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- Title
ELECTRIC MODELS OF LARGE-SCALE SYSTEMS AND THEIR ANALOGY TO THERMODYNAMIC SYSTEMS.
- Authors
BERKOVICH, Y.; GOLAN, G.
- Abstract
The paper deals with electric models applied in the investigation of complex systems, such as transport, economic, and neuron systems. The increasing interest in such systems can be explained by the fact that they are characterized by parallel (collective) means of complex calculation processes, under the influence of inner information processes. Electric models can also be looked upon as original structures for neuron-like systems. The paper puts emphasis on comparison between the electric models suggested by the authors, on the one hand, and the mechanical and thermal models, on the other hand. It has been shown that entropy phenomena, typical for the latter, can be closely compared to those of electric models, which are distinguished by pure electric values. Also, it has been shown that irreversible processes of energy dissipation, e.g., entropy processes in mechanical models, are corresponded to processes of energy concentration, energy transfer, and/or energy exchange in electric models. This enables us to shed a new light on processes in electric circuit, especially those concerning with structural improvements of electric circuitry and their self-organization, meaning a neg-entropic information character of these processes. Models of two economic tasks have been considered, wherein the calculation process is characterized under the influence of these processes. Assumption on the importance of reactive elements such as carriers of neg-entropy in electric circuits was made as well.
- Subjects
ELECTRIC line models; LARGE scale integration of circuits; ELECTRIC machinery thermodynamics; ELECTRIC circuits; IRREVERSIBLE processes (Thermodynamics); ENTROPY; ENERGY dissipation
- Publication
Journal of Circuits, Systems & Computers, 2006, Vol 15, Issue 4, p505
- ISSN
0218-1266
- Publication type
Article
- DOI
10.1142/S0218126606003258