Title :
Deterministic chaos: a signature of quantum-like mechanics in self-organized adaptive network
Author_Institution :
Indian Inst. of Tropical Meteorol., Pune, India
Abstract :
It is noted that the observed long-range spatio-temporal correlations of real-world dynamical systems are governed by quantum-like mechanics with inherent nonlocal connections. Microscopic-scale local fluctuations form a unified self-organized adaptive network manifested as the macroscale dynamical system with implicit ordered energy flow between the larger and smaller scales. Such a concept of ladder networks may find applications in the design of artificial intelligence systems. Deterministic chaos and quantum-like mechanics in atmospheric flows is considered. Data from summer monsoon (June-September) rainfall values for 29 meteorological sub-divisions for 115 years (1871-1985) were analyzed
Keywords :
artificial intelligence; atmospheric movements; chaos; climatology; fluctuations; geophysical fluid dynamics; quantum statistical mechanics; quantum theory; rain; self-adjusting systems; AD 1871 to 1985; artificial intelligence; atmospheric flows; deterministic chaos; ladder networks; local fluctuations; long-range spatio-temporal correlations; macroscale dynamical system; microscopic scale; nonlocal connections; ordered energy flow; quantum-like mechanics; real-world dynamical systems; self-organized adaptive network; signature; Adaptive systems; Atmospheric modeling; Chaos; Clouds; Fluctuations; Fractals; Geometry; Intelligent networks; Quantum mechanics; Spirals;
Conference_Titel :
Aerospace and Electronics Conference, 1991. NAECON 1991., Proceedings of the IEEE 1991 National
Conference_Location :
Dayton, OH
Print_ISBN :
0-7803-0085-8
DOI :
10.1109/NAECON.1991.165899
