Session Details
[P3]Poster: Day 3
Sun. Oct 19, 2025 12:45 PM - 3:00 PM JST
Sun. Oct 19, 2025 3:45 AM - 6:00 AM UTC
Sun. Oct 19, 2025 3:45 AM - 6:00 AM UTC
KOMCEE-B1(KOMCEE-B1)
[P3-01]Perceiving Time in Sleep: Links between Misperception, REM Sleep, and Depressivity in Insomnia
*Jana Koprivova1,2, Julie Siskova1, Karolina Janku1 (1. National Institute of Mental Health, Klecany (Czech Republic), 2. Third Faculty of Medicine, Charles University, Prague (Czech Republic))
[P3-02]Implicit, but not explicit, timing is perturbed in schizophrenia
*Jennifer T Coull1, Laurie Ladame1, Mounira Taghdouini Kaddour1, Tiffanie Zemour1, Hélène Wilquin1 (1. Centre for Research in Psychology & Neuroscience, CNRS & Aix-Marseille University (France))
[P3-03]A Deep Reinforcement Learning Approach to Modeling Rat Behavior in Peak Interval Procedure
*S. Ruiz de Aguirre1, Gloria Ochoa-Zendejas2, Jonathan Buriticá2 (1. Independent (Mexico), 2. Lab. of Cognition and Comparative Learning, Univ. of Guadalajara-CEIC, Guadalajara (Mexico))
[P3-04]Complex impact of stimulus envelope on motor synchronization to sound
*Yue Sun1,2, Georgios Michalareas1,2,3, Oded Ghitza4, David Poeppel3,5,6 (1. Cooperative Brain Imaging Center (CoBIC), Goethe University Frankfurt (Germany), 2. Ernst Strüngmann Institute for Neuroscience (Germany), 3. Max Planck Institute for Empirical Aesthetics (Germany), 4. Department of Biomedical Engineering & Hearing Research Center, Boston University (United States of America), 5. Department of Psychology, New York University (United States of America), 6. Center for Language, Music, and Emotion (CLaME) (United States of America))
[P3-05]Two topological axes for temporo-spatial processing in visuomotor control
*Christian A. Kell1, Christina Nissen1 (1. Goethe University (Germany))
[P3-06]Entrainment in Low- and High-Level Ventral Visual Regions Does Not Affect Temporal Overestimations
*Amirmahmoud Houshmand Chatroudi1,2, Yuko Yotsumoto1 (1. The University of Tokyo (Japan), 2. Sony Computer Sciences Laboratories (Japan))
[P3-07]Top-Down Control of Alpha-Band Phase as a Mechanism of Interval Temporal Prediction: Direct Test and Preliminary Evidence
*Christina Bruckmann1,2, Assaf Breska1 (1. Max Planck Institute for Biological Cybernetics (Germany), 2. University of Tübingen (Germany))
[P3-08]Aging effect on temporal processing: an ongoing study on retrospective timing and spontaneous oscillatory bursts.
