On Decoding the Responses of a Population of Neurons from Short Time Windows

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On Decoding the Responses of a Population of Neurons from Short Time Windows

Stefano Panzeri

Neural Systems Group, Department of Psychology, University of Newcastle upon Tyne, Newcastle upon Tyne NE1 7RU, U.K.

Alessandro Treves

SISSA—Programme in Neuroscience, 34013 Trieste, Italy

Simon Schultz

University of Oxford, Department of Experimental Psychology, Oxford OX1 3UD, U.K.

Edmund T. Rolls

University of Oxford, Department of Experimental Psychology, Oxford OX1 3UD, U.K.

The effectiveness of various stimulus identification (decoding)procedures for extracting the information carried by the responsesof a population of neurons to a set of repeatedly presentedstimuli is studied analytically, in the limit of short timewindows. It is shown that in this limit, the entire informationcontent of the responses can sometimes be decoded, and whenthis is not the case, the lost information is quantified. Inparticular, the mutual information extracted by taking intoaccount only the most likely stimulus in each trial turns outto be, if not equal, much closer to the true value than thatcalculated from all the probabilities that each of the possiblestimuli in the set was the actual one. The relation betweenthe mutual information extracted by decoding and the percentageof correct stimulus decodings is also derived analytically inthe same limit, showing that the metric content index can beestimated reliably from a few cells recorded from brief periods.Computer simulations as well as the activity of real neuronsrecorded in the primate hippocampus serve to confirm these resultsand illustrate the utility and limitations of the approach.

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