Title :
Recreating neural oscillators in VLSI
Author_Institution :
Dept. of Electr. & Comput. Eng., Maine Univ., Orono, ME, USA
Abstract :
As a prelude to a VLSI implementation of a biologically-based neuronal locomotor network, the phenomena of reciprocal inhibition and recurrent cyclic inhibition were recreated in VLSI-based artificial neurons for parametric analysis of oscillatory range and stability. The artificial neurons used in this study are behaviorally comprehensive and highly configurable, allowing for a variety of transient and steady characteristics to be precisely and continuously adjustable. Circuit tests on both oscillatory phenomena indicate that reciprocal inhibition between two neurons requires a measure of synaptic dynamics, while the recurrent cyclic inhibitory prototypes did not. In addition, the cyclic prototypes demonstrated remarkable stability, even when the frequency of self-excitation of each component neuron varied over two orders of magnitude
Keywords :
VLSI; neural chips; oscillators; VLSI implementation; biologically-based neuronal locomotor network; circuit tests; neural oscillators recreation; oscillatory range; oscillatory stability; parametric analysis; reciprocal inhibition; recurrent cyclic inhibition; self-excitation frequency; Biomembranes; Circuit stability; Circuit testing; Fatigue; Intelligent networks; Neurons; Oscillators; Prototypes; Signal synthesis; Very large scale integration;
Conference_Titel :
Bioengineering Conference, 1994., Proceedings of the 1994 20th Annual Northeast
Conference_Location :
Springfield, MA
Print_ISBN :
0-7803-1930-3
DOI :
10.1109/NEBC.1994.305175
