Optimization principles for the neural code

Recent experiments show that the neural codes at work in a wide range of creatures share some common features. At first sight, these observations seem unrelated. However, we show that these features arise naturally in a linear filtered threshold crossing model when we set the threshold to maximize the transmitted information. This maximization process requires neural adaptation to not only the DC signal level, as in conventional light and dark adaptation, but also to the statistical structure of the signal and noise distributions. We also present a new approach for calculating the mutual information between a neuron's output spike train and any aspect of its input signal which does not require reconstruction of the input signal. This formulation is valid provided the correlations in the spike train are small, and we provide a procedure for checking this assumption. This paper is based on joint work (DeWeese M 1995 Optimization principles for the neural code Dissertation Princeton University). Preliminary results from the linear filtered threshold crossing model appeared in a previous proceedings (DeWeese M and Bialek W 1995 Information flow in sensory neurons Nuovo Cimento D 17 733-8), and the conclusions we reached at that time have been reaffirmed by further analysis of the model.