PS-1A: Poster Session 1A |
| Session Type: Poster |
| Time: Saturday, September 14, 16:30 - 19:30 |
| Location: H Lichthof |
| PS-1A.1: Tracking Motivational Biases and Their Suppression in Time and Space |
| Johannes Algermissen; Radboud University Nijmegen, the Netherlands |
| Jennifer C. Swart; Radboud University Nijmegen, the Netherlands |
| Emma J. van Dijk; Radboud University Nijmegen, the Netherlands |
| René Scheeringa; Radboud University Nijmegen, the Netherlands |
| Roshan Cools; Radboud University Nijmegen, the Netherlands |
| Hanneke E. M. den Ouden; Radboud University Nijmegen, the Netherlands |
| PS-1A.2: Confidence Drives a Neural Confirmation Bias |
| Max Rollwage; Wellcome Trust Centre For Human Neuroimaging |
| Tobias Hauser; Wellcome Trust Centre For Human Neuroimaging |
| Alisa Loosen; Wellcome Trust Centre For Human Neuroimaging |
| Rani Moran; Wellcome Trust Centre For Human Neuroimaging |
| Raymond Dolan; Wellcome Trust Centre For Human Neuroimaging |
| Stephen Fleming; Wellcome Trust Centre For Human Neuroimaging |
| PS-1A.3: How the Human Brain Solves the Symbol-Grounding Problem |
| Simone Viganò; University of Trento |
| Valentina Borghesani; University of California San Francisco |
| Manuela Piazza; University of Trento |
| PS-1A.4: Tracking Naturalistic Linguistic Predictions with Deep Neural Language Models |
| Micha Heilbron; Donders Institute for Brain, Cognition, and Behaviour |
| Benedikt Ehinger; Donders Institute for Brain, Cognition, and Behaviour |
| Peter Hagoort; Donders Institute for Brain, Cognition, and Behaviour |
| Floris de Lange; Donders Institute for Brain, Cognition, and Behaviour |
| PS-1A.5: Abstract Choice Representations Generalize Between Task Contexts |
| Florian Sandhaeger; University of Tuebingen |
| Nina Omejc; University of Tuebingen |
| Anna-Antonia Pape; University of Tuebingen |
| Markus Siegel; University of Tuebingen |
| PS-1A.6: Generalisation of structural knowledge in hippocampal – prefrontal circuits |
| Veronika Samborska; Nuffield Department of Clinical Neurosciences |
| Thomas Akam; Department of Experimental Psychology |
| James Butler; Institute of Neurology |
| Mark Walton; Department of Experimental Psychology |
| Timothy Behrens; Nuffield Department of Clinical Neurosciences |
| PS-1A.7: Approximate Inference through Active Sampling of Likelihoods Accounts for Hick's Law and Decision Confidence |
| Xiang Li; New York University |
| Luigi Acerbi; University of Geneva |
| Wei Ji Ma; New York University |
| PS-1A.8: Humans cannot decipher adversarial images: Revisiting Zhou and Firestone (2019) |
| Marin Dujmović; University of Bristol |
| Gaurav Malhotra; University of Bristol |
| Jeffrey Bowers; University of Bristol |
| PS-1A.9: Using population receptive field models to elucidate spatial integration in high-level visual cortex |
| Sonia Poltoratski; Stanford University |
| Kendrick Kay; University of Minnesota |
| Kalanit Grill-Spector; Stanford University |
| PS-1A.10: Anxiety Impedes Adaptive Social Learning Under Uncertainty |
| Amrita Lamba; Brown University |
| Michael Frank; Brown University |
| Oriel FeldmanHall; Brown University |
| PS-1A.11: Learning robust visual representations using data augmentation invariance |
| Alex Hernandez-Garcia; University of Osnabrück |
| Peter König; University of Osnabrück |
| Tim Kietzmann; University of Cambridge |
| PS-1A.12: A Multi-Level Reinforcement-Learning Model of Wisconsin Card Sorting Test Performance |
| Alexander Steinke; Hannover Medical School |
| Florian Lange; KU Leuven |
| Bruno Kopp; Hannover Medical School |
| PS-1A.13: Attention bias towards structure explained by an intrinsic reward for learning |
| Zhiwei Li; New York University |
| Todd Gureckis; New York University |
| PS-1A.14: A neurally-constrained process model of prior-informed decision making |
| Elaine Corbett; Trinity College Dublin |
