Title :
Fully asynchronous neural paradigm
Author :
Salerno, Mario ; Casali, Daniele ; Costantini, Giovanni ; Carota, Massimo
Author_Institution :
Dept. of Electron. Eng., Univ. of Rome "Tor Vergata", Rome, Italy
Abstract :
In this paper, a new integrate-and-fire neural model is proposed. In order to obtain an asynchronous behaviour, a different delay time is assigned to every firing process, in function of the inner dynamics of the single neuron. This model allows also an efficient computer simulation, which has been implemented with MATLAB and supports up to a hundred of thousands of neurons. Simulations show an auto-confinement property: when proper input is given, we observe a specific neural group selection in which the activity appears in a quite high level, while it remains lower in the regions among different groups. When the considered input is terminated, activity seems to remain stable, acting as a memory of some past input event.
Keywords :
neurophysiology; MATLAB; computer simulation; delay time; fully asynchronous neural paradigm; integrate-and-fire neural model; neural group selection; Biological neural networks; Biological system modeling; Cellular neural networks; Computational modeling; Computer networks; Computer simulation; Delay effects; Mathematical model; Nervous system; Neurons;
Conference_Titel :
MELECON 2010 - 2010 15th IEEE Mediterranean Electrotechnical Conference
Conference_Location :
Valletta
Print_ISBN :
978-1-4244-5793-9
DOI :
10.1109/MELCON.2010.5475902
