PS-2B: Poster Session 2B |
| Session Type: Poster |
| Time: Sunday, September 15, 17:15 - 20:15 |
| Location: H Fläche 1.OG |
| PS-2B.1: MEG energy landscape abnormalities in juvenile myoclonic epilepsy |
| Dominik Krzeminski; Cardiff University |
| Naoki Masuda; University of Bristol |
| Khalid Hamandi; Cardiff University |
| Krish Singh; Cardiff University |
| Jiaxiang Zhang; Cardiff University |
| PS-2B.2: Quantitatively comparing predictive models with the Partial Information Decomposition |
| Christoph Daube; University of Glasgow |
| Bruno Giordano; Centre National de la Recherche Scientifique |
| Phillippe Schyns; University of Glasgow |
| Robin Ince; University of Glasgow |
| PS-2B.3: Accelerated Texforms: Alternative Methods for Generating Unrecognizable Object Images with Preserved Mid-Level Features |
| Arturo Deza; Harvard University |
| Yi-Chia Chen; Harvard University |
| Bria Long; Stanford University |
| Talia Konkle; Harvard University |
| PS-2B.4: The Notorious Difficulty of Comparing Human and Machine Perception |
| Judy Borowski; University of Tuebingen |
| Christina M. Funke; University of Tuebingen |
| Karolina Stosio; University of Tuebingen |
| Wieland Brendel; University of Tuebingen |
| Thomas S. A. Wallis; University of Tuebingen |
| Matthias Bethge; University of Tuebingen |
| PS-2B.5: The Nature of the Animacy Organization in Human Ventral Temporal Cortex |
| Sushrut Thorat; Radboud University |
| Daria Proklova; The University of Western Ontario |
| Marius Peelen; Radboud University |
| PS-2B.6: A potential reset mechanism for the modulation of decision processes under uncertainty |
| Krista Bond; Carnegie Mellon University |
| Alexis Porter; Carnegie Mellon University |
| Timothy Verstynen; Carnegie Mellon University |
| PS-2B.7: A multi-stage recurrent neural network better describes decision-related activity in dorsal premotor cortex |
| Michael Kleinman; University of California, Los Angeles |
| Chandramouli Chandrasekaran; Boston University |
| Jonathan Kao; University of California, Los Angeles |
| PS-2B.8: Dead Rectangles as a Stimulus for Perceptual Organisation Research |
| Heiko Schütt; New York University |
| Weiji Ma; New York University |
| PS-2B.9: Detecting sub-second activation sequences with sequential fMRI pattern analysis |
| Lennart Wittkuhn; Max Planck Institute for Human Development |
| Nicolas W. Schuck; Max Planck Institute for Human Development |
| PS-2B.10: Attentional influences in primary visual cortex: an investigation of key task factors |
| Kieran Mohr; University College Dublin |
| Simon Kelly; University College Dublin |
| PS-2B.11: Temporal Difference Learning for Recurrent Neural Networks |
| Risheek Garrepalli Garrepalli; Oregon State University |
| PS-2B.12: Predicate learning via neural oscillations supports one-shot generalization between video games |
| Leonidas A. A. Doumas; University of Edinburgh |
| Guillermo Puebla; University of Edinburgh |
| John E. Hummel; University of Illinois |
| Andrea E. Martin; Max Planck Institute for Psycholinguistics |
| PS-2B.13: A Formal Framework for Structured N-Back Stimuli Sequences |
| Morteza Ansarinia; University of Luxembourg |
| Mussack Dominic; University of Luxembourg |
| Paul Schrater; University of Minnesota, Twin Cities |
| Pedro Cardoso-Leite; University of Luxembourg |
| PS-2B.14: Ergodicity-Breaking Reveals Time Optimal Economic Behavior in Humans |
| David Meder; Copenhagen University Hospital Hvidovre |
| Finn-Lennart Rabe; ETH Zurich |
| Tobias Morville; Copenhagen University Hospital Hvidovre |
| Kristoffer H. Madsen; Copenhagen University Hospital Hvidovre |
| Magnus T. Koudahl; Eindhoven University of Technology |
| Ray J. Dolan; University College London |
