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1. Major impacts of widespread structural variation on sorghum.

Author

Zhang, Zhihai, Gomes Viana, Joao, Zhang, Bosen, Walden, Kimberly, Müller Paul, Hans, Moose, Stephen, Morris, Geoffrey, Daum, Chris, Barry, Kerrie, Shakoor, Nadia, and Hudson, Matthew

Subjects
Genetic Variation, Sorghum, Genome-Wide Association Study, Plant Breeding, Phenotype, Edible Grain, Polymorphism, Single Nucleotide
Abstract

Genetic diversity is critical to crop breeding and improvement, and dissection of the genomic variation underlying agronomic traits can both assist breeding and give insight into basic biological mechanisms. Although recent genome analyses in plants reveal many structural variants (SVs), most current studies of crop genetic variation are dominated by single-nucleotide polymorphisms (SNPs). The extent of the impact of SVs on global trait variation, as well as their utility in genome-wide selection, is not yet understood. In this study, we built an SV data set based on whole-genome resequencing of diverse sorghum lines (n = 363), validated the correlation of photoperiod sensitivity and variety type, and identified SV hotspots underlying the divergent evolution of cellulosic and sweet sorghum. In addition, we showed the complementary contribution of SVs for heritability of traits related to sorghum adaptation. Importantly, inclusion of SV polymorphisms in association studies revealed genotype-phenotype associations not observed with SNPs alone. Three-way genome-wide association studies (GWAS) based on whole-genome SNP, SV, and integrated SNP + SV data sets showed substantial associations between SVs and sorghum traits. The addition of SVs to GWAS substantially increased heritability estimates for some traits, indicating their important contribution to functional allelic variation at the genome level. Our discovery of the widespread impacts of SVs on heritable gene expression variation could render a plausible mechanism for their disproportionate impact on phenotypic variation. This study expands our knowledge of SVs and emphasizes the extensive impacts of SVs on sorghum.

Published
2024

4. Combining Tree-Search, Generative Models, and Nash Bargaining Concepts in Game-Theoretic Reinforcement Learning

Author

Li, Zun, Lanctot, Marc, McKee, Kevin R., Marris, Luke, Gemp, Ian, Hennes, Daniel, Muller, Paul, Larson, Kate, Bachrach, Yoram, and Wellman, Michael P.

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computer Science and Game Theory, Computer Science - Machine Learning, Computer Science - Multiagent Systems
Abstract

Multiagent reinforcement learning (MARL) has benefited significantly from population-based and game-theoretic training regimes. One approach, Policy-Space Response Oracles (PSRO), employs standard reinforcement learning to compute response policies via approximate best responses and combines them via meta-strategy selection. We augment PSRO by adding a novel search procedure with generative sampling of world states, and introduce two new meta-strategy solvers based on the Nash bargaining solution. We evaluate PSRO's ability to compute approximate Nash equilibrium, and its performance in two negotiation games: Colored Trails, and Deal or No Deal. We conduct behavioral studies where human participants negotiate with our agents ($N = 346$). We find that search with generative modeling finds stronger policies during both training time and test time, enables online Bayesian co-player prediction, and can produce agents that achieve comparable social welfare negotiating with humans as humans trading among themselves.

Published
2023

5. Developing, Evaluating and Scaling Learning Agents in Multi-Agent Environments

Author

Gemp, Ian, Anthony, Thomas, Bachrach, Yoram, Bhoopchand, Avishkar, Bullard, Kalesha, Connor, Jerome, Dasagi, Vibhavari, De Vylder, Bart, Duenez-Guzman, Edgar, Elie, Romuald, Everett, Richard, Hennes, Daniel, Hughes, Edward, Khan, Mina, Lanctot, Marc, Larson, Kate, Lever, Guy, Liu, Siqi, Marris, Luke, McKee, Kevin R., Muller, Paul, Perolat, Julien, Strub, Florian, Tacchetti, Andrea, Tarassov, Eugene, Wang, Zhe, and Tuyls, Karl

Subjects
Computer Science - Multiagent Systems, Computer Science - Artificial Intelligence
Abstract

The Game Theory & Multi-Agent team at DeepMind studies several aspects of multi-agent learning ranging from computing approximations to fundamental concepts in game theory to simulating social dilemmas in rich spatial environments and training 3-d humanoids in difficult team coordination tasks. A signature aim of our group is to use the resources and expertise made available to us at DeepMind in deep reinforcement learning to explore multi-agent systems in complex environments and use these benchmarks to advance our understanding. Here, we summarise the recent work of our team and present a taxonomy that we feel highlights many important open challenges in multi-agent research., Comment: Published in AI Communications 2022

Published
2022

6. Learning Correlated Equilibria in Mean-Field Games

Author

Muller, Paul, Elie, Romuald, Rowland, Mark, Lauriere, Mathieu, Perolat, Julien, Perrin, Sarah, Geist, Matthieu, Piliouras, Georgios, Pietquin, Olivier, and Tuyls, Karl

Subjects
Computer Science - Computer Science and Game Theory, Statistics - Machine Learning
Abstract

