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Change-based population coding

Moazzezi, R.; (2011) Change-based population coding. Doctoral thesis , UCL (University College London). Green open access

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One standard interpretation of networks of cortical neurons is that they form dynamical attractors. Computations such as stimulus estimation are performed by mapping inputs to points on the networks’ attractive manifolds. These points represent population codes for the stimulus values. However, this standard interpretation is hard to reconcile with the observation that the firing rates of such neurons constantly change following presentation of stimuli. Furthermore, these population codes are not robust to both dynamical noise and synaptic noise and learning the corresponding weight matrices has never been demonstrated which seriously limits the extent of their application. In this thesis, we address this problem in the context of an invariant discrimination task. We suggest an alternative view, in which computations that are performed over the course of the transient evolution of a recurrently-connected network are read out by monitoring the change in a readily computed statistic of the activity of the network. Such changes can be inherently invariant to irrelevant dimensions of variability in the input, a critical capacity for many tasks. We illustrate these ideas using a well-studied visual hyperacuity task, in which the computation is required to be invariant to the overall retinal location of the input. We show a class of networks based on a wide variety of recurrent interactions that perform nearly as well as an ideal observer for the task, and are robust to significant levels of noise. We also show that this way of performing computations is fast, accurate, readily learnable and robust to various forms of noise.

Type: Thesis (Doctoral)
Title: Change-based population coding
Open access status: An open access version is available from UCL Discovery
Language: English
UCL classification: UCL > Provost and Vice Provost Offices > School of Life and Medical Sciences > Faculty of Life Sciences > Gatsby Computational Neurosci Unit
URI: https://discovery.ucl.ac.uk/id/eprint/1318095
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