Randomness and structure in neural representations for learning


February 27, 2018 - 12:00pm
Northwest Building, Room B103
About the Speaker
Ashok Litwin-Kumar
Speaker Title: 
Postdoctoral Fellow
Speaker Affiliation: 
Columbia University

Synaptic connectivity varies widely across neuronal types, from the hundreds of thousands of connections received by cerebellar Purkinje cells to the handful received by granule cells. In this talk, I will discuss recent work that addresses what determines the optimal number of connections for a given neuronal type and what this means for neural computation. The theory I will describe predicts optimal values for the number of inputs to cerebellar granule cells and Kenyon cells of the Drosophila mushroom body, shows that random wiring can be optimal for certain computations, and also provides a functional explanation for why the degrees of connectivity in cerebellum-like and cerebrocortical systems are so different. I will also discuss applications of the theory to an analysis of a complete electron-microscopy reconstruction of the larval Drosophila mushroom body and to recordings of cortical activity in mice performing a decision-making task. These analyses point toward new ways of analyzing neural data and provide a framework for understanding the neural representations that support learned behaviors.