论文信息 - Towards a Theory of Early Visual Processing

Towards a Theory of Early Visual Processing

We propose a theory of the early processing in the mammalian visual pathway. The theory is formulated in the language of information theory and hypothesizes that the goal of this processing is to recode in order to reduce a generalized redundancy subject to a constraint that specifies the amount of average information preserved. In the limit of no noise, this theory becomes equivalent to Barlow's redundancy reduction hypothesis, but it leads to very different computational strategies when noise is present. A tractable approach for finding the optimal encoding is to solve the problem in successive stages where at each stage the optimization is performed within a restricted class of transfer functions. We explicitly find the solution for the class of encodings to which the parvocellular retinal processing belongs, namely linear and nondivergent transformations. The solution shows agreement with the experimentally observed transfer functions at all levels of signal to noise.

[1] C. E. SHANNON,et al. A mathematical theory of communication , 1948, MOCO.

[2] C. Enroth-Cugell,et al. The contrast sensitivity of retinal ganglion cells of the cat , 1966, The Journal of physiology.

[3] A. M. Uttley,et al. Information transmission in the nervous system , 1979 .

[4] S. Laughlin,et al. Predictive coding: a fresh view of inhibition in the retina , 1982, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[5] Professor Dr. Guy A. Orban. Neuronal Operations in the Visual Cortex , 1983, Studies of Brain Function.

[6] Ralph Linsker,et al. Self-organization in a perceptual network , 1988, Computer.

[7] Ralph Linsker,et al. An Application of the Principle of Maximum Information Preservation to Linear Systems , 1988, NIPS.

[8] Daniel M. Kammen,et al. Correlations in high dimensional or asymmetric data sets: Hebbian neuronal processing , 1991, Neural Networks.

[9] Ralph Linsker,et al. Local Synaptic Learning Rules Suffice to Maximize Mutual Information in a Linear Network , 1992, Neural Computation.

[10] Zhaoping Li,et al. Understanding Retinal Color Coding from First Principles , 1992, Neural Computation.

[11] Joseph J. Atick,et al. What Does the Retina Know about Natural Scenes? , 1992, Neural Computation.