The designs of many large-scale systems today, from traffic routing environments to smart grids, rely on game-theoretic equilibrium concepts. However, as the size of an $N$-player game typically grows exponentially with $N$, standard game theoretic analysis becomes effectively infeasible beyond a low number of players. Recent approaches have gone around this limitation by instead considering Mean-Field games, an approximation of anonymous $N$-player games, where the number of players is infinite and the population's state distribution, instead of every individual player's state, is the object of interest. The practical computability of Mean-Field Nash equilibria, the most studied Mean-Field equilibrium to date, however, typically depends on beneficial non-generic structural properties such as monotonicity or contraction properties, which are required for known algorithms to converge. In this work, we provide an alternative route for studying Mean-Field games, by developing the concepts of Mean-Field correlated and coarse-correlated equilibria. We show that they can be efficiently learnt in \emph{all games}, without requiring any additional assumption on the structure of the game, using three classical algorithms. Furthermore, we establish correspondences between our notions and those already present in the literature, derive optimality bounds for the Mean-Field - $N$-player transition, and empirically demonstrate the convergence of these algorithms on simple games.

Published
2022

7. Mastering the Game of Stratego with Model-Free Multiagent Reinforcement Learning

Author

Perolat, Julien, de Vylder, Bart, Hennes, Daniel, Tarassov, Eugene, Strub, Florian, de Boer, Vincent, Muller, Paul, Connor, Jerome T., Burch, Neil, Anthony, Thomas, McAleer, Stephen, Elie, Romuald, Cen, Sarah H., Wang, Zhe, Gruslys, Audrunas, Malysheva, Aleksandra, Khan, Mina, Ozair, Sherjil, Timbers, Finbarr, Pohlen, Toby, Eccles, Tom, Rowland, Mark, Lanctot, Marc, Lespiau, Jean-Baptiste, Piot, Bilal, Omidshafiei, Shayegan, Lockhart, Edward, Sifre, Laurent, Beauguerlange, Nathalie, Munos, Remi, Silver, David, Singh, Satinder, Hassabis, Demis, and Tuyls, Karl

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computer Science and Game Theory, Computer Science - Multiagent Systems
Abstract

We introduce DeepNash, an autonomous agent capable of learning to play the imperfect information game Stratego from scratch, up to a human expert level. Stratego is one of the few iconic board games that Artificial Intelligence (AI) has not yet mastered. This popular game has an enormous game tree on the order of $10^{535}$ nodes, i.e., $10^{175}$ times larger than that of Go. It has the additional complexity of requiring decision-making under imperfect information, similar to Texas hold'em poker, which has a significantly smaller game tree (on the order of $10^{164}$ nodes). Decisions in Stratego are made over a large number of discrete actions with no obvious link between action and outcome. Episodes are long, with often hundreds of moves before a player wins, and situations in Stratego can not easily be broken down into manageably-sized sub-problems as in poker. For these reasons, Stratego has been a grand challenge for the field of AI for decades, and existing AI methods barely reach an amateur level of play. DeepNash uses a game-theoretic, model-free deep reinforcement learning method, without search, that learns to master Stratego via self-play. The Regularised Nash Dynamics (R-NaD) algorithm, a key component of DeepNash, converges to an approximate Nash equilibrium, instead of 'cycling' around it, by directly modifying the underlying multi-agent learning dynamics. DeepNash beats existing state-of-the-art AI methods in Stratego and achieved a yearly (2022) and all-time top-3 rank on the Gravon games platform, competing with human expert players.

Published
2022
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8. Learning in Mean Field Games: A Survey

Author

Laurière, Mathieu, Perrin, Sarah, Pérolat, Julien, Girgin, Sertan, Muller, Paul, Élie, Romuald, Geist, Matthieu, and Pietquin, Olivier

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Science and Game Theory, Mathematics - Optimization and Control
Abstract

Non-cooperative and cooperative games with a very large number of players have many applications but remain generally intractable when the number of players increases. Introduced by Lasry and Lions, and Huang, Caines and Malham\'e, Mean Field Games (MFGs) rely on a mean-field approximation to allow the number of players to grow to infinity. Traditional methods for solving these games generally rely on solving partial or stochastic differential equations with a full knowledge of the model. Recently, Reinforcement Learning (RL) has appeared promising to solve complex problems at scale. The combination of RL and MFGs is promising to solve games at a very large scale both in terms of population size and environment complexity. In this survey, we review the quickly growing recent literature on RL methods to learn equilibria and social optima in MFGs. We first identify the most common settings (static, stationary, and evolutive) of MFGs. We then present a general framework for classical iterative methods (based on best-response computation or policy evaluation) to solve MFGs in an exact way. Building on these algorithms and the connection with Markov Decision Processes, we explain how RL can be used to learn MFG solutions in a model-free way. Last, we present numerical illustrations on a benchmark problem, and conclude with some perspectives.

Published
2022

9. Scalable Deep Reinforcement Learning Algorithms for Mean Field Games

Author

Laurière, Mathieu, Perrin, Sarah, Girgin, Sertan, Muller, Paul, Jain, Ayush, Cabannes, Theophile, Piliouras, Georgios, Pérolat, Julien, Élie, Romuald, Pietquin, Olivier, and Geist, Matthieu

Subjects
Computer Science - Machine Learning, Mathematics - Optimization and Control, Statistics - Machine Learning
Abstract

Mean Field Games (MFGs) have been introduced to efficiently approximate games with very large populations of strategic agents. Recently, the question of learning equilibria in MFGs has gained momentum, particularly using model-free reinforcement learning (RL) methods. One limiting factor to further scale up using RL is that existing algorithms to solve MFGs require the mixing of approximated quantities such as strategies or $q$-values. This is far from being trivial in the case of non-linear function approximation that enjoy good generalization properties, e.g. neural networks. We propose two methods to address this shortcoming. The first one learns a mixed strategy from distillation of historical data into a neural network and is applied to the Fictitious Play algorithm. The second one is an online mixing method based on regularization that does not require memorizing historical data or previous estimates. It is used to extend Online Mirror Descent. We demonstrate numerically that these methods efficiently enable the use of Deep RL algorithms to solve various MFGs. In addition, we show that these methods outperform SotA baselines from the literature.