| Redmond O'Connell; Trinity College Dublin |
| Simon Kelly; University College Dublin |
| PS-1A.15: Learning to evoke complex motor outputs with spatiotemporal neurostimulation using a hierarchical and adaptive optimization algorithm. |
| Samuel Laferriere; Universite de Montreal, MILA |
| Guillaume Lajoie; Universite de Montreal, MILA |
| Numa Dancause; Universite de Montreal |
| Marco Bonizzato; Universite de Montreal |
| PS-1A.16: Elucidating Cognitive Processes Using LSTMs |
| Pedro F. da Costa; Birkbeck, University of London |
| Sebastian Popescu; Imperial College London |
| Robert Leech; King's College London |
| Romy Lorenz; University of Cambridge |
| PS-1A.17: Subtractive gating improves generalization in working memory tasks |
| Milton Llera Montero; University of Bristol |
| Gaurav Malhotra; University of Bristol |
| Jeff Bowers; University of Bristol |
| Rui Ponte Costa; University of Bristol |
| PS-1A.18: Identifying the Neurophysiological Correlates of Learning in Human Perceptual Decision-Making |
| David McGovern; Dublin City University |
| Ciara Devine; Trinity College Dublin |
| Christine Gaffney; Trinity College Dublin |
| Simon Kelly; University College Dublin |
| Redmond O'Connell; Trinity College Dublin |
| PS-1A.19: Learning about Other Persons’ Character Traits Relies on Combining Reinforcement Learning with Representations of Trait Similarities |
| Koen Frolichs; University Medical Center Hamburg-Eppendorf |
| Benjamin Kuper-Smith; University Medical Center Hamburg-Eppendorf |
| Jan Gläscher; University Medical Center Hamburg-Eppendorf |
| Gabriela Rosenblau; George Washington University and Children’s National Health System |
| Christoph Korn; University Medical Center Hamburg-Eppendorf |
| PS-1A.20: Model abstraction for model-based reinforcement learning in the human orbitofrontal cortex |
| Yu Takagi; University of Oxford |
| Wako Yoshida; Kyoto University |
| Saori Tanaka; Advanced Telecommunications Research Institute International |
| PS-1A.21: Action Grammars: A Cognitive Model for Learning Temporal Abstractions |
| Robert Tjarko Lange; Einstein Center for Neurosciences Berlin |
| Aldo Faisal; Imperial College London |
| PS-1A.22: Measuring behavioural and neural responses to fluctuations in real-world predictability |
| Buddhika Bellana; Johns Hopkins University |
| Hongmi Lee; Johns Hopkins University |
| Xiaoye Zuo; Johns Hopkins University |
| Janice Chen; Johns Hopkins University |
| PS-1A.23: Do neural oscillations reconfigure their networks to support adaptive listening behavior? |
| Mohsen Alavash; University of Lübeck |
| Sarah Tune; University of Lübeck |
| Jonas Obleser; University of Lübeck |
| PS-1A.24: Using the perceptual confirmation-bias to study learning and feedback in fovea and periphery |
| Ankani Chattoraj; University of Rochester |
| Richard Lange; University of Rochester |
| Ralf Haefner; University of Rochester |
| PS-1A.25: Do LSTMs know about Principle C? |
| Jeff Mitchell; University of Bristol |
| Nina Kazanina; University of Bristol |
| Conor Houghton; University of Bristol |
| Jeff Bowers; University of Bristol |
| PS-1A.26: Optimal maintenance and use of uncertainty in visual working memory |
| Aspen Yoo; New York University |
| Wei Ji Ma; New York University |
| PS-1A.27: Scalable simulation of rate-coded and spiking neural networks on shared memory systems |
| Helge Ülo Dinkelbach; Chemnitz University of Technology |
| Julien Vitay; Chemnitz University of Technology |
| Fred H. Hamker; Chemnitz University of Technology |
| PS-1A.28: Increasing Neurogenesis in Old Mice Rejuvenates Hippocampal Function and Memory |
| Federico Calegari; CRTD – Center for Regenerative Therapies Dresden, Technische Universität Dresden |
| Gabriel Berdugo-Vega; CRTD – Center for Regenerative Therapies Dresden, Technische Universität Dresden |
| Gonzalo Arial-Gil; Institute of Biology, Otto-von-Guericke University Magdeburg |
