Optimal cue combination and landmark-stability learning in the head direction system

Jeffery, K. J. , Page, H. J. I. and Stringer, S. M. (2016) Optimal cue combination and landmark-stability learning in the head direction system. Journal of Physiology, 594(22), pp. 6527-6534. (doi: 10.1113/JP272945) (PMID:27479741)

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Maintaining a sense of direction requires combining information from static environmental landmarks with dynamic information about self-motion. This is accomplished by the head direction system, whose neurons – head direction cells – encode specific head directions. When the brain integrates information in sensory domains, this process is almost always ‘optimal’ – that is, inputs are weighted according to their reliability. Evidence suggests cue combination by head direction cells may also be optimal. The simplicity of the head direction signal, together with the detailed knowledge we have about the anatomy and physiology of the underlying circuit, therefore makes this system a tractable model with which to discover how optimal cue combination occurs at a neural level. In the head direction system, cue interactions are thought to occur on an attractor network of interacting head direction neurons, but attractor dynamics predict a winner-take-all decision between cues, rather than optimal combination. However, optimal cue combination in an attractor could be achieved via plasticity in the feedforward connections from external sensory cues (i.e. the landmarks) onto the ring attractor. Short-term plasticity would allow rapid re-weighting that adjusts the final state of the network in accordance with cue reliability (reflected in the connection strengths), while longer term plasticity would allow long-term learning about this reliability. Although these principles were derived to model the head direction system, they could potentially serve to explain optimal cue combination in other sensory systems more generally.

Item Type:Articles
Glasgow Author(s) Enlighten ID:Jeffery, Professor Kate
Authors: Jeffery, K. J., Page, H. J. I., and Stringer, S. M.
College/School:College of Medical Veterinary and Life Sciences > School of Psychology & Neuroscience
Journal Name:Journal of Physiology
ISSN (Online):1469-7793
Published Online:05 October 2016

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