| Hartwig R. Siebner; Copenhagen University Hospital Hvidovre |
| Oliver J. Hulme; Copenhagen University Hospital Hvidovre |
| PS-2B.15: Towards Global Recurrent Models of Visual Processing: Capsule Networks |
| Adrien Doerig; EPFL |
| Lynn Schmittwilken; EPFL |
| Mauro Manassi; UC Berkeley |
| Michael Herzog; EPFL |
| PS-2B.16: Uncertainty through Sampling: The Correspondence of Monte Carlo Dropout and Spiking in Artificial Neural Networks |
| Kai Standvoss; Radboud University |
| Lukas Grossberger; Bosch GmbH |
| PS-2B.17: Formalizing a Perceptual-Mnemonic Theory of the Medial Temporal Lobe |
| Tyler Bonnen; Stanford University |
| Daniel L. K. Yamins; Stanford University |
| Anthony D. Wagner; Stanford University |
| PS-2B.18: Perceptual uncertainty modulates human reward-based learning |
| Rasmus Bruckner; Freie Universität Berlin |
| Hauke Heekeren; Freie Universität Berlin |
| Dirk Ostwald; Freie Universität Berlin |
| PS-2B.19: Attention manipulation in reinforcement learning agents |
| Oriol Corcoll; Tartu University |
| Abdullah Makkeh; Tartu University |
| Jaan Aru; Tartu University |
| Dirk Oliver Theis; Tartu University |
| Raul Vicente Zafra; Tartu University |
| PS-2B.20: Visual Features for Invariant Coding by Face Selective Neurons |
| Wilbert Zarco; The Rockefeller University |
| Winrich Freiwald; The Rockefeller University |
| PS-2B.21: Automatic methods for cortex-wide layer identification of electrophysiological signals reveals a cortical motif for the expression of neuronal rhythms |
| Andre Bastos; MIT |
| Omar Costilla-Reyes; MIT |
| Earl Miller; MIT |
| PS-2B.22: Neural Likelihood |
| Christoph Blessing; University Tuebingen |
| Edgar Y. Walker; University Tuebingen |
| Katrina R. Quinn; University Tuebingen |
| R. James Cotton; Shirley Ryan Ability Lab |
| Wei Ji Ma; New York University |
| Andreas S. Tolias; Baylor College of Medicine |
| Hendrikje Nienborg; University Tuebingen |
| Fabian H. Sinz; University Tuebingen |
| PS-2B.23: Convolutional neural networks performing a visual search task show attention-like limits on accuracy when trained to generalize across multiple search stimuli |
| David Nicholson; Emory University |
| Astrid Prinz; Emory University |
| PS-2B.24: Configural Learning depends on Task Complexity and Temporal Structure |
| Nicholas Menghi; University of East Anglia |
| Will Penny; University of East Anglia |
| PS-2B.25: Comparing neural simulations by neural density estimation |
| Jan Boelts; Technical University of Munich |
| Jan-Matthis Lueckmann; Technical University of Munich |
| Pedro J. Goncalves; Research Center caesar |
| Henning Sprekeler; Technical University of Berlin |
| Jakob H. Macke; Technical University of Munich |
| PS-2B.26: Modeling in Neuroscience as a Decision Process |
| Paul Schrater; University of Minnesota |
| Konrad Kording; University of Pennsylvania |
| Gunnar Blohm; Queen's University |
| PS-2B.27: Representational similarity analyses in simultaneous EEG-fMRI measurements reveal the spatio-temporal trajectories of reconstructed episodic memories |
| Julia Lifanov; University of Birmingham |
| Benjamin Griffiths; University of Birmingham |
| Juan Linde-Domingo; Max Planck Institute |
| Catarina Ferreira; University of Birmingham |
| Martin Wilson; University of Birmingham |
| Stephen Mayhew; University of Birmingham |
| Ian Charest; University of Birmingham |
| Maria Wimber; University of Birmingham |
| PS-2B.28: Unifying Neural Delay Representations in Cognitive Tasks: A Joint Human Behavioral and Recurrent Neural Network Study |
| Daniel Ehrlich; Yale University |
| John D. Murray; Yale University |
| PS-2B.29: Local contour symmetry facilitates the neural representation of scene categories in the PPA. |
| John Wilder; University of Toronto |
