Entropy and local uncertainty of data from sensory neurons

R. Steuer; W. Ebeling; D. F. Russell; S. Bahar; A. Neiman; F. Moss

doi:10.1103/PhysRevE.64.061911

Entropy and local uncertainty of data from sensory neurons

R. Steuer, W. Ebeling, D. F. Russell, S. Bahar, A. Neiman, and F. Moss

Phys. Rev. E 64, 061911 – Published 27 November 2001

Abstract

We present an empirical comparison between neural interspike interval sequences obtained from two different kinds of sensory receptors. Both differ in their internal structure as well as in the strength of correlations and the degree of predictability found in the respective spike trains. As a further tool in this context, we suggest the local uncertainty, assigning a well-defined predictability to individual spikes. The local uncertainty is demonstrated to reveal significant patterns within the interspike interval sequences, even when its overall structure is (almost) random. Our approach is based on the concept of symbolic dynamics and information theory.

Received 21 June 2001

DOI:https://doi.org/10.1103/PhysRevE.64.061911

Authors & Affiliations

R. Steuer^* and W. Ebeling^†

Institute of Physics, Humboldt-University Berlin, Invalidenstrasse 110, 10115 Berlin, Germany

D. F. Russell^‡, S. Bahar^§, A. Neiman^∥, and F. Moss^¶

Center for Neurodynamics, University of Missouri, 8001 Natural Bridge Road, St. Louis, Missouri 63121

^*Email address: steuer@physik.hu-berlin.de
^†Email address: ebeling@physik.hu-berlin.de
^‡Email address: drussell@admiral.umsl.edu
^§Email address: bahar@neurodyn.umsl.edu
^∥Email address: neiman@neurodyn.umsl.edu
^¶Email address: mossf@umsl.edu

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Vol. 64, Iss. 6 — December 2001

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