Anthony N. Burkitt
BSc Hon (ANU), BSc (ANU), PhD (Edin)
Assistant Director and Principal Research Fellow, The Bionic Ear Institute
Professor and Chair of Bio-Signals and Bio-Systems, Department of Electrical & Electronic Engineering, The University of MelbourneThe Bionic Ear Institute
384-388 Albert Street
East Melbourne VIC 3002
Australia
Ph: +61 3 9667 7529
Fax: +61 3 9667 7518
E-mail: aburkitt@bionicear.orgMy research interests are in the mathematical and computer modelling of neural systems, especially in relation to the auditory pathway. I am particularly concerned with investigating temporal information processing, which is the information that is carried by the timing of individual action potentials (spikes). The traditional view has been that the mean rate at which neurons fire provides an adequate description of the information that they convey. However, there are a number of instances within the nervous system where the temporal information contained in the timing of individual spikes plays an important role, most notably in the auditory system where spikes are correlated to the phase of low frequency sounds.
One aim of my research is to understand the mechanisms by which such temporal information is encoded and decoded through the interaction of systems of neurons. By analyzing the relationship between the synaptic input to a neuron and the spikes that it generates as output it is possible to address important questions about the extent to which temporal information can be processed by neurons. The physiological characteristics of neurons, which have particular time scales associated with their functioning (such as the membrane time constant and rise time), play an important role in determining what type of temporal information processing is possible. The models that I have been developing enable us to examine the roles of coincidence detection, inhibition, synchronization and spatiotemporal summation. This research has a direct application to cochlear implants, with the goal of effectively incorporating temporal information into the design of more optimal electrical stimulation strategies.
Publications (in journals)
Author: aburkitt@bionicear.org
Last Updated: Sunday September 23 2007