Deterministic chaos model for self-organized adaptive networks in atmospheric flows

Author

Selvam, A. Mary

Author_Institution

Indian Inst. of Tropical Meteorol., Pune, India

fYear

1989

fDate

22-26 May 1989

Firstpage

1145

Abstract

The author discusses the complex spatiotemporal patterns of atmospheric flows resulting from the cooperative existence of fluctuations ranging in size from millimeters to thousands of kilometers, and exhibiting long-range spatial and temporal correlations in the self-similar fractal geometry of the global cloud-cover pattern and in the inverse-power-law form of the atmospheric-eddy energy spectrum. She shows that such long-range spatial and temporal correlations are ubiquitous in extended natural dynamical systems and are also a signature of the strange-attractor design characterizing deterministic chaos or self-organized criticality. The unified network of global atmospheric circulations is analogous to the neural network of the human brain

Keywords

adaptive systems; atmospheric movements; chaos; clouds; flow simulation; fractals; neural nets; atmospheric flows; correlations; deterministic chaos; global atmospheric circulations; global cloud-cover pattern; neural network; self-organized criticality; self-similar fractal geometry; Adaptive systems; Atmospheric modeling; Chaos; Fractals; Intelligent networks; Mathematical model; Nonlinear equations; Partial differential equations; Predictive models; Spatiotemporal phenomena;

fLanguage

English

Publisher

ieee

Conference_Titel

Aerospace and Electronics Conference, 1989. NAECON 1989., Proceedings of the IEEE 1989 National

Conference_Location

Dayton, OH

Type

conf

DOI

10.1109/NAECON.1989.40353

Filename

40353