| Morteza Rezanejad; McGill University |
| Kaleem Siddiqi; McGill University |
| Allan Jepson; Samsung Research |
| Sven Dickinson; Samsung Research |
| Dirk Walther; University of Toronto |
| PS-2B.30: Visual representations supporting category-specific information about visual objects in the brain |
| Simon Faghel-Soubeyrand; Université de Montréal |
| Arjen Alink; University of Hamburg |
| Eva Bamps; University of Birmingham |
| Frédéric Gosselin; Université de Montréal |
| Ian Charest; University of Birmingham |
| PS-2B.31: Risk Sensitivity under Partially Observable Markov Decision Processes |
| Nikolas Höft; Technische Universität Berlin |
| Rong Guo; Technische Universität Berlin |
| Vaios Laschos; Technische Universität Berlin |
| Sein Jeung; Freie Universität Berlin |
| Dirk Ostwald; Freie Universität Berlin |
| Klaus Obermayer; Technische Universität Berlin |
| PS-2B.32: Attentional orienting relies on Bayesian estimates of expected and unexpected uncertainty |
| Anna Marzecová; Ghent University |
| Eva Van den Bussche; KU Leuven |
| Tom Verguts; Ghent University |
| PS-2B.33: Hexadirectional coding of trajectories through an abstract multidimensional social network during decisions |
| Seongmin Park; University of California, Davis |
| Douglas Miller; University of California, Davis |
| Erie Boorman; University of California, Davis |
| PS-2B.34: Flexible connectivity under physiological constraints |
| Gabriel Ocker; Allen Institute for Brain Science |
| Michael Buice; Allen Institute for Brain Science |
| PS-2B.35: Category-selectivity together with a Normalization Model Predicts the Response to Multi-category Stimuli along the Category-Selective Cortex |
| Libi Kliger; Tel Aviv University |
| Galit Yovel; Tel Aviv University |
| PS-2B.36: Active Inference: Computational Models of Motor Control without Efference Copy |
| Manuel Baltieri; University of Sussex |
| Christopher L. Buckley; University of Sussex |
| PS-2B.37: A representation-level algorithm for detecting spatial coincidences |
| Jennifer Lee; NYU |
| Weiji Ma; NYU |
| PS-2B.38: A Model of Full-body Kinematics-based Visual Attention in Daily-Life Tasks |
| Alex Harston; Imperial College London |
| Chaiyawan Auepanwiriyakul; Imperial College London |
| Aldo Faisal; Imperial College London |
| PS-2B.39: How the brain encodes meaning: Comparing word embedding and computer vision models to predict fMRI data during visual word recognition |
| Ning Mei; Basque Center on Brain, Cognition, and Language |
| Usman Sheikh; Basque Center on Brain, Cognition, and Language |
| Roberto Santana; University of Basque Country |
| David Soto; Basque Center on Brain, Cognition, and Language |
| PS-2B.40: Neural Measures of Inter- vs Intra-individual Differences in Sustained Attention |
| David Rothlein; VA Boston Healthcare System |
| Joseph DeGutis; VA Boston Healthcare System |
| Michael Esterman; VA Boston Healthcare System |
| PS-2B.41: Selective enhancement of object representations through multisensory integration |
| David Tovar; Vanderbilt University |
| Micah Murray; University of Lausanne |
| Mark Wallace; Vanderbilt University |
| PS-2B.42: Implicit Scene Segmentation in Deeper Convolutional Neural Networks |
| Noor Seijdel; University of Amsterdam |
| Nikos Tsakmakidis; Centrum Wiskunde & Informatica |
| Edward de Haan; University of Amsterdam |
| Sander Bohte; Centrum Wiskunde & Informatica |
| Steven Scholte; University of Amsterdam |
| PS-2B.43: Optimal Timing for Episodic Retrieval and Encoding for Event Understanding |
| Qihong Lu; Princeton University |
| Zi Ying Fan; Princeton University |
| Uri Hasson; Princeton University |
| Kenneth Norman; Princeton University |
| PS-2B.44: Hierarchical semantic compression predicts texture selectivity in early vision |