| Gerd Kempermann; CRTD – Center for Regenerative Therapies Dresden, Technische Universität Dresden |
| Kentaroh Takagaki; Institute of Biology, Otto-von-Guericke University Magdeburg |
| PS-1A.29: Network structure of neural systems supporting cascading dynamics predicts stimulus propagation and recovery |
| Harang Ju; University of Pennsylvania |
| Jason Kim; University of Pennsylvania |
| Danielle Bassett; University of Pennsylvania |
| PS-1A.30: High-resolution population receptive field mapping of human high-level visual areas |
| Charlotte Leferink; University of Toronto |
| Claudia Damiano; University of Toronto |
| Dirk Walther; University of Toronto |
| PS-1A.31: Modeling echo-target acquisition in blind humans |
| Santani Teng; Smith-Kettlewell Eye Research Institute |
| Giovanni Fusco; Smith-Kettlewell Eye Research Institute |
| PS-1A.32: Computational advantages of dopaminergic states for decision making |
| Alana Jaskir; Brown University |
| Michael Frank; Brown University |
| PS-1A.33: Probabilistic reasoning in schizophrenia is volatile but not biased |
| Gerit Pfuhl; UiT The Arctic University of Norway |
| Håkon Tjelmeland; NTNU |
| PS-1A.34: The causal contributions of medial prefrontal cortex to value-based decisions in mice |
| Huriye Atilgan; Yale university |
| Cayla Murphy; Yale university |
| Alex Kwan; Yale university |
| PS-1A.35: Different clones for different contexts: Hippocampal cognitive maps as higher-order graphs of a cloned HMM |
| Nishad Gothoskar; Vicarious AI |
| J Swaroop Guntupalli; Vicarious AI |
| Rajeev Rikhye; Vicarious AI |
| Miguel Lázaro-Gredilla; Vicarious AI |
| Dileep George; Vicarious AI |
| PS-1A.36: The origin of fixed, history-independent choice biases of rodents in perceptual decision making tasks |
| Gabor Lengyel; Central European University |
| Alexandre Hyafil; Universitat Pompeu Fabra |
| Jozsef Fiser; Central European University |
| Jaime de la Rocha; Institut d’Investigacions Biomediques August Pi i Sunyer |
| PS-1A.37: Power, positive predictive value, and sample size calculations for random field theory-based fMRI inference |
| Dirk Ostwald; Freie Universität Berlin |
| Sebastian Schneider; Freie Universität Berlin |
| Rasmus Bruckner; Freie Universität Berlin |
| Lilla Horvath; Freie Universität Berlin |
| PS-1A.38: Optimal planning to plan: People partially plan based on plan specificity |
| Mark Ho; Princeton University |
| David Abel; Brown University |
| Jonathan Cohen; Princeton University |
| Michael Littman; Brown University |
| Thomas Griffiths; Princeton University |
| PS-1A.39: fMRI encoding and decoding of natural sounds in the aged human auditory cortex |
| Julia Erb; Universität zu Lübeck |
| Lea-Maria Schmitt; Universität zu Lübeck |
| Jonas Obleser; Universität zu Lübeck |
| PS-1A.40: Pupil dilation indexes statistical learning about the uncertainty of stimulus distributions |
| Francesco Silvestrin; University of East Anglia |
| Thomas FitzGerald; University of East Anglia |
| William Penny; University of East Anglia |
| PS-1A.41: Incorporating Feedback in Convolutional Neural Networks |
| Christian Jarvers; Ulm University |
| Heiko Neumann; Ulm University |
| PS-1A.42: A quantitative model of the language familiarity effect in infancy |
| Craig Thorburn; University Of Maryland |
| Naomi Feldman; University Of Maryland |
| Thomas Schatz; University Of Maryland |
| PS-1A.43: ABC-NN: Approximate Bayesian Computation with Neural Networks to learn likelihood functions for efficient parameter estimation |
| Alexander Fengler; Brown University |
| Michael Frank; Brown University |
| PS-1A.44: Modeling the N400 brain potential as Semantic Bayesian Surprise |
| Lea Musiolek; Freie Universität Berlin |
| Felix Blankenburg; Freie Universität Berlin |
| Dirk Ostwald; Freie Universität Berlin |
| Milena Rabovsky; Freie Universität Berlin |
