论文信息 - Chaotic behavior of fuzzy symbolic dynamics and its relation to constraint-oriented problem solving with hierarchical structures reflecting natural life

Chaotic behavior of fuzzy symbolic dynamics and its relation to constraint-oriented problem solving with hierarchical structures reflecting natural life

By introducing fuzziness as coding schema of continuous variables into discrete and symbolic values, several methods of constraint-oriented problem solving are discussed. The hierarchical nature of these methods are examined and are shown to be tightly related to the hierarchical structure of natural systems, particularly, of biological systems. Also, two different kinds of computational paradigms in these hierarchies are introduced and are shown to be able to yield chaotic behavior due to the fluctuations, caused by the above fuzziness-based coding from continuous variables into symbolic values. Moreover, the importance at the effect of the chaotic behavior on constraint-oriented problem solving is also elucidated.<<ETX>>

[1] H. Haken. Synergetics: an Introduction, Nonequilibrium Phase Transitions and Self-organization in Physics, Chemistry, and Biology , 1977 .

[2] R. Devaney. An Introduction to Chaotic Dynamical Systems , 1990 .

[3] Osamu Katai,et al. Fuzzy Control as Self-Organizing Adaptive Constraint-Oriented Problem Solving , 1995 .

[4] Osamu Katai,et al. An autonomous decentralized system for constraint-oriented problem solving involving continuous and fuzzy variables , 1993, Proceedings ISAD 93: International Symposium on Autonomous Decentralized Systems.

[5] K. Kaplan. H. Haken, Synergetics. An Introduction. Nonequilibrium Phase Transitions and Self-Organization in Physics, Chemistry, and Biology (2nd Edition). XI + 355 S., 152 Abb. Berlin—Heidelberg—New York 1978. Springer-Verlag. DM 66,00 , 1980 .

[6] M. Polanyi. Chapter 7 – The Tacit Dimension , 1997 .