Add to ORKGThis paper proposes a shape-based neurobiological approach for action recognition. Our work is motivated by the successful quantitative model for the organization of the shape pathways in primate visual cortex. In our approach the motion-salience region (MSR) is firstly extracted from the sequential silhouettes of an action. Then, the MSR is represented by simulating the static object representation in the ventral stream of primate visual cortex. Finally, a linear multi-class classifier is used to classify the action. Experiments on publicly available action datasets demonstrate the proposed approach is robust to partial occlusion and deformation of actors and has lower computational cost than the neurobiological models that simulate the mo...
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...
The visual recognition of complex movements and actions is crucial for communication and survival ...
International audienceMotion is a key feature for a wide class of computer vision approaches to reco...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
We present a biologically-motivated system for the recognition of actions from video sequences. The ...
We present a biologically-motivated system for the recognition of actions from video sequences. The ...
Humans can easily understand other people's actions through visual systems, while computers cannot. ...
<div><p>Humans can easily understand other people’s actions through visual systems, while computers ...
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...
Humans can easily understand other people’s actions through visual systems, while com-puters cannot....
Following the study on computational neuroscience through functional magnetic resonance imaging clai...
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...
The visual recognition of complex movements and actions is crucial for communication and survival ...
International audienceMotion is a key feature for a wide class of computer vision approaches to reco...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
We present a biologically-motivated system for the recognition of actions from video sequences. The ...
We present a biologically-motivated system for the recognition of actions from video sequences. The ...
Humans can easily understand other people's actions through visual systems, while computers cannot. ...
<div><p>Humans can easily understand other people’s actions through visual systems, while computers ...
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...
Humans can easily understand other people’s actions through visual systems, while com-puters cannot....
Following the study on computational neuroscience through functional magnetic resonance imaging clai...
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...
The visual recognition of complex movements and actions is crucial for communication and survival ...