| Mihály Bányai; MTA Wigner RCP |
| Dávid G. Nagy; MTA Wigner RCP |
| Gergő Orbán; MTA Wigner RCP |
| PS-2B.45: Using EEG to Predict Speech Intelligibility |
| Ivan Iotzov; City University of New York |
| Lucas Parra; City University of New York |
| PS-2B.46: Neural Topic Modelling |
| Pamela Hathway; Imperial College London |
| Dan F.M. Goodman; Imperial College London |
| PS-2B.47: Deep reinforcement learning in a spatial navigation task: Multiple contexts and their representation |
| Nicolas Diekmann; Ruhr University Bochum |
| Thomas Walther; Ruhr University Bochum |
| Sandhiya Vijayabaskaran; Ruhr University Bochum |
| Sen Cheng; Ruhr University Bochum |
| PS-2B.48: A mechanistic account of transferring structural knowledge across cognitive maps |
| Shirley Mark; University College London |
| Rani Moran; University College London |
| Thomas Parr; University College London |
| Steve Kennerley; University College London |
| Tim Behrens; University of Oxford |
| PS-2B.49: Brain Functional Connectivity in Wakefulness Predicts Susceptibility to Anaesthesia |
| Feng Deng; Trinity College Dublin |
| Rhodri Cusack; Trinity College Dublin |
| Lorina Naci; Trinity College Dublin |
| PS-2B.50: The effect of task and training on intermediate representations in convolutional neural networks revealed with modified RV similarity analysis |
| Jessica Thompson; Université de Montréal |
| Yoshua Bengio; Université de Montréal |
| Marc Schoenwiesner; University of Leipzig |
| PS-2B.51: Simple Associative Learning Accounts for the Complex Dynamics of Operant Extinction |
| José R. Donoso; Ruhr-Universität Bochum |
| Zhiyin Lederer; Ruhr-Universität Bochum |
| Julian Packheiser; Ruhr-Universität Bochum |
| Roland Pusch; Ruhr-Universität Bochum |
| Thomas Walther; Ruhr-Universität Bochum |
| Onür Güntürkün; Ruhr-Universität Bochum |
| Sen Cheng; Ruhr-Universität Bochum |
| PS-2B.52: A Unifying Framework for Neuro-Inspired, Data-Driven Detection of Low-Level Auditory Features |
| Lotte Weerts; Imperial College London |
| Claudia Clopath; Imperial College London |
| Dan F.M. Goodman; Imperial College London |
| PS-2B.53: A way around the exploration-exploitation dilemma |
| Erik Peterson; Carnegie Mellon |
| Timothy Verstynen; Carnegie Mellon |
| PS-2B.54: The relational processing limits of classic and contemporary neural network models of language processing |
| Guillermo Puebla; University of Edinburgh |
| Andrea Martin; Max Planck Institute for Psycholinguistics |
| Leonidas Doumas; University of Edinburgh |
| PS-2B.55: The causal role of temporoparietal junction in computing social influence in human decision-making |
| Lei Zhang; University Medical Center Hamburg-Eppendorf |
| Farid Kandil; University Medical Center Hamburg-Eppendorf |
| Claus Hilgetag; University Medical Center Hamburg-Eppendorf |
| Jan Gläscher; University Medical Center Hamburg-Eppendorf |
| PS-2B.56: Adding Neurally-inspired Mechanisms to the SceneWalk model improves Scan Path Predictions for Natural Images |
| Lisa Schwetlick; University of Potsdam |
| Lars O. M. Rothkegel; University of Potsdam |
| Ralf Engbert; University of Potsdam |
| PS-2B.58: Pattern recognition of deep and superficial layers of the macaque brain using large-scale local field potentials |
| Omar Costilla-Reyes; Massachusetts Institute of Technology |
| Andre M Bastos; Massachusetts Institute of Technology |
| Earl K Miller; Massachusetts Institute of Technology |
| PS-2B.59: Adaptation to environmental statistics in an action control task |
| Nils Neupärtl; Technical University Darmstadt |
| Constantin Rothkopf; Technical University Darmstadt |
| PS-2B.60: Task-Dependent Attention Allocation through Uncertainty Minimization in Deep Recurrent Generative Models |
