and frequency criteria; and (ii) analysis of farmers’ perceptions of drought via selection of explanatory variables using the Random Forest (RF) and the Decision Tree (DT) methods. The 2012–2018 drought period was defined as a meteorological phenomenon by local farmers; however, an SPI evaluation indicated that the drought was of a hydrological nature. According to the RF analysis, four of the nine study variables were more statistically important than the others in influencing farmers’ perception of drought: number of cultivated land plots, farmer’s age, years of experience in the agriculture sector, and education level. These results were confirmed using DT analysis. Understanding the relationship between these variables and farmers’ perception of drought could aid in the development of an adaptation strategy to water deficit scenarios. Farmers’ perception can be beneficial in reducing conflicts, adopting proactive management practices, and developing a holistic and efficient early warning drought system.
Zangerle, Eva ; Mayerl, Maximilian ; Potthast, Martin ; Stein, Benno: Overview of the Style Change Detection Task at PAN 2022 (2022)
Zeng, Qinghe ; Klein, Christophe ; Caruso, Stefano ; Maille, Pascale ; Laleh, Narmin Ghaffari ; Sommacale, Daniele ; Laurent, Alexis ; Amaddeo, Giuliana ; Gentien, David ; et al.: Artificial intelligence predicts immune and inflammatory gene signatures directly from hepatocellular carcinoma histology. In: J. Hepatol. vol. 77, Elsevier BV (2022), Nr. 1, pp. 116–127

BACKGROUND & AIMS: Patients with hepatocellular carcinoma (HCC) displaying overexpression of immune gene signatures are likely to be more sensitive to immunotherapy, however, the use of such signatures in clinical settings remains challenging. We thus aimed, using artificial intelligence (AI) on whole-slide digital histological images, to develop models able to predict the activation of 6 immune gene signatures. METHODS: AI models were trained and validated in 2 different series of patients with HCC treated by surgical resection. Gene expression was investigated using RNA sequencing or NanoString technology. Three deep learning approaches were investigated: patch-based, classic MIL and CLAM. Pathological reviewing of the most predictive tissue areas was performed for all gene signatures. RESULTS: The CLAM model showed the best overall performance in the discovery series. Its best-fold areas under the receiver operating characteristic curves (AUCs) for the prediction of tumors with upregulation of the immune gene signatures ranged from 0.78 to 0.91. The different models generalized well in the validation dataset with AUCs ranging from 0.81 to 0.92. Pathological analysis of highly predictive tissue areas showed enrichment in lymphocytes, plasma cells, and neutrophils. CONCLUSION: We have developed and validated AI-based pathology models able to predict the activation of several immune and inflammatory gene signatures. Our approach also provides insights into the morphological features that impact the model predictions. This proof-of-concept study shows that AI-based pathology could represent a novel type of biomarker that will ease the translation of our biological knowledge of HCC into clinical practice. LAY SUMMARY: Immune and inflammatory gene signatures may be associated with increased sensitivity to immunotherapy in patients with advanced hepatocellular carcinoma. In the present study, the use of artificial intelligence-based pathology enabled us to predict the activation of these signatures directly from histology.
Zhao, Qi ; Yan, Bai ; Shi, Yuhui ; Middendorf, Martin: Evolutionary Dynamic Multiobjective Optimization via Learning From Historical Search Process. In: IEEE Transactions on Cybernetics vol. 52 (2022), Nr. 7, pp. 6119–6130
Zoraghi, Mahsa ; Scherf, Nico ; Jaeger, Carsten ; Sack, Ingolf ; Hirsch, Sebastian ; Hetzer, Stefan ; Weiskopf, Nikolaus: Effect of brain tissue deformation on functional MRI signal variations assessed using biomechanical simulations.. In: Joint Annual Meeting ISMRM-ESMRMB & ISMRT 31st Annual Meeting, 2022

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