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NECO
1998

Constrained Optimization for Neural Map Formation: A Unifying Framework for Weight Growth and Normalization

8 years 5 months ago
Constrained Optimization for Neural Map Formation: A Unifying Framework for Weight Growth and Normalization
three different levels of abstraction: detailed models including ctivity dynamics, weight dynamics that abstract from the neural activity dynamics by an adiabatic approximation, and constrained optimization from which equations governing weight dynamics can be derived. Constrained optimization uses an objective function, from which a weight growth rule can be derived as a gradient flow, and some constraints, from which normalization rules are derived. In this article, we present an example of how an optimization problem can be derived from detailed nonlinear neural dynamics. A systematic investigation reveals how different weight dynamics introduced previously can be derived from two types of objective function terms and two types of constraints. This includes dynamic link matching as a special case of neural map formation. We focus in particular on the role of coordinate transformations to derive different weight dynamics from the same optimization problem. Several examples illustrat...
Laurenz Wiskott, Terrence J. Sejnowski
Added 22 Dec 2010
Updated 22 Dec 2010
Type Journal
Year 1998
Where NECO
Authors Laurenz Wiskott, Terrence J. Sejnowski
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