Published
2022

11. Learning Equilibria in Mean-Field Games: Introducing Mean-Field PSRO

Author

Muller, Paul, Rowland, Mark, Elie, Romuald, Piliouras, Georgios, Perolat, Julien, Lauriere, Mathieu, Marinier, Raphael, Pietquin, Olivier, and Tuyls, Karl

Subjects
Computer Science - Computer Science and Game Theory, Computer Science - Multiagent Systems
Abstract

Recent advances in multiagent learning have seen the introduction ofa family of algorithms that revolve around the population-based trainingmethod PSRO, showing convergence to Nash, correlated and coarse corre-lated equilibria. Notably, when the number of agents increases, learningbest-responses becomes exponentially more difficult, and as such ham-pers PSRO training methods. The paradigm of mean-field games pro-vides an asymptotic solution to this problem when the considered gamesare anonymous-symmetric. Unfortunately, the mean-field approximationintroduces non-linearities which prevent a straightforward adaptation ofPSRO. Building upon optimization and adversarial regret minimization,this paper sidesteps this issue and introduces mean-field PSRO, an adap-tation of PSRO which learns Nash, coarse correlated and correlated equi-libria in mean-field games. The key is to replace the exact distributioncomputation step by newly-defined mean-field no-adversarial-regret learn-ers, or by black-box optimization. We compare the asymptotic complexityof the approach to standard PSRO, greatly improve empirical bandit con-vergence speed by compressing temporal mixture weights, and ensure itis theoretically robust to payoff noise. Finally, we illustrate the speed andaccuracy of mean-field PSRO on several mean-field games, demonstratingconvergence to strong and weak equilibria., Comment: AAMAS

Published
2021

12. Small leucine-rich proteoglycans inhibit CNS regeneration by modifying the structural and mechanical properties of the lesion environment

Author

Kolb, Julia, Tsata, Vasiliki, John, Nora, Kim, Kyoohyun, Möckel, Conrad, Rosso, Gonzalo, Kurbel, Veronika, Parmar, Asha, Sharma, Gargi, Karandasheva, Kristina, Abuhattum, Shada, Lyraki, Olga, Beck, Timon, Müller, Paul, Schlüßler, Raimund, Frischknecht, Renato, Wehner, Anja, Krombholz, Nicole, Steigenberger, Barbara, Beis, Dimitris, Takeoka, Aya, Blümcke, Ingmar, Möllmert, Stephanie, Singh, Kanwarpal, Guck, Jochen, Kobow, Katja, and Wehner, Daniel

Published
2023
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13. Multi-Agent Training beyond Zero-Sum with Correlated Equilibrium Meta-Solvers

Author

Marris, Luke, Muller, Paul, Lanctot, Marc, Tuyls, Karl, and Graepel, Thore

Subjects
Computer Science - Multiagent Systems, Computer Science - Artificial Intelligence, Computer Science - Computer Science and Game Theory, Computer Science - Machine Learning
Abstract

Two-player, constant-sum games are well studied in the literature, but there has been limited progress outside of this setting. We propose Joint Policy-Space Response Oracles (JPSRO), an algorithm for training agents in n-player, general-sum extensive form games, which provably converges to an equilibrium. We further suggest correlated equilibria (CE) as promising meta-solvers, and propose a novel solution concept Maximum Gini Correlated Equilibrium (MGCE), a principled and computationally efficient family of solutions for solving the correlated equilibrium selection problem. We conduct several experiments using CE meta-solvers for JPSRO and demonstrate convergence on n-player, general-sum games., Comment: ICML 2021, 9 pages, coded implementation available in https://github.com/deepmind/open_spiel/ (jpsro.py in examples)

Published
2021

14. Time-series Imputation of Temporally-occluded Multiagent Trajectories

Author

Omidshafiei, Shayegan, Hennes, Daniel, Garnelo, Marta, Tarassov, Eugene, Wang, Zhe, Elie, Romuald, Connor, Jerome T., Muller, Paul, Graham, Ian, Spearman, William, and Tuyls, Karl

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems
Abstract

In multiagent environments, several decision-making individuals interact while adhering to the dynamics constraints imposed by the environment. These interactions, combined with the potential stochasticity of the agents' decision-making processes, make such systems complex and interesting to study from a dynamical perspective. Significant research has been conducted on learning models for forward-direction estimation of agent behaviors, for example, pedestrian predictions used for collision-avoidance in self-driving cars. However, in many settings, only sporadic observations of agents may be available in a given trajectory sequence. For instance, in football, subsets of players may come in and out of view of broadcast video footage, while unobserved players continue to interact off-screen. In this paper, we study the problem of multiagent time-series imputation, where available past and future observations of subsets of agents are used to estimate missing observations for other agents. Our approach, called the Graph Imputer, uses forward- and backward-information in combination with graph networks and variational autoencoders to enable learning of a distribution of imputed trajectories. We evaluate our approach on a dataset of football matches, using a projective camera module to train and evaluate our model for the off-screen player state estimation setting. We illustrate that our method outperforms several state-of-the-art approaches, including those hand-crafted for football.

