The Joint Development of Orientation and Ocular Dominance: Role of Constraints
Abstract
Correlation-based learning (CBL) has been suggested as the mechanism that underlies the development of simple-cell receptive fields in the primary visual cortex of cats, including orientation preference (OR) and ocular dominance (OD) (Linsker, 1986; Miller, Keller, & Stryker, 1989). CBL has been applied successfully to the development of OR and OD individually (Miller, Keller, & Stryker, 1989; Miller, 1994; Miyashita & Tanaka, 1991; Erwin, Obermayer, & Schulten, 1995), but the conditions for their joint development have not been studied (but see Erwin & Miller, 1995, for independent work on the same question) in contrast to competitive Hebbian models (Obermayer, Blasdel, & Schulten, 1992). In this article, we provide insight into why this has been the case: OR and OD decouple in symmetric CBL models, and a joint development of OR and OD is possible only in a parameter regime that depends on nonlinear mechanisms.
Cite
Text
Piepenbrock et al. "The Joint Development of Orientation and Ocular Dominance: Role of Constraints." Neural Computation, 1997. doi:10.1162/NECO.1997.9.5.959Markdown
[Piepenbrock et al. "The Joint Development of Orientation and Ocular Dominance: Role of Constraints." Neural Computation, 1997.](https://mlanthology.org/neco/1997/piepenbrock1997neco-joint/) doi:10.1162/NECO.1997.9.5.959BibTeX
@article{piepenbrock1997neco-joint,
title = {{The Joint Development of Orientation and Ocular Dominance: Role of Constraints}},
author = {Piepenbrock, Christian and Ritter, Helge J. and Obermayer, Klaus},
journal = {Neural Computation},
year = {1997},
pages = {959-970},
doi = {10.1162/NECO.1997.9.5.959},
volume = {9},
url = {https://mlanthology.org/neco/1997/piepenbrock1997neco-joint/}
}