The linguo - combinatorial simulation in modern physics
American Journal of Modern Physics
Volume 1, Issue 1, December 2012, Pages: 7-11
Received: Jan. 2, 2013; Published: Dec. 30, 2012
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Author
Mikhail Ignatyev, St-Petersburg State University of Aerospace Instrumentation, St-Petersburg, Russia
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Abstract
It is considered the systems with structured uncertainty which is determined by mean of number of the arbitrary coefficients. The arbitrary coefficients defines the chaotic behavior. Any complex system interacts with its changing environment and its viability depends on its adaptability. The number of arbitrary coefficients in the structure of equivalent equations of complex system changes in the process of learning. In systems with more than six variables, the number of arbitrary coefficients increases first, and then, passing through the maximum, begins to decrease. This phenomenon makes it possible to explain the processes of system growth, complication and death in biological, economical and physical-engineering systems. We use the linguo-combinatorial method for investigation of complex systems, in taking key words for building equivalent equations. This phenomenon is able to investigate the adaptability of different atoms and astrophysical systems. The contemporary physics must use the concept of control and information.
Keywords
Adaptability, Combinatorial Simulation, Uncertainty, Appearance, Essence, General Systems Theory, Physics, Atoms, Astrophysics
To cite this article
Mikhail Ignatyev, The linguo - combinatorial simulation in modern physics, American Journal of Modern Physics. Vol. 1, No. 1, 2012, pp. 7-11. doi: 10.11648/j.ajmp.20120101.12
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