Published
2021

15. From Motor Control to Team Play in Simulated Humanoid Football

Author

Liu, Siqi, Lever, Guy, Wang, Zhe, Merel, Josh, Eslami, S. M. Ali, Hennes, Daniel, Czarnecki, Wojciech M., Tassa, Yuval, Omidshafiei, Shayegan, Abdolmaleki, Abbas, Siegel, Noah Y., Hasenclever, Leonard, Marris, Luke, Tunyasuvunakool, Saran, Song, H. Francis, Wulfmeier, Markus, Muller, Paul, Haarnoja, Tuomas, Tracey, Brendan D., Tuyls, Karl, Graepel, Thore, and Heess, Nicolas

Subjects
Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems, Computer Science - Neural and Evolutionary Computing, Computer Science - Robotics
Abstract

Intelligent behaviour in the physical world exhibits structure at multiple spatial and temporal scales. Although movements are ultimately executed at the level of instantaneous muscle tensions or joint torques, they must be selected to serve goals defined on much longer timescales, and in terms of relations that extend far beyond the body itself, ultimately involving coordination with other agents. Recent research in artificial intelligence has shown the promise of learning-based approaches to the respective problems of complex movement, longer-term planning and multi-agent coordination. However, there is limited research aimed at their integration. We study this problem by training teams of physically simulated humanoid avatars to play football in a realistic virtual environment. We develop a method that combines imitation learning, single- and multi-agent reinforcement learning and population-based training, and makes use of transferable representations of behaviour for decision making at different levels of abstraction. In a sequence of stages, players first learn to control a fully articulated body to perform realistic, human-like movements such as running and turning; they then acquire mid-level football skills such as dribbling and shooting; finally, they develop awareness of others and play as a team, bridging the gap between low-level motor control at a timescale of milliseconds, and coordinated goal-directed behaviour as a team at the timescale of tens of seconds. We investigate the emergence of behaviours at different levels of abstraction, as well as the representations that underlie these behaviours using several analysis techniques, including statistics from real-world sports analytics. Our work constitutes a complete demonstration of integrated decision-making at multiple scales in a physically embodied multi-agent setting. See project video at https://youtu.be/KHMwq9pv7mg.

Published
2021

16. Game Plan: What AI can do for Football, and What Football can do for AI

Author

Tuyls, Karl, Omidshafiei, Shayegan, Muller, Paul, Wang, Zhe, Connor, Jerome, Hennes, Daniel, Graham, Ian, Spearman, William, Waskett, Tim, Steele, Dafydd, Luc, Pauline, Recasens, Adria, Galashov, Alexandre, Thornton, Gregory, Elie, Romuald, Sprechmann, Pablo, Moreno, Pol, Cao, Kris, Garnelo, Marta, Dutta, Praneet, Valko, Michal, Heess, Nicolas, Bridgland, Alex, Perolat, Julien, De Vylder, Bart, Eslami, Ali, Rowland, Mark, Jaegle, Andrew, Munos, Remi, Back, Trevor, Ahamed, Razia, Bouton, Simon, Beauguerlange, Nathalie, Broshear, Jackson, Graepel, Thore, and Hassabis, Demis

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computer Science and Game Theory, Computer Science - Multiagent Systems
Abstract

The rapid progress in artificial intelligence (AI) and machine learning has opened unprecedented analytics possibilities in various team and individual sports, including baseball, basketball, and tennis. More recently, AI techniques have been applied to football, due to a huge increase in data collection by professional teams, increased computational power, and advances in machine learning, with the goal of better addressing new scientific challenges involved in the analysis of both individual players' and coordinated teams' behaviors. The research challenges associated with predictive and prescriptive football analytics require new developments and progress at the intersection of statistical learning, game theory, and computer vision. In this paper, we provide an overarching perspective highlighting how the combination of these fields, in particular, forms a unique microcosm for AI research, while offering mutual benefits for professional teams, spectators, and broadcasters in the years to come. We illustrate that this duality makes football analytics a game changer of tremendous value, in terms of not only changing the game of football itself, but also in terms of what this domain can mean for the field of AI. We review the state-of-the-art and exemplify the types of analysis enabled by combining the aforementioned fields, including illustrative examples of counterfactual analysis using predictive models, and the combination of game-theoretic analysis of penalty kicks with statistical learning of player attributes. We conclude by highlighting envisioned downstream impacts, including possibilities for extensions to other sports (real and virtual).

Published
2020

17. Navigating the Landscape of Multiplayer Games

Author

Omidshafiei, Shayegan, Tuyls, Karl, Czarnecki, Wojciech M., Santos, Francisco C., Rowland, Mark, Connor, Jerome, Hennes, Daniel, Muller, Paul, Perolat, Julien, De Vylder, Bart, Gruslys, Audrunas, and Munos, Remi

Subjects
Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems
Abstract

Multiplayer games have long been used as testbeds in artificial intelligence research, aptly referred to as the Drosophila of artificial intelligence. Traditionally, researchers have focused on using well-known games to build strong agents. This progress, however, can be better informed by characterizing games and their topological landscape. Tackling this latter question can facilitate understanding of agents and help determine what game an agent should target next as part of its training. Here, we show how network measures applied to response graphs of large-scale games enable the creation of a landscape of games, quantifying relationships between games of varying sizes and characteristics. We illustrate our findings in domains ranging from canonical games to complex empirical games capturing the performance of trained agents pitted against one another. Our results culminate in a demonstration leveraging this information to generate new and interesting games, including mixtures of empirical games synthesized from real world games.

