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Noise- and stimulus-dependence of the optimal encoding nonlinearities in a simple ON/OFF retinal circuit model
BMC Neuroscience volume 15, Article number: P47 (2014)
Encoding of stimuli in the retina depends on the statistical properties of the input stimuli, neural noise, and circuit nonlinearities. Here, we present a simple model of a two-path ON/OFF RGC circuit (figure 1A). We use variational methods to analytically calculate the optimal encoding nonlinearities in the presence of noise sources with two key biophysical properties: they have separate components that corrupt the stimulus (pre-nonlinearity) and the responses (post-nonlinearity), and they may be correlated across cells. We study qualitatively the effects of the competition between the stimulus and noise sources on the form of the encoding nonlinearities. We find that when both pre- and post-nonlinearity noises are low, the ON and OFF pathways each encode roughly half of the stimulus distribution (figure 1B). However, the optimal nonlinearities rearrange at higher noise levels, introducing redundancy in signal encoding (figure 1C). For very large post-nonlinearity noise, the best the circuit can do is encode the sign of the received stimulus (figure 1D). The results of related studies are consistent with behavior observed in specific parameter regimes of the broad framework encompassed by this model [1, 2].
References
Pitkow X, Meister M: Decorrelation and efficient coding by retinal ganglion cells. Nat. Neuro. 2012, 15: 628-638. 10.1038/nn.3064.
Karklin Y, Simoncelli EP: Efficient coding of natural images with a population of noisy Linear-Nonlinear neurons. Advances in neural information processing systems. 2011, 24: 999-1007.
Acknowledgements
Support provided by the Sackler Scholar Program in Integrative Biophysics (BAWB), CRCNS grant DMS-1208027 (ESB, FR), NIH grant EY11850 (FR), HHMI (FR).
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Brinkman, B.A.W., Weber, A., Rieke, F. et al. Noise- and stimulus-dependence of the optimal encoding nonlinearities in a simple ON/OFF retinal circuit model. BMC Neurosci 15 (Suppl 1), P47 (2014). https://doi.org/10.1186/1471-2202-15-S1-P47
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DOI: https://doi.org/10.1186/1471-2202-15-S1-P47