| PS-1A.45: The Impact of Acetylcholine on Basolateral Amygdala Macrocircuits |
| Evelyne Tantry; Rice University |
| Joshua Ortiz-Guzman; Baylor College of Medicine |
| Benjamin Arenkiel; Baylor College of Medicine |
| PS-1A.46: Toolbox for the Reinforcement Learning Drift Diffusion Model |
| Mads Pedersen; University of Oslo |
| Michael Frank; Brown University |
| PS-1A.47: A human-like view-invariant representation of faces in deep neural networks trained with faces but not with objects |
| Naphtali Abudarham; Tel Aviv University |
| Galit Yovel; Tel Aviv University |
| PS-1A.48: Visual Expertise and the Familiar Face Advantage |
| Nicholas Blauch; Carnegie Mellon University |
| Marlene Behrmann; Carnegie Mellon University |
| David Plaut; Carnegie Mellon University |
| PS-1A.49: Modulation of early visual processing alleviates capacity limits in solving multiple tasks |
| Sushrut Thorat; Radboud University |
| Giacomo Aldegheri; Radboud University |
| Marcel A.J. van Gerven; Radboud University |
| Marius V. Peelen; Radboud University |
| PS-1A.50: Fitting a Computational Model of Perceptual Inference to Principal Component Weights of ERP Responses |
| Lukas Vogelsang; University of Zurich / ETH Zurich |
| Lilian Weber; University of Zurich / ETH Zurich |
| Sara Tomiello; University of Zurich / ETH Zurich |
| Dario Schöbi; University of Zurich / ETH Zurich |
| Katharina V. Wellstein; University of Zurich / ETH Zurich |
| Sandra Iglesias; University of Zurich / ETH Zurich |
| Klaas Enno Stephan; University of Zurich / ETH Zurich |
| PS-1A.51: The Algonauts Project: A Platform for Communication between the Sciences of Biological and Artificial Intelligence |
| Radoslaw Martin Cichy; Freie Universität Berlin |
| Gemma Roig; Singapore University of Technology and Design |
| Alex Andonian; Massachusetts Institute of Technology |
| Kshitij Dwivedi; Singapore University of Technology and Design |
| Benjamin Lahner; Massachusetts Institute of Technology |
| Alex Lascelles; Massachusetts Institute of Technology |
| Yalda Mohsenzadeh; Massachusetts Institute of Technology |
| Kandan Ramakrishnan; Massachusetts Institute of Technology |
| Aude Oliva; Massachusetts Institute of Technology |
| PS-1A.52: Attention During Story Listening Modulates Temporal Receptive Windows Across Human Cortex |
| Mohammad Shahdloo; Bilkent University |
| Mert Acar; Bilkent University |
| Tolga Çukur; Bilkent University |
| PS-1A.53: A causal inference model for the perception of complex motion in the presence of self-motion |
| Sabyasachi Shivkumar; University of Rochester |
| Gregory DeAngelis; University of Rochester |
| Ralf Haefner; University of Rochester |
| PS-1A.54: The Accumulation of Salient Changes in Visual Cortex Predicts Subjective Time |
| Maxine Sherman; University of Sussex |
| Zafeirios Fountas; University College London |
| Anil Seth; University of Sussex |
| Warrick Roseboom; University of Sussex |
| PS-1A.55: The Amsterdam Open MRI Collection (AOMIC): A Collection of Publicly Available Population Imaging Datasets. |
| Lukas Snoek; University of Amsterdam |
| Maite van der Miesen; University of Amsterdam |
| Tinka Beemsterboer; University of Amsterdam |
| Andries van der Leij; BrainsFirst |
| H. Steven Scholte; University of Amsterdam |
| PS-1A.56: Compositional Neural Representations in the Hippocampal Formation and Prefrontal Cortex Underlie Visual Construction and Planning |
| Philipp Schwartenbeck; University College London |
| Alon Baram; University of Oxford |
| Shirley Mark; University College London |
| Zeb Kurth-Nelson; DeepMind |
| Raymond Dolan; University College London |
| Tim Behrens; University of Oxford |
| PS-1A.57: NMDA-Receptor Dysfunction Disrupts Serial Biases in Spatial Working Memory |
| Heike Stein; Institut d’Investigacions Biomèdiques August Pi i Sunyer |
| João Barbosa; Institut d’Investigacions Biomèdiques August Pi i Sunyer |
