Neuronal Tuning: To Sharpen or Broaden?
- 1 January 1999
- journal article
- Published by MIT Press in Neural Computation
- Vol. 11 (1), 75-84
- https://doi.org/10.1162/089976699300016809
Abstract
Sensory and motor variables are typically represented by a population of broadly tuned neurons. A coarser representation with broader tuning can often improve coding accuracy, but sometimes the accuracy may also improve with sharper tuning. The theoretical analysis here shows that the relationship between tuning width and accuracy depends crucially on the dimension of the encoded variable. A general rule is derived for how the Fisher information scales with the tuning width, regardless of the exact shape of the tuning function, the probability distribution of spikes, and allowing some correlated noise between neurons. These results demonstrate a universal dimensionality effect in neural population coding.Keywords
This publication has 11 references indexed in Scilit:
- The Effect of Correlated Variability on the Accuracy of a Population CodeNeural Computation, 1999
- Narrow Versus Wide Tuning Curves: What's Best for a Population Code?Neural Computation, 1999
- Statistically Efficient Estimation Using Population CodingNeural Computation, 1998
- Interpreting Neuronal Population Activity by Reconstruction: Unified Framework With Application to Hippocampal Place CellsJournal of Neurophysiology, 1998
- A neuronal population code for sound localizationNature, 1997
- Parameter Extraction from Population Codes: A Critical AssessmentNeural Computation, 1996
- Simple models for reading neuronal population codes.Proceedings of the National Academy of Sciences, 1993
- Discrimination thresholds for channel-coded systemsBiological Cybernetics, 1992
- Population coding of visual stimuli by cortical neurons tuned to more than one dimensionBiological Cybernetics, 1992
- A theory for the use of visual orientation information which exploits the columnar structure of striate cortexBiological Cybernetics, 1988