Title :
Stability of a basic biological neural circuit
Author :
Hoang, D.B. ; James, M.
Author_Institution :
Basser Dept. of Comput. Sci., Sydney Univ., NSW, Australia
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;
Conference_Titel :
Neural Networks, 1995. Proceedings., IEEE International Conference on
Conference_Location :
Perth, WA
Print_ISBN :
0-7803-2768-3
DOI :
10.1109/ICNN.1995.488975
