Russian version English version
Volume 1   Issue 1   Year 2006
Rippling Codes of Event Sequences

Tsukerman V.D., Kulakov S.V., Karimova O.V.

A.B. Kogan Research Institute for Neurocybernetics Rostov State University

vdts@krinc.ru


Abstract. For the first time, the hypothesis is put forward based on computational modeling researching that phase coding of event sequences in the brain are rippling codes, i.e. in time dimension these are the codes of variable length. A conclusion is drawn that the fundamental difference between coding of single event and one of dynamical sequence is a strong nonlinear dependence of the phase code’s length on time interval between two consecutive events. Proofs were received of strong time message compression. There conditions are shown under which the phenomenon of last event masking in sequence can occur. Examples of dynamical event sequences coding are considered.
 

 

Table of Contents Original Article
Math. Biol. Bioinf.
2006;1(1):108-122
doi: 10.17537/2006.1.108
published in Russian

Abstract (rus.)
Abstract (eng.)
Full text (rus., pdf)
References

 

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