A neuromorphic approach to auditory pattern recognition in cricket phonotaxis

Author

Rost, Thomas ; Ramachandran, Harshawardhan ; Nawrot, Martin P. ; Chicca, Elisabetta

Author_Institution

Bernstein Center for Comput. Neurosci. Berlin, Freie Univ. Berlin, Berlin, Germany

fYear

2013

fDate

8-12 Sept. 2013

Firstpage

1

Lastpage

4

Abstract

Developing neuromorphic computing paradigms that mimic nervous system function is an emerging field of research with high potential for technical applications. In the present study we take inspiration from the cricket auditory system and propose a biologically plausible neural network architecture that can explain how acoustic pattern recognition is achieved in the cricket central brain. Our circuit model combines two key features of neural processing dynamics: Spike Frequency Adaptation (SFA) and synaptic short term plasticity. We developed and extensively tested the model function in software simulations. Furthermore, the feasibility of an analogue VLSI implementation is demonstrated using a multi-neuron chip comprising Integrate-and-Fire (IF) neurons and adaptive synapses.

Keywords

biology computing; brain models; hearing; neural nets; neurophysiology; pattern recognition; Integrate-and-Fire neurons; SFA; Spike Frequency Adaptation; acoustic pattern recognition; adaptive synapses; analogue VLSI implementation; auditory pattern recognition; circuit model; cricket auditory system; cricket central brain; cricket phonotaxis; model function; multineuron chip; nervous system function; neural network architecture; neural processing dynamics; neuromorphic computing paradigm; software simulations; synaptic short term plasticity; Adaptation models; Biological neural networks; Brain modeling; Hardware; Integrated circuit modeling; Neurons; Pattern recognition;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuit Theory and Design (ECCTD), 2013 European Conference on

Conference_Location

Dresden

Type

conf

DOI

10.1109/ECCTD.2013.6662247

Filename

6662247