Learning in Hierarchical Architectures: from Neuroscience to Derived Kernels
published: July 30, 2009, recorded: June 2009, views: 9027
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Description
Understanding the processing of information in our cortex is a significant part of understanding how the brain works, arguably one of the greatest problems in science today. In particular, our visual abilities are computationally amazing: computer science is still far from being able to create a vision engine that imitates them. Thus, visual cortex and the problem of the computations it performs may well be a good proxy for the rest of the cortex and for intelligence itself. I will briefly review our work on developing a hierarchical feedforward architecture for object recognition based on the anatomy and the physiology of the primate visual cortex. These architectures compete with state-of-the-art computer vision systems; they mimic human performance on a specific but difficult natural image recognition task. I will sketch current work aimed at extending the model to the recognition of behaviors in time sequences of images and to accounting for attentional effects inhuman vision. I will then describe a new attempt (with S. Smale, L. Rosasco and J. Bouvrie) to develop a mathematics for hierarchical kernel machines centered around the notion of a recursively defined "derived kernel" and directly suggested by the model and the underlying neuroscience of the visual cortex.
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