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Author Burger, John Robert
Source arXiv.org
Content type Text
File Format PDF
Date of Submission 2008-04-26
Language English
Subject Domain (in DDC) Computer science, information & general works ♦ Natural sciences & mathematics ♦ Life sciences; biology
Subject Keyword Computer Science - Neural and Evolutionary Computing ♦ Quantitative Biology - Neurons and Cognition ♦ F.1.1 ♦ cs ♦ q-bio
Abstract Neurons are modeled electrically based on ferroelectric membranes thin enough to permit charge transfer, conjectured to be the tunneling result of thermally energetic ions and random electrons. These membranes can be triggered to produce electrical solitons, the main signals for brain associative memory and logical processing. Dendritic circuits are modeled, and electrical solitons are simulated to demonstrate the nature of soliton propagation, soliton reflection, the collision of solitons, as well as soliton OR gates, AND gates, XOR gates and NOT gates.
Educational Use Research
Learning Resource Type Article
Page Count 13


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