Letters to Nature

Nature 430, 682-686 (5 August 2004) | doi:10.1038/nature02768; Received 25 February 2004; Accepted 18 June 2004

Optimal neural population coding of an auditory spatial cue

Nicol S. Harper1,2 & David McAlpine1

  1. Department of Physiology and UCL Ear Institute, University College London, London WC1E 6BT, UK
  2. CoMPLEX, University College London, London WC1E 6BT, UK

Correspondence to: David McAlpine1 Email: d.mcalpine@ucl.ac.uk

A sound, depending on the position of its source, can take more time to reach one ear than the other. This interaural (between the ears) time difference (ITD) provides a major cue for determining the source location1, 2. Many auditory neurons are sensitive to ITDs3, 4, but the means by which such neurons represent ITD is a contentious issue. Recent studies question whether the classical general model (the Jeffress model5) applies across species6, 7. Here we show that ITD coding strategies of different species can be explained by a unifying principle: that the ITDs an animal naturally encounters should be coded with maximal accuracy. Using statistical techniques and a stochastic neural model, we demonstrate that the optimal coding strategy for ITD depends critically on head size and sound frequency. For small head sizes and/or low-frequency sounds, the optimal coding strategy tends towards two distinct sub-populations tuned to ITDs outside the range created by the head. This is consistent with recent observations in small mammals6, 7. For large head sizes and/or high frequencies, the optimal strategy is a homogeneous distribution of ITD tunings within the range created by the head. This is consistent with observations in the barn owl8, 9, 10. For humans, the optimal strategy to code ITDs from an acoustically measured distribution depends on frequency; above 400 Hz a homogeneous distribution is optimal, and below 400 Hz distinct sub-populations are optimal.


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