*Florentine Fricker1, Giulia Buzi1, Maëlys Morantin1, Franck Doidy1, Patrice Clochon1, Raphaël Bordas2, Virginie van Wassenhove2, Thomas Hinault1 (1. Université de Caen Normandie, INSERM, EPHE-PSL, PSL University, CHU de Caen, GIP Cyceron, U1077, NIMH, 14000 Caen, France. (France), 2. Cognitive Neuroimaging Unit, INSERM, CEA, Université Paris-Saclay, NeuroSpin, 91191 Gif/Yvette, France. (France))
[P3-09]Neural Oscillatory Entrainment in Non-Deterministic Continuous Environments, decoupled from Bayesian Interval Learning
*Elmira Hosseini1,2, Assaf Breska1 (1. Max-Planck Institute for Biological Cybernetics (Germany), 2. Tübingen University (Germany))
[P3-10]Perceived time shapes the course of physical fatigue
*Pierre-Marie Matta1,2,3, Robin Baurès1,2, Julien Duclay1,3, Andrea Alamia1,2 (1. University of Toulouse (France), 2. Centre de Recherche Cerveau et Cognition, CNRS (France), 3. Toulouse NeuroImaging Center, INSERM (France))
[P3-11]Sequential Brain Activity for subsecond-lagged Sensory and Motor events: Investigation using Temporal High-Resolution fMRI at 9.4 Tesla
*Nikolas Philipp Klein1,2, Sebastian Mueller2, Klaus Scheffler2,3, Assaf Breska1 (1. Research Group Cognitive Neuroscience of Dynamic Cognition, Max Planck Institute for Biological Cybernetics (Germany), 2. Department High-field Magnetic Resonance , Max Planck Institute for Biological Cybernetics (Germany), 3. Deparment of Biomedical Magnetic Resonance, Eberhard Karls University Tuebingen (Germany))
[P3-12]The effect of temporal regularity on neural activity during perceptual and motor timing
*Mitsuki Niida1, Kenji Ogawa1 (1. Hokkaido University (Japan))
[P3-13]Time on my hands: Examination of overlapping rhythmic synchronization mechanisms across sensory modalities
*Chloe Mondok1, Martin Wiener1 (1. George Mason University (United States of America))
[P3-14]Impact of Retrosplenial Cortex Resection on Temporal Estimation in CD1 Mice
*Tania Campos-Ordoñez1, Marielena Eudave-Patiño2,3, Emmanuel Alcalá2, Jonathan Buriticá2 (1. Departamento de Biología Celular y Molecular, Centro Universitario de Ciencias Biológicas y Agropecuarias, Universidad de Guadalajara (Mexico), 2. Centro de Estudios e Investigaciones en Comportamiento, Universidad de Guadalajara (Mexico), 3. Universidad Autónoma de Aguascalientes (Mexico))
[P3-15]Statistical analysis of small-integer ratios in bioacoustics and music
*Yannick Jadoul1, Tommaso Tufarelli, Chloé Coissac1, Marco Gamba2, Andrea Ravignani1,3,4 (1. Department of Human Neurosciences, Sapienza University of Rome, Rome (Italy), 2. Department of Life Sciences and Systems Biology, University of Turin, Turin (Italy), 3. Center for Music in the Brain, Department of Clinical Medicine, Aarhus University, Aarhus (Denmark), 4. Research Center of Neuroscience “CRiN-Daniel Bovet”, Sapienza University of Rome, Rome (Italy))
[P3-16]Rat Model of Schizophrenia: A Comparative Study of NMDA Antagonists Using the Peak Interval Task
*Veronika Rudolfová1,2, Kristýna Malenínská1,3, Štěpán Wenke1,4, Anastasia Popova1, Tereza Nekovářová1,2 (1. National Institute of Mental Health, Topolová 748, 250 67, Klecany (Czech Republic), 2. Faculty of Science, Charles University, Department of Zoology, Viničná 7, 128 44, Prague (Czech Republic), 3. Czech Academy of Sciences, Institute of Physiology, Vídeňská 1083, 142 20, Prague (Czech Republic), 4. Aging Research Center, Department of Neurobiology, Care Sciences and Society, Karolinska Institutet, Stockholm (Sweden))
[P3-17]Strategic use of temporal cues (timing) in reversal learning: A comparative study in CD1 and C57BL/6 mice
