Add to ORKGWe propose V1 and MT functional models for biological motion recognition. Our V1 model transforms a video stream into spike trains through local motion detectors. The spike trains are the inputs of a spiking MT network. Each entity in the MT network corresponds to a simplified model of an MT cell. From the spike trains of MT cells a motion map of velocity distribution is built representing a sequence. Biological plausibility of both models is discused in detail in the paper. In order to show the efficiency of these models, the motion maps here obtained are used in the biological motion recognition task. We ran the experiments using two databases Giese and Weizmann, containing two (march, walk) and ten (e.g., march, jump, run) different clas...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
This thesis addresses the study of the motion perception in mammals and how bio-inspired systems can...
We propose V1 and MT functional models for biological motion recognition. Our V1 model transforms a ...
We propose V1 and MT functional models for biological motion recognition. Our V1 model transforms a ...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
This thesis addresses the study of the motion perception in mammals and how bio-inspired systems can...
We propose V1 and MT functional models for biological motion recognition. Our V1 model transforms a ...
We propose V1 and MT functional models for biological motion recognition. Our V1 model transforms a ...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
We propose a bio-inspired feedforward spiking network modeling two brain areas dedicated to motion (...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceWe propose a bio-inspired feedforward spiking network modeling two brain areas...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
International audienceHere we show that reproducing the functional properties of MT cells with vario...
This thesis addresses the study of the motion perception in mammals and how bio-inspired systems can...