Published
2020
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18. A Generalized Training Approach for Multiagent Learning

Author

Muller, Paul, Omidshafiei, Shayegan, Rowland, Mark, Tuyls, Karl, Perolat, Julien, Liu, Siqi, Hennes, Daniel, Marris, Luke, Lanctot, Marc, Hughes, Edward, Wang, Zhe, Lever, Guy, Heess, Nicolas, Graepel, Thore, and Munos, Remi

Subjects
Computer Science - Multiagent Systems, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

This paper investigates a population-based training regime based on game-theoretic principles called Policy-Spaced Response Oracles (PSRO). PSRO is general in the sense that it (1) encompasses well-known algorithms such as fictitious play and double oracle as special cases, and (2) in principle applies to general-sum, many-player games. Despite this, prior studies of PSRO have been focused on two-player zero-sum games, a regime wherein Nash equilibria are tractably computable. In moving from two-player zero-sum games to more general settings, computation of Nash equilibria quickly becomes infeasible. Here, we extend the theoretical underpinnings of PSRO by considering an alternative solution concept, $\alpha$-Rank, which is unique (thus faces no equilibrium selection issues, unlike Nash) and applies readily to general-sum, many-player settings. We establish convergence guarantees in several games classes, and identify links between Nash equilibria and $\alpha$-Rank. We demonstrate the competitive performance of $\alpha$-Rank-based PSRO against an exact Nash solver-based PSRO in 2-player Kuhn and Leduc Poker. We then go beyond the reach of prior PSRO applications by considering 3- to 5-player poker games, yielding instances where $\alpha$-Rank achieves faster convergence than approximate Nash solvers, thus establishing it as a favorable general games solver. We also carry out an initial empirical validation in MuJoCo soccer, illustrating the feasibility of the proposed approach in another complex domain.

Published
2019

19. OpenSpiel: A Framework for Reinforcement Learning in Games

Author

Lanctot, Marc, Lockhart, Edward, Lespiau, Jean-Baptiste, Zambaldi, Vinicius, Upadhyay, Satyaki, Pérolat, Julien, Srinivasan, Sriram, Timbers, Finbarr, Tuyls, Karl, Omidshafiei, Shayegan, Hennes, Daniel, Morrill, Dustin, Muller, Paul, Ewalds, Timo, Faulkner, Ryan, Kramár, János, De Vylder, Bart, Saeta, Brennan, Bradbury, James, Ding, David, Borgeaud, Sebastian, Lai, Matthew, Schrittwieser, Julian, Anthony, Thomas, Hughes, Edward, Danihelka, Ivo, and Ryan-Davis, Jonah

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Science and Game Theory, Computer Science - Multiagent Systems
Abstract

OpenSpiel is a collection of environments and algorithms for research in general reinforcement learning and search/planning in games. OpenSpiel supports n-player (single- and multi- agent) zero-sum, cooperative and general-sum, one-shot and sequential, strictly turn-taking and simultaneous-move, perfect and imperfect information games, as well as traditional multiagent environments such as (partially- and fully- observable) grid worlds and social dilemmas. OpenSpiel also includes tools to analyze learning dynamics and other common evaluation metrics. This document serves both as an overview of the code base and an introduction to the terminology, core concepts, and algorithms across the fields of reinforcement learning, computational game theory, and search.

Published
2019

26. The economic, environmental and social performance of European certified food

Author

Bellassen, Valentin, Drut, Marion, Hilal, Mohamed, Bodini, Antonio, Donati, Michele, de Labarre, Matthieu Duboys, Filipović, Jelena, Gauvrit, Lisa, Gil, José M., Hoang, Viet, Malak-Rawlikowska, Agata, Mattas, Konstadinos, Monier-Dilhan, Sylvette, Muller, Paul, Napasintuwong, Orachos, Peerlings, Jack, Poméon, Thomas, Tomić Maksan, Marina, Török, Áron, Veneziani, Mario, Vittersø, Gunnar, and Arfini, Filippo

Published
2022
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27. CROPSR: an automated platform for complex genome-wide CRISPR gRNA design and validation

