Stability of a basic biological neural circuit

Author

Hoang, D.B. ; James, M.

Author_Institution

Basser Dept. of Comput. Sci., Sydney Univ., NSW, Australia

Volume

4

fYear

1995

fDate

Nov/Dec 1995

Firstpage

1981

Abstract

Considers a basic biologically plausible neural circuit that employs supragranular self-gain, negative feedback via inhibitory infragranular neuron. Such circuitry has been used as fundamental building blocks in modular neural networks. The authors first examine the conditions for stability of a nonadaptive model of such a circuit. The authors then examine the adaptive model employing a modified BCM learning rule. The authors show that the adaptive loop is stable under interestingly simple and reasonable conditions relating the self-gain to the neuron time constants, the synaptic adaptation rates, and the loop gain. The result lays solid foundation for the investigation of more complex recurrent modular neural networks

Keywords

Jacobian matrices; feedback; learning (artificial intelligence); neural nets; physiological models; stability; basic biological neural circuit; biologically plausible neural circuit; inhibitory infragranular neuron; neuron time constants; nonadaptive model; recurrent modular neural networks; supragranular self-gain negative feedback; synaptic adaptation rates; Australia; Biological system modeling; Circuit stability; Computer science; Feedback circuits; Negative feedback; Negative feedback loops; Neural networks; Neurons; Recurrent neural networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Networks, 1995. Proceedings., IEEE International Conference on

Conference_Location

Perth, WA

Print_ISBN

0-7803-2768-3

Type

conf

DOI

10.1109/ICNN.1995.488975

Filename

488975