| Kai Standvoss; Radboud University |
| Silvan Quax; Radboud University |
| Marcel van Gerven; Radboud University |
| PS-2B.61: Conjunctive Coding of Color and Shape in Convolutional Neural Networks |
| JohnMark Taylor; Harvard University |
| Yaoda Xu; Yale University |
| PS-2B.62: Bayesian nonparametric models characterize social sensitivity in a competitive dynamic game |
| Kelsey McDonald; Duke University |
| Scott Huettel; Duke University |
| John Pearson; Duke University |
| PS-2B.63: Influence of Musical Expertise on the processing of Musical Features in a Naturalistic Setting |
| Dipankar Niranjan; Kohli Centre on Intelligent Systems, IIIT Hyderabad |
| Iballa Burunat; University of Jyvaskyla |
| Petri Toiviainen; University of Jyvaskyla |
| Elvira Brattico; Center for Music In the Brain, Aarhus University |
| Vinoo Alluri; Kohli Centre on Intelligent Systems, IIIT Hyderabad |
| PS-2B.64: Searching for rewards in graph-structured spaces |
| Charley M. Wu; Max Planck Institute for Human Development |
| Eric Schulz; Harvard University |
| Samuel J. Gershman; Harvard University |
| PS-2B.65: Identifiability of Gaussian Bayesian bandit models |
| Maarten Speekenbrink; University College London |
| PS-2B.66: Explaining Human Auditory Scene Analysis Through Bayesian Clustering |
| Nathanael Larigaldie; Durham University |
| Ulrik Beierholm; Durham University |
| PS-2B.67: Testing Computational Models of Goal Pursuit |
| Florian Mohnert; Max Planck Institute for Intelligent Systems |
| Mateo Tošić; Max Planck Institute for Intelligent Systems |
| Falk Lieder; Max Planck Institute for Intelligent Systems |
| PS-2B.68: Choice History Biases Depend on Environmental Stability and State Uncertainty |
| Anke Braun; University Medical Center Hamburg-Eppendorf |
| Anne E Urai; Cold Spring Harbor |
| Tobias Donner; University Medical Center Hamburg-Eppendorf |
| PS-2B.69: Rate-space attractors and low dimensional dynamics interact with spike-synchrony statistics in neural networks |
| Daniel Scott; Brown University |
| Michael Frank; Brown University |
| PS-2B.70: Do Biologically-Realistic Recurrent Architectures Produce Biologically-Realistic Models? |
| Grace Lindsay; Columbia University |
| Theodore Moskovitz; Columbia University |
| Guangyu Robert Yang; Columbia University |
| Kenneth Miller; Columbia University |
| PS-2B.71: Hippocampal Remapping as Learned Clustering of Experience |
| Honi Sanders; Massachusetts Institute of Technology |
| Samuel Gershman; Harvard University |
| Matthew Wilson; Massachusetts Institute of Technology |
| PS-2B.72: A Calculus for Brain Computation |
| Christos H. Papadimitriou; Columbia University |
| Santosh S. Vempala; Georgia Tech |
| Daniel Mitropolsky; Columbia University |
| Michael J. Collins; Columbia University |
| Wolfgang Maass; Technische Universität Graz |
| Larry F. Abbott; Columbia University |
| PS-2B.73: Do sleep and anesthesia share common multifractal EEG dynamics? Insights from adversarial domain adaptation |
| Louis Leconte; Ecole Normale Supérieure Paris-Saclay |
| Tarek Lajnef; Université de Montréal |
| Thomas Thiery; Université de Montréal |
| George Mashour; University of Michigan |
| Stefanie Blain-Moraes; McGill University |
| Perrine Ruby; Université Claude Bernard Lyon 1, Université de Lyon |
| Karim Jerbi; Université de Montréal |
| PS-2B.74: An overview of functional alignment in artificial and biological neural networks: Current recommendations and open questions |
| Elizabeth DuPre; McGill University |
| Jean-Baptiste Poline; McGill University |
| PS-2B.75: Working with Episodic Memory: The N-back Task |
| Andre Beukers; Princeton University |
| Kenneth Norman; Princeton University |
| Jonathan Cohen; Princeton University |