Author

Hans Müller Paul, Dave D. Istanto, Jacob Heldenbrand, and Matthew E. Hudson

Subjects
CRISPR, gRNA design, Bioinformatics pipelines, Soybean, Miscanthus, Crops, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background CRISPR/Cas9 technology has become an important tool to generate targeted, highly specific genome mutations. The technology has great potential for crop improvement, as crop genomes are tailored to optimize specific traits over generations of breeding. Many crops have highly complex and polyploid genomes, particularly those used for bioenergy or bioproducts. The majority of tools currently available for designing and evaluating gRNAs for CRISPR experiments were developed based on mammalian genomes that do not share the characteristics or design criteria for crop genomes. Results We have developed an open source tool for genome-wide design and evaluation of gRNA sequences for CRISPR experiments, CROPSR. The genome-wide approach provides a significant decrease in the time required to design a CRISPR experiment, including validation through PCR, at the expense of an overhead compute time required once per genome, at the first run. To better cater to the needs of crop geneticists, restrictions imposed by other packages on design and evaluation of gRNA sequences were lifted. A new machine learning model was developed to provide scores while avoiding situations in which the currently available tools sometimes failed to provide guides for repetitive, A/T-rich genomic regions. We show that our gRNA scoring model provides a significant increase in prediction accuracy over existing tools, even in non-crop genomes. Conclusions CROPSR provides the scientific community with new methods and a new workflow for performing CRISPR/Cas9 knockout experiments. CROPSR reduces the challenges of working in crops, and helps speed gRNA sequence design, evaluation and validation. We hope that the new software will accelerate discovery and reduce the number of failed experiments.

Published
2022
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28. Optical quantification of molecular interaction strength in protein condensates

Author

Beck, Timon, primary, van der Linden, Lize-Mari, additional, Borcherds, Wade M., additional, Kim, Kyoohyun, additional, Schlüßler, Raimund, additional, Müller, Paul, additional, Franzmann, Titus, additional, Möckel, Conrad, additional, Goswami, Ruchi, additional, Leaver, Mark, additional, Mittag, Tanja, additional, Alberti, Simon, additional, and Guck, Jochen, additional

Published
2024
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31. Thematic assessment on Hazardous Submerged Objects in the Baltic Sea - Warfare Materials in the Baltic Sea

Author

Frey, Torsten, Czub, Michal, Beldowski, Jacek, Meski, Laura, Achterberg, Eric, Andresen, Christian, Beck, Aaron, Brenner, Matthias, Böttcher, Claus, Cumming, Adam, Kammann, Ulrike, Kampmeier, Mareike, Koschinski, Sven, Koske, Daniel, Köser, Kevin, Lang, Thomas, Lastumäki, Anu, Lehtonen, Kari, Lundgreen, Kim, Lindgren, Frederik, Joanna, Łyjak, Martinaviciute, Jorune, Maser, Edmund, Missiaen, Tine, Mätik, Marit, Müller, Paul, Niemikoski, Hannah, Scharsack, Jörn, Straumer, Katharina, Strehse, Jennifer, Traxl, Josef, Wichert, Uwe, HELCOM EG, Submerged, Frey, Torsten, Czub, Michal, Beldowski, Jacek, Meski, Laura, Achterberg, Eric, Andresen, Christian, Beck, Aaron, Brenner, Matthias, Böttcher, Claus, Cumming, Adam, Kammann, Ulrike, Kampmeier, Mareike, Koschinski, Sven, Koske, Daniel, Köser, Kevin, Lang, Thomas, Lastumäki, Anu, Lehtonen, Kari, Lundgreen, Kim, Lindgren, Frederik, Joanna, Łyjak, Martinaviciute, Jorune, Maser, Edmund, Missiaen, Tine, Mätik, Marit, Müller, Paul, Niemikoski, Hannah, Scharsack, Jörn, Straumer, Katharina, Strehse, Jennifer, Traxl, Josef, Wichert, Uwe, and HELCOM EG, Submerged

Abstract

Contemporary society’s perception of past wars is almost exclusively driven by historic sources such as film recordings, photographs and written documents that are presented in mass media. However, the legacy of these wars is still present throughout European soil and waters, including the Baltic Sea. The marine waters of every Baltic Sea state contain warfare materials. Resulting risks may be direct and short-term. Fishermen, divers, offshore wind farm constructors and beachgoers can potentially be exposed to their remains while performing their daily work or while collecting objects in the surf. Other potential effects might be indirect and long-term such as the accumulation of carcinogenic toxic substances and their metabolites in the marine food web. Since 1974 Contracting Parties of the Helsinki Convention are seeking to address the increasing environmental challenges from human activities and that were having a severe impact on the marine environment. This includes the protection of the Baltic Sea from all sources of pollution, and thus munitions in the Baltic Sea are addressed by HELCOM since 1993. The convention commits the signatories to take measures to conserve habitats and biological diversity and for the sustainable use of marine resources. In addition, warfare materials potentially constitute a hazard and an obstacle for the utilization of the sea floor for economic purposes. The global ocean economy is predicted to double in size by 2030, as compared to 2010 (OECD 2016). In the Blue Growth Strategy laid out by the European Commission the economic potential for the extended economic usage of the oceans was recognized and focus was placed on five blue growth sectors. Two of these sectors (ocean energy and seabed mining) require the ability to safely access large areas of the sea floor (European Commission 2017). In order to exploit the economic potential of the ocean energy and seabed resources sectors, the detection and removal of warfare materials in

Published
2024

32. Thematic assessment on Hazardous Submerged Objects in the Baltic Sea (Submerged Assessment - Warfare Materials in the Baltic Sea)