| Josep Dalmau; Institut d’Investigacions Biomèdiques August Pi i Sunyer |
| Albert Compte; Institut d’Investigacions Biomèdiques August Pi i Sunyer |
| PS-1A.58: Adaptive Filters to Remove Deep Brain Stimulation Artifacts from Local Field Potentials |
| Taha Morshedzadeh; Krembil Brain Institute |
| Neil M. Drummond; Krembil Brain Institute |
| Utpal Saha; Krembil Brain Institute |
| Robert Chen; Krembil Brain Institute |
| Milad Lankarany; Krembil Brain Institute |
| PS-1A.59: A Causal Effect of Macaque V2 in a Coarse Disparity Discrimination Task |
| Katrina Quinn; University of Tuebingen |
| Bruce Cumming; National Institute of Health |
| Hendrikje Nienborg; University of Tuebingen |
| PS-1A.60: Using Pareidolia to Study the Impact of Semantic Processing on Brain Oscillations, Memory Encoding, and Representational Similarity in EEG |
| Marie-Christin Fellner; Ruhr University Bochum |
| Martina Bauer; Ruhr University Bochum |
| Nikolai Axmacher; Ruhr University Bochum |
| PS-1A.61: Analysis of Correspondence Relationship between Brain Activity and Semantic Representation |
| Kana Ozaki; Ochanomizu University |
| Satoshi Nishida; National Institute of Information and Communications Technology |
| Shinji Nishimoto; National Institute of Information and Communications Technology |
| Hideki Asoh; National Institute of Advanced Industrial Science and Technology |
| Ichiro Kobayashi; Ochanomizu University |
| PS-1A.62: Measuring the Spatial Scale of Brain Representations |
| Avital Hahamy; University College London |
| Tim Behrens; University of Oxford |
| PS-1A.63: The orbitofrontal cortex as a negative feedback control system: computational modeling and fMRI |
| Noah Zarr; Indiana University |
| Joshua Brown; Indiana University |
| PS-1A.64: Does CNN Explain Tuning Properties of Macaque Face-Processing System? |
| Rajani Raman; Advanced Telecommunications Research Institute International |
| Haruo Hosoya; Advanced Telecommunications Research Institute International |
| PS-1A.65: Adversarial Training of Neural Encoding Models on Population Spike Trains |
| Poornima Ramesh; Technical University of Munich |
| Mohamad Atayi; Technical University of Munich |
| Jakob H Macke; Technical University of Munich |
| PS-1A.66: Temporal Pattern Models for Physiological Arousal During a Steering Task |
| Tuisku Tammi; University of Helsinki |
| Noora Lehtonen; University of Helsinki |
| Benjamin Ultan Cowley; University of Helsinki |
| PS-1A.67: Evaluating the angular power spectrum of cortical folding |
| Christopher Madan; University of Nottingham |
| PS-1A.68: Modeling the development of decision making in volatile environments using strategies, reinforcement learning, and Bayesian inference |
| Maria Eckstein; UC Berkeley |
| Sarah Master; UC Berkeley |
| Ronald Dahl; UC Berkeley |
| Linda Wilbrecht; UC Berkeley |
| Anne Collins; UC Berkeley |
| PS-1A.69: Synchronized and Propagating States of Human Auditory Processing |
| Joon-Young Moon; Johns Hopkins University |
| Kathrin Müsch; Johns Hopkins University |
| Charles Schroeder; The Nathan S. Kline Institute for Psychiatric Research |
| Christopher Honey; Johns Hopkins University |
| PS-1A.70: State Anxiety Biases Precision Estimates in Volatile Environments |
| Thomas Hein; Goldsmiths University of London |
| María Herrojo-Ruiz; Goldsmiths University of London |
| PS-1A.71: RNNs develop history biases in an expectation-guided two-alternative forced choice task |
| Manuel Molano-Mazon; IDIBAPS |
| Guangyu Robert Yang; Columbia University |
| Ainhoa Hermoso-Mendizabal; IDIBAPS |
| Jaime de la Rocha; IDIBAPS |
| PS-1A.72: Value spillover: How contextually irrelevant values influence choice and vmPFC activity in humans |
| Nir Moneta; Max Planck Institute for Human Development |
| Hauke R. Heekeren; Freie Universitaet Berlin |
| Nicolas W. Schuck; Max Planck Institute for Human Development |