*Jonathan Buritica1, Ana Patricia Orozco Coles1, Tania Campos Ordoñez2 (1. Universidad de Guadalajara (Mexico), 2. 2.Departamento de Biología Celular y Molecular, Centro Universitario de Ciencias Biológicas y Agropecuarias. Universidad de Guadalajara, México (Mexico))
[P3-18]Rock with Me: How Social Interaction Shapes Spontaneous Motor Tempo in Baboons’ stone rubbing
*Siham Bouziane1, Anne Bobin-Bègue3, Jennifer T Coull1, Adrien Meguerditchian1,2 (1. Centre de Recherche en Psychologie et Neurosciences (France), 2. Station de Primatologie-Celphedia UAR846 CNRS - Rousset France (France), 3. Laboratoire Éthologie Cognition Développement, Paris-Nanterre, France (France))
[P3-19]The effect of visual perceptual load on EEG and behavioural measures of sensory time perception in vision and audition
*Keying Wang1, Nilli Lavie1 (1. University College London (UK))
[P3-20]Temporal Jitter in Music Reveals Robust Early Stream Formation and Enhanced Attentional Selection via Attention Recruitment
*Shu Sakamoto1,2, Emily Wood1,2, Harris Miller1, Ellia Baines1, Kevin Yang1, Lily Eshraghi1, Laurel J. Trainor1,2 (1. Department of Psychology, Neuroscience, and Behavior, McMaster University (Canada), 2. McMaster Institute of Music and the Mind (Canada))
[P3-21]Valence and arousal lengthen time for subsequent neutral events
*Nedim Goktepe1, Müge Cavdan2, Knut Drewing2 (1. INM- Leibniz Institute for New Materials (Germany), 2. Department of Psychology Justus-Liebig-University Giessen (Germany))
[P3-22]What do the eyes tell us about emotional temporal distortion? An exploratory study
*Luigi Micillo1, Mariagrazia Capizzi2,3, Andrea Zangrossi1, Giovanna Mioni1 (1. Department of General Psychology - University of Padova (Italy), 2. Department of Experimental Psychology - University of Granada (Spain), 3. Mind, Brain and Behavior Research Center (CIMCYC) - University of Granada (Spain))
[P3-23]Auditory Object Formation in Temporally Complex Acoustic Scenes
*Berfin Bastug1,2,3, Yue Sun1,5, Erich Schröger2,3, David Poeppel2,4 (1. Ernst Strüngmann Institute for Neuroscience, Frankfurt am Main (Germany), 2. Max Planck School of Cognition (Germany), 3. Wilhelm-Wundt-Institute of Psychology, Leipzig University, Leipzig (Germany), 4. New York University, New York (United States of America), 5. Cooperative Brain Imaging Center (CoBIC), Goethe University Frankfurt (Germany))
[P3-24]Effect of Image Compressibility and Internal Model on Time Perception (Data Collection Forthcoming)
*Maxim Zewe1, Domenica Bueti1, Eugenio Piasini1 (1. International School for Advanced Studies (SISSA) (Italy))
[P3-25]Reference Frame Effects on Non-Spatial Tactile Decisions: Evaluation with a Drift Diffusion Model
*Naoya Tachibana1, Yuko Yotsumoto1 (1. University of Tokyo (Japan))
[P3-26]Postdictive suppression of visible stimuli in backward masking: Dissociation between initial and postdictive perception
*Shosuke Nishimoto1 (1. The University of Tokyo (Japan))
[P3-27]Indifference Interval and Central Tendency in Temporal Reproduction: A Comparative Study of Auditory and Visual Modalities
*Kristýna Malenínská1, Veronika Rudolfová1,2, Kateřina Dorflová1,3, Tereza Nekovářová1,2 (1. National Institute of Mental Health, Topolová 748, 250 67, Klecany (Czech Republic), 2. Faculty of Science, Charles University, Department of Zoology, Viničná 7, Prague (Czech Republic), 3. Third Faculty of Medicine, Charles University, Ruská 87, Prague (Czech Republic))
[P3-28]Simulated Gravitational Physics Shapes Time Perception in Virtual Reality
