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Neural characterization in partially observed populations of spiking neurons
Jonathan W Pillow · Peter E Latham

Thu Dec 06 09:30 AM -- 09:50 AM (PST) @

Point process encoding models provide powerful statistical methods for understanding the responses of neurons to sensory stimuli. Although these models have been successfully applied to responses of neurons in the early sensory pathway, they have fared less well as a models of responses in deeper brain areas, as they do not easily take into account multiple stages of processing. Here we introduce a new twist on this approach: we include unobserved as well as observed spike trains. This provides us with a more powerful model, and thus more flexibility in fitting data. More importantly, it allows us to estimate connectivity patterns among neurons (both observed and unobserved), and so should give insight into how networks process sensory input. We demonstrate the model on a simple toy network consisting of two neurons. The formalism, based on variational EM, can be easily extended to larger networks.

Author Information

Jonathan W Pillow (UT Austin)

Jonathan Pillow is an assistant professor in Psychology and Neurobiology at the University of Texas at Austin. He graduated from the University of Arizona in 1997 with a degree in mathematics and philosophy, and was a U.S. Fulbright fellow in Morocco in 1998. He received his Ph.D. in neuroscience from NYU in 2005, and was a Royal Society postdoctoral reserach fellow at the Gatsby Computational Neuroscience Unit, UCL from 2005 to 2008. His recent work involves statistical methods for understanding the neural code in single neurons and neural populations, and his lab conducts psychophysical experiments designed to test Bayesian models of human sensory perception.

Peter E Latham (Gatsby Unit, UCL)

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