| 1 |
Alex Baranski |
Okinawa Institute of Science and Technology |
Generating Adaptive Behavior By A Self-Mutating Search Process |
| 2 |
May Kristine Carlon |
RIKEN Center for Brain Science |
Integrating Multimodal MRI Data with Graph Neural Networks for Latent Representation Discovery |
| 3 |
Sudesna Chakraborty |
Aoyama Gakuin University |
Multimodal gradients of basal forebrain connectivity across the neocortex |
| 4 |
Konstantin Demin |
RIKEN Center for Brain Science |
Perspectives on engineering sentience |
| 5 |
Sebastian Eydam |
RIKEN Center for Brain Science |
Initiating Seizures in Attractor Networks: Routes to Seizure Activity |
| 6 |
Yoshiaki Horiike |
Nagoya University |
Human brain function and structure through probability flux |
| 7 |
KunLin Hsieh |
University of Tokyo |
Behavior-Dependent Modulation of Central Amygdala Activity by Brainstem Breathing Centers |
| 8 |
Hiroyuki Iizuka |
Hokkaido University |
The Emergence of Intentions Through Self-Other Superposition Using Deep Learning Approach |
| 9 |
Takuya Isomura |
RIKEN Center for Brain Science |
Reverse engineering of generative models |
| 10 |
Tomoki Kurikawa |
Future University Hakodate |
Speed of learning linked to spontaneous neural activity |
| 11 |
Hildelith Leyser |
McGill University |
Beyond the Individual Brain: Interpersonal Neural Dynamics in Primate Decision-Making |
| 12 |
Bin Li |
University of Tokyo |
A Study with Voltage Dependent Theta Neuron Model and LowRank Connectivity in Go-Nogo Tasks toward Biologically Plausible RNNs |
| 13 |
Wanying Li |
Waseda University |
Impact of CRMP2 phosphorylation inhibition on microglia morphology in the early stage of Alzheimer’s disease model mouse |
| 14 |
Krishna Mahapatra |
Vellore Institute of Technology |
Mathematical Modelling and ML for Disease Classification |
| 15 |
Kento Nakamura |
RIKEN Center for Brain Science |
Synaptic fluctuation induces representational drift while preserving discriminability |
| 16 |
Asahi Nakamuta |
Kyoto University |
High-dimensional neural activity self-organized in culture |
| 17 |
Wataru Ohata |
Okinawa Institute of Science and Technology |
Investigation of the Sense of Agency in Human–Robot Interaction Based on the Free Energy Principle |
| 18 |
Henrique Oyama |
Okinawa Institute of Science and Technology |
A Computational Framework for Focus-Mind Wandering Modes of Operation under the Free Energy Principle |
| 19 |
Satyasambit Rath |
RIKEN Center for Brain Science |
Prefrontal cell type specific population coding of emotional control |
| 20 |
Fumiaki Sato |
RIKEN Center for Brain Science |
Does sleep contribute to reshaping visual recognition? |
| 21 |
Vladislav Sekulic |
RIKEN Center for Brain Science |
Plasticity and learning in a computational network model of dendritic calcium-evoked bursting neurons |
| 22 |
Yoshiki Sugimoto |
Doshisha University |
The Interplay between Neural Network Structure and Self-organized Criticality in the Brain |
| 23 |
Xiyang Sun |
RIKEN Center for Brain Science |
Inferring community architectures of multisensory pathways in Drosophila via unsupervised network embedding |
| 24 |
Daigo Takeuchi |
University of Tokyo |
Adaptative changes in LFP responses to visual categories in laminar circuits of marmoset inferotemporal cortex |
| 25 |
Theodore Tinker |
Okinawa Institute of Science and Technology |
Intrinsic Rewards Based on the Free Energy Principle |
| 26 |
Takehiro Tottori |
RIKEN Center for Brain Science |
Optimal Filtering and Control Strategies for Biological Systems with Computational Limitations |
| 27 |
Kyohei Ueda |
National Institute of Basic Biology |
Subjective Color Modeled in Predictive Signaling of Artificial Neural Networks |
| 28 |
Yutaro Ueoka |
University of Tokyo |
Real-cyber hybrid neural network for predicting neural circuits in mouse decision-making |
| 29 |
Junxia Wang |
RIKEN Center for Brain Science |
The effect of reconstruction error on image memory in people with aphantasia |
| 30 |
Kensuke Yoshida |
RIKEN Center for Brain Science |
A theoretical model of schema learning during sleep |