*Amir Jahanian-Najafabadi1, Carolyn Kroger2, Ningyuan Sun3, Jean Botev3, Christoph Kayser1 (1. Department of Cognitive Neuroscience, Bielefeld University (Germany), 2. Kresge Hearing Research Institute, Department of Otolaryngology - Head and Neck Surgery, University of Michigan (United States of America), 3. VR/AR Lab, Department of Computer Science, University of Luxembourg, Esch-sur-Alzette (Luxembourg))
[P3-29]Warped videos, twisted time: The cognitive impact of altered playback speeds
*Judit Castellà1, Elsa Ferrer1, Estefanía Rajó1, Diana Ruano1, Laura Serra1 (1. Autonomous University of Barcelona UAB (Spain))
[P3-30]Effects of non-temporal auditory features on timing judgments in healthy adults and cochlear-implant users
*Carolyn Kroger1, Deborah R. Fu1, Renee Banakis Hartl1, Ruth Y. Litovsky2, Anahita H. Mehta1 (1. University of Michigan (United States of America), 2. University of Wisconsin - Madison (United States of America))
[P3-31]L-Dopa and STN-DBS modulate the neural encoding of rhythmic auditory stimulation in Parkinson’s
*Antonio Criscuolo1, Michael Schwartze1, Sonja Kotz1,2 (1. Maastricht University (Netherlands), 2. Max Planck Institute for Human Cognitive and Brain Sciences (Germany))
[P3-32]From slow motion to time lapse – Exploring biases elicited by altered video speed
*Laura Sperl1, Alex O. Holcombe2, Roman Liepelt1 (1. FernUniversität in Hagen (Germany), 2. The University of Sydney (Australia))
[P3-33]EEG reveals how space acts as a late heuristic of timekeeping
*Fabrizio Doricchi1,2, Sara Lo Presti1,2, Stefano Lasaponara1,2, Massimo Silvetti3 (1. Universita' La Sapienza - Roma (Italy), 2. Fondazione Santa Lucia IRCCS - Roma (Italy), 3. Institute of Cognitive Sciences and Technologies, National Research Council (CNR) - Italy (Italy))
[P3-34]Lag adaptation and Bayesian calibration in tactile simultaneity perception
*Kyuto Uno1, Kaoru Amano1 (1. The University of Tokyo (Japan))
[P3-35]The modulating role of saccadic and oculomotor behavior during a temporal reproduction task
*Khaled Bagh1, Christoph Kayser1, Amir Jahanian Najafabadi1 (1. Bielefeld University (Germany))
[P3-36]Perceptual timing precision in complex sound sequences is shaped by context-target similarity
*Charlotte M. Mock1,2,3, Leon Ilge1,4, Yulia Oganian1,2,3 (1. Centre for Integrative Neuroscience, University Medical Center Tübingen (Germany), 2. International Max Planck Research School for The Mechanisms of Mental Function and Dysfunction (Germany), 3. Graduate Training Centre of Neuroscience Tübingen (Germany), 4. Department of Biology, University of Tübingen (Germany))
[P3-37]Timing in peripersonal space beyond internal clock model
*Haeran Jeong1,2 (1. University of Turku (Finland), 2. Heinrich Heine University Düsseldorf (Germany))
[P3-38]Sensory–motor mirror neurons in the basal ganglia support temporally precise song imitation in Bengalese finches.
*Yuka Suzuki1,2, Hiroki, Koda1, Kazuo Okanoya2, & Shin Yanagihara2 (1: The University of Tokyo, Japan, 2: Teikyo University, Japan)
[P3-39]Vocal timing and social affiliation: A comparative study in rats of same and different strains.
*Miki Kamatani¹,²,³, Shiomi Hakataya³,⁴, Genta Toya⁵, Shinya Yamamoto¹, Kazuo Okanoya²,⁶ (¹Kyoto University, ²Teikyo University, ³Research Fellow, Japan Society for the Promotion of Science, ⁴University of the Ryukyus, ⁵Institute of Science Tokyo, ⁶The University of Tokyo)
[P3-40]Tracking vocal turn-taking and inter-brains synchrony in human interactions
*Mami Terao1, Kazuo Okanoya1,2 (1. Teikyo University, 2. The University of Tokyo)