Author

Frey, Torsten, Czub, Michal, Beldowski, Jacek, Meski, Laura, Achterberg, Eric P., Andresen, Christian, Beck, Aaron, Brenner, Matthias, Böttcher, Claus, Cumming, Adam, Kammann, Ulrike, Kampmeier, Mareike, Koschinski, Sven, Koske, Daniel, Köser, Kevin, Lang, Thomas, Lastumäki, Anu, Lehtonen, Kari, Lundgreen, Kim, Lindgren, Frederik, Lyjak, Joanna, Martinaviciute, Jorune, Maser, Edmund, Missiaen, Tine, Mätik, Marit, Müller, Paul, Niemikoski, Hannah, Scharsack, Jörn Peter, Straumer, Katharina, Strehse, Jennifer, Traxl, Josef, Wichert, Uwe, Frey, Torsten, Czub, Michal, Beldowski, Jacek, Meski, Laura, Achterberg, Eric P., Andresen, Christian, Beck, Aaron, Brenner, Matthias, Böttcher, Claus, Cumming, Adam, Kammann, Ulrike, Kampmeier, Mareike, Koschinski, Sven, Koske, Daniel, Köser, Kevin, Lang, Thomas, Lastumäki, Anu, Lehtonen, Kari, Lundgreen, Kim, Lindgren, Frederik, Lyjak, Joanna, Martinaviciute, Jorune, Maser, Edmund, Missiaen, Tine, Mätik, Marit, Müller, Paul, Niemikoski, Hannah, Scharsack, Jörn Peter, Straumer, Katharina, Strehse, Jennifer, Traxl, Josef, and Wichert, Uwe

Published
2024

33. Critical dynamics and interictal epileptiform discharge: a comparative analysis with respect to tracking seizure risk cycles.

Author

Kashyap, Amrit, Müller, Paul, Miron, Gadi, and Meisel, Christian

Subjects
EPILEPTIFORM discharges, EPILEPSY, ELECTROENCEPHALOGRAPHY, CEREBRAL cortex, TRANSLATIONAL research
Abstract

Epilepsy is characterized by recurrent, unprovoked seizures. Accurate prediction of seizure occurrence has long been a clinical goal since this would allow to optimize patient treatment, prevent injuries due to seizures, and alleviate the patient burden of unpredictability. Advances in implantable electroencephalographic (EEG) devices, allowing for long-term interictal EEG recordings, have facilitated major progress in this field. Recently, it has been discovered that interictal brain activity demonstrates circadian and multi-dien cycles that are strongly aligned, or phase locked, with seizure risk. Thus, cyclical brain activity patterns have been used to forecast seizures. However, in the effort to develop a clinically useful EEG based seizure forecasting system, challenges remain. Firstly, multiple EEG features demonstrate cyclical patterns, but it remains unclear which feature is best suited for predicting seizures. Secondly, the technology for long-term EEG recording is currently limited in both spatial and temporal sampling resolution. In this study, we compare five established EEG metrics:synchrony, spatial correlation, temporal correlation, signal variance which have been motivated from critical dynamics theory, and interictal epileptiform discharge (IED) which are a traditional marker of seizure propensity. We assess their effectiveness in detecting 24-h and seizure cycles as well as their robustness under spatial and temporal subsampling. Analyzing intracranial EEG data from 23 patients, we report that all examined features exhibit 24-h cycles. Spatial correlation, signal variance, and synchrony showed the highest phase locking with seizures, while IED rates were the lowest. Notably, spatial and temporal correlation were also found to be highly correlated to each other, as were signal variance and IED--suggesting some features may reflect similar aspects of cortical dynamics, whereas others provide complementary information. All features proved robust under subsampling, indicating that the dynamic properties of interictal activity evolve slowly and are not confined to specific brain regions. Our results may aid future translational research by assisting in design and testing of EEG based seizure forecasting systems. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Common Methods and Sustainability Indicators

Author

Bellassen, Valentin, Antonioli, Federico, Bodini, Antonio, Donati, Michele, Drut, Marion, de Labarre, Matthieu Duboys, Hilal, Mohamed, Monier-Dilhan, Sylvette, Muller, Paul, Poméon, Thomas, Veneziani, Mario, Arfini, Filippo, editor, and Bellassen, Valentin, editor

Published
2019
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36. Major impacts of widespread structural variation on sorghum

Author

Zhang, Zhihai, primary, Gomes Viana, Joao Paulo, additional, Zhang, Bosen, additional, Walden, Kimberly K.O., additional, Müller Paul, Hans, additional, Moose, Stephen P., additional, Morris, Geoffrey P., additional, Daum, Chris, additional, Barry, Kerrie W., additional, Shakoor, Nadia, additional, and Hudson, Matthew E., additional

Published
2024
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38. Combinatorics of Dyadic Intervals: Consistent Colorings

Author

Kamont, Anna and Muller, Paul F. X.

Subjects
Mathematics - Functional Analysis, Mathematics - Combinatorics, 05A18 91A05
Abstract

We study the problem of consistent and homogeneous colourings for increasing families of dyadic intervals. We determine when this problem can be solved and when not., Comment: arXiv admin note: text overlap with arXiv:0909.4926

Published
2014

43. Systems analysis of RhoGEF and RhoGAP regulatory proteins reveals spatially organized RAC1 signalling from integrin adhesions

Author

Müller, Paul M., Rademacher, Juliane, Bagshaw, Richard D., Wortmann, Celina, Barth, Carolin, van Unen, Jakobus, Alp, Keziban M., Giudice, Girolamo, Eccles, Rebecca L., Heinrich, Louise E., Pascual-Vargas, Patricia, Sanchez-Castro, Marta, Brandenburg, Lennart, Mbamalu, Geraldine, Tucholska, Monika, Spatt, Lisa, Czajkowski, Maciej T., Welke, Robert-William, Zhang, Sunqu, Nguyen, Vivian, Rrustemi, Trendelina, Trnka, Philipp, Freitag, Kiara, Larsen, Brett, Popp, Oliver, Mertins, Philipp, Gingras, Anne-Claude, Roth, Frederick P., Colwill, Karen, Bakal, Chris, Pertz, Olivier, Pawson, Tony, Petsalaki, Evangelia, and Rocks, Oliver

Published
2020
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45. Cortical Thickness Patterns of Cognitive Impairment Phenotypes in Drug‐Resistant Temporal Lobe Epilepsy.

