Title :
Deterministic chaos model for self-organized adaptive networks in atmospheric flows
Author_Institution :
Indian Inst. of Tropical Meteorol., Pune, India
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;
Conference_Titel :
Aerospace and Electronics Conference, 1989. NAECON 1989., Proceedings of the IEEE 1989 National
Conference_Location :
Dayton, OH
DOI :
10.1109/NAECON.1989.40353
