Title :
Probabilistic gate matrix for axon-inspired communication
Author :
Arotaritei, Dragos ; Turnea, Marius ; Beiu, Valeriu ; Rotariu, Mariana
Author_Institution :
Grigore T. Popa Univ. of Med. & Pharmacy, Iasi, Romania
Abstract :
Communication on an axon could be modeled by an array of logic gates, where each logic gate emulates a voltage-gated ion channel. In this paper the probability of correct communication is estimated using such a model and an associated reliability analysis for logic gates/circuits known as probabilistic gate matrix (PGM). Such an approach can easily be extended to other types of (regular) arrays of logic gates, and to more complex connection patterns, including even feedbacks (that could model the time dependence of neighboring voltage-gated ion channels on any given voltage-input ion channel).
Keywords :
logic circuits; logic gates; matrix algebra; probability; reliability; axon-inspired communication; logic circuit; logic gates; probabilistic gate matrix; reliability analysis; voltage-gated ion channel; Analytical models; Logic gates; Reliability; Probabilistic gate matrix (PGM); axon; ion channel; logic circuits; reliability;
Conference_Titel :
E-Health and Bioengineering Conference (EHB), 2013
Conference_Location :
Iasi
Print_ISBN :
978-1-4799-2372-4
DOI :
10.1109/EHB.2013.6707255