Author

Miron, Gadi, Müller, Paul Manuel, Hohmann, Louisa, Oltmanns, Frank, Holtkamp, Martin, Meisel, Christian, and Chien, Claudia

Subjects
*VOXEL-based morphometry, *SOMATIZATION disorder, *TEMPORAL lobe epilepsy, *MAGNETIC resonance imaging, *COGNITION disorders, *PHENOTYPES, *CINGULATE cortex
Abstract

Objective: In temporal lobe epilepsy (TLE), a taxonomy classifying patients into 3 cognitive phenotypes has been adopted: minimally, focally, or multidomain cognitively impaired (CI). We examined gray matter (GM) thickness patterns of cognitive phenotypes in drug‐resistant TLE and assessed potential use for predicting postsurgical cognitive outcomes. Methods: TLE patients undergoing presurgical evaluation were categorized into cognitive phenotypes. Network edge weights and distances were calculated using type III analysis of variance F‐statistics from comparisons of GM regions within each TLE cognitive phenotype and age‐ and sex‐matched healthy participants. In resected patients, logistic regression models (LRMs) based on network analysis results were used for prediction of postsurgical cognitive outcome. Results: A total of 124 patients (63 females, mean age ± standard deviation [SD] = 36.0 ± 12.0 years) and 117 healthy controls (63 females, mean age ± SD = 36.1 ± 12.0 years) were analyzed. In the multidomain CI group (n = 66, 53.2%), 28 GM regions were significantly thinner compared to healthy controls. Focally impaired patients (n = 37, 29.8%) showed 13 regions, whereas minimally impaired patients (n = 21, 16.9%) had 2 significantly thinner GM regions. Regions affected in both multidomain and focally impaired patients included the anterior cingulate cortex, medial prefrontal cortex, medial temporal, and lateral temporal regions. In 69 (35 females, mean age ± SD = 33.6 ± 18.0 years) patients who underwent surgery, LRMs based on network‐identified GM regions predicted postsurgical verbal memory worsening with a receiver operating curve area under the curve of 0.70 ± 0.15. Interpretation: A differential pattern of GM thickness can be found across different cognitive phenotypes in TLE. Including magnetic resonance imaging with clinical measures associated with cognitive profiles has potential in predicting postsurgical cognitive outcomes in drug‐resistant TLE. ANN NEUROL 2024;95:984–997 [ABSTRACT FROM AUTHOR]

Published
2024
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47. Top-Down Design of a Low-Power Multi-Channel 2.5-Gbit/s/Channel Gated Oscillator Clock-Recovery Circuit

Author

Muller, Paul, Tajalli, Armin, Atarodi, Mojtaba, and Leblebici, Yusuf

Subjects
Computer Science - Hardware Architecture
Abstract

We present a complete top-down design of a low-power multi-channel clock recovery circuit based on gated current-controlled oscillators. The flow includes several tools and methods used to specify block constraints, to design and verify the topology down to the transistor level, as well as to achieve a power consumption as low as 5mW/Gbit/s. Statistical simulation is used to estimate the achievable bit error rate in presence of phase and frequency errors and to prove the feasibility of the concept. VHDL modeling provides extensive verification of the topology. Thermal noise modeling based on well-known concepts delivers design parameters for the device sizing and biasing. We present two practical examples of possible design improvements analyzed and implemented with this methodology., Comment: Submitted on behalf of EDAA (http://www.edaa.com/)

Published
2007

49. Multimodal analysis of granulocytes, monocytes, and platelets in patients with cystic fibrosis before and after Elexacaftor–Tezacaftor–Ivacaftor treatment

Author

Schmidt, Hanna, primary, Höpfer, Larissa Melina, additional, Wohlgemuth, Lisa, additional, Knapp, Christiane Leonie, additional, Mohamed, Adam Omar Khalaf, additional, Stukan, Laura, additional, Münnich, Frederik, additional, Hüsken, Dominik, additional, Koller, Alexander Sebastian, additional, Stratmann, Alexander Elias Paul, additional, Müller, Paul, additional, Braun, Christian Karl, additional, Fabricius, Dorit, additional, Bode, Sebastian Felix Nepomuk, additional, Huber-Lang, Markus, additional, and Messerer, David Alexander Christian, additional

Published
2023
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50. Adhesion energy controls lipid binding-mediated endocytosis

Author

Groza, Raluca, primary, Schmidt, Kita Valerie, additional, Müller, Paul Markus, additional, Ronchi, Paolo, additional, Schlack-Leigers, Claire, additional, Neu, Ursula, additional, Puchkov, Dmytro, additional, Dimova, Rumiana, additional, Matthäus, Claudia, additional, Taraska, Justin, additional, Weikl, Thomas R., additional, and Ewers, Helge, additional

Published
2023
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