TY - GEN
T1 - FPGA implementation of the CAR model of the cochlea
AU - Thakur, Chetan Singh
AU - Hamilton, Tara Julia
AU - Tapson, Jonathan
AU - Schaik, André van
AU - Lyon, Richard F.
PY - 2014
Y1 - 2014
N2 - ![CDATA[The front end of the human auditory system, the cochlea, converts sound signals from the outside world into neural impulses transmitted along the auditory pathway for further processing. The cochlea senses and separates sound in a nonlinear active fashion, exhibiting remarkable sensitivity and frequency discrimination. Although several electronic models of the cochlea have been proposed and implemented, none of these are able to reproduce all the characteristics of the cochlea, including large dynamic range, large gain and sharp tuning at low sound levels, and low gain and broad tuning at intense sound levels. Here, we implement the 'Cascade of Asymmetric Resonators' (CAR) model of the cochlea on an FPGA. CAR represents the basilar membrane filter in the 'Cascade of Asymmetric Resonators with Fast-Acting Compression' (CAR-FAC) cochlear model. CAR-FAC is a neuromorphic model of hearing based on a pole-zero filter cascade model of auditory filtering. It uses simple nonlinear extensions of conventional digital filter stages that are well suited to FPGA implementations, so that we are able to implement up to 1224 cochlear sections on Virtex-6 FPGA to process sound data in real time. The FPGA implementation of the electronic cochlea described here may be used as a front-end sound analyser for various machine-hearing applications.]]
AB - ![CDATA[The front end of the human auditory system, the cochlea, converts sound signals from the outside world into neural impulses transmitted along the auditory pathway for further processing. The cochlea senses and separates sound in a nonlinear active fashion, exhibiting remarkable sensitivity and frequency discrimination. Although several electronic models of the cochlea have been proposed and implemented, none of these are able to reproduce all the characteristics of the cochlea, including large dynamic range, large gain and sharp tuning at low sound levels, and low gain and broad tuning at intense sound levels. Here, we implement the 'Cascade of Asymmetric Resonators' (CAR) model of the cochlea on an FPGA. CAR represents the basilar membrane filter in the 'Cascade of Asymmetric Resonators with Fast-Acting Compression' (CAR-FAC) cochlear model. CAR-FAC is a neuromorphic model of hearing based on a pole-zero filter cascade model of auditory filtering. It uses simple nonlinear extensions of conventional digital filter stages that are well suited to FPGA implementations, so that we are able to implement up to 1224 cochlear sections on Virtex-6 FPGA to process sound data in real time. The FPGA implementation of the electronic cochlea described here may be used as a front-end sound analyser for various machine-hearing applications.]]
KW - cochlea
KW - digital filters
KW - field programmable gate arrays
KW - resonators
UR - http://handle.uws.edu.au:8081/1959.7/565488
UR - http://iscas2014.org/
U2 - 10.1109/ISCAS.2014.6865519
DO - 10.1109/ISCAS.2014.6865519
M3 - Conference Paper
SN - 9781479934324
SP - 1853
EP - 1856
BT - 2014 IEEE International Symposium on Circuits and Systems, ISCAS 2014: Proceedings, Melbourne, Vic., 1-5 June 2014
PB - IEEE
T2 - IEEE International Symposium on Circuits and Systems
Y2 - 1 June 2014
ER -