Computations in the Vertebrate Retina: Gain Enhancement, Differentiation and Motion Discrimination

Author(s)

Koch, Christof; Poggio, Tomaso; Torre, Vincent

Additional downloads

AIM-914.pdf (1.068Mb)

Abstract

The vertebrate retina, which provides the visual input to the brain and its main interface with the outside world, is a very attractive model system for approaching the question of the information processing role of biological mechanisms of nerve cells. It is as yet impossible to provide a complete circuit diagram of the retina, but it is now possible to identify a few simple computations that the retina performs and to relate them to specific biophysical mechanisms and circuit elements. In this paper we consider three operations carried out by most retinae: amplification, temporal differentiation, and computation of the direction of motion of visual patterns.

Date issued

1986-09-01

URI

http://hdl.handle.net/1721.3/5515

Other identifiers

AIM-914

Series/Report no.

AIM-914

Keywords

direction selectivity, retina, biophysics of computation