Topic: motion detection

Seminar
3 seminars
ePoster
1 ePoster

Latest

SeminarNeuroscienceRecording

Spatial summation for motion detection

Joshua Solomon
City, University of London
Nov 30, 2021
SeminarNeuroscienceRecording

Novel Object Detection and Multiplexed Motion Representation in Retinal Bipolar Cells

Alon Poleg-Polsky
Department of Physiology and Biophysics, University of Colorado School of Medicine
Jul 7, 2021

Detection of motion is essential for survival, but how the visual system processes moving stimuli is not fully understood. Here, based on a detailed analysis of glutamate release from bipolar cells, we outline the rules that govern the representation of object motion in the early processing stages. Our main findings are as follows: (1) Motion processing begins already at the first retinal synapse. (2) The shape and the amplitude of motion responses cannot be reliably predicted from bipolar cell responses to stationary objects. (3) Enhanced representation of novel objects - particularly in bipolar cells with transient dynamics. (4) Response amplitude in bipolar cells matches visual salience reported in humans: suddenly appearing objects > novel motion > existing motion. These findings can be explained by antagonistic interactions in the center-surround receptive field, demonstrate that despite their simple operational concepts, classical center-surround receptive fields enable sophisticated visual computations.

SeminarNeuroscienceRecording

A dynamical model of the visual cortex

Lai-Sang
Young Courant Institute
Jun 2, 2021

In the past several years, I have been involved in building a biologically realistic model of the monkey visual cortex. Work on one of the input layers (4Ca) of the primary visual cortex (V1) is now nearly complete, and I would like to share some of what I have learned with the community. After a brief overview of the model and its capabilities, I would like to focus on three sets of results that represent three different aspects of the modeling. They are: (i) emergent E-I dynamics in local circuits; (ii) how visual cortical neurons acquire their ability to detect edges and directions of motion, and (iii) a view across the cortical surface: nonequilibrium steady states (in analogy with statistical mechanics) and beyond.

ePosterNeuroscience

Learning hetero-synaptic delays of Spiking Neurons for motion detection

Antoine Grimaldi, Laurent Perrinet

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