Authors: Li Zong-Cheng

Abstract:

It is by reason of the unified measure of varieties of resources and the unified processing of the disposal of varieties of resources, that these closely related three of new basic models called the resources assembled node and the disposition integrated node as well as the intelligent organizing node are put forth in this paper; the three closely related quantities of integrative analytical mechanics including the disposal intensity and disposal- weighted intensity as well as the charge of resource charge are set; and then the resources assembled space and the disposition integrated space as well as the intelligent organizing space are put forth. The system of fundamental equations and model of complete factor synergetics is preliminarily approached for the general situation in this paper, to form the analytical base of complete factor synergetics. By the essential variables constituting this system of equations we should set twenty variables respectively with relation to the essential dynamical effect, external synergetic action and internal synergetic action of the system.

Keywords: complex system, disposal of resources, completefactor synergetics, fundamental equation.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1082567

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References:

[1] David Pouvreau; Manfred Drack, Part I: elements on the origins and genesis of Ludwig von Bertalanffy's. "General Systemology", International Journal of General Systems, Volume 36 Issue 3 2007
[2] J. Liang; Z. Shi; D. Li; M. J. Wierman, Information entropy, rough entropy and knowledge granulation in incomplete information systems, International Journal of General Systems, Volume 35 Issue 6 2006
[3] Olivier Bournez, Manuel L. Campagnolo, Daniel S., Polynomial differential equations compute all real computable functions on computable compact intervals, Journal of Complexity, 2007, 1, Vol. 23,3, 317-335
[4] Stephan Herting; Lars Stein, The evolution of Luhmann-s systems theory with focus on the constructivist influence, International Journal of General Systems, Volume 36 Issue 1 2007
[5] Lu Chen-Guang , Generalized Theory of Information, CSTU Press, 1993.
[6] Jumarie J., Subjectivity: Human Communication, in: System and Control Encyclopedia, Pergmon Press, 1987: 4696 - 4698.
[7] Yager R. R., Measures of properties on fuzzy sets and possibility distribution, In: Proc. 3rd Inter. Seminar on Fuzzy Set Theory, Johannes Univ., Linz., 1981: 211 - 222.
[8] Dubois D. and Prade H., Properties of measures of information is evidence and possibility theories, Fuzzy sets and system, 14 (1987), 161 - 182.
[9] The new evolutionary microeconomics : complexity, competence, and adaptive behavior. Jason Potts. Cheltenham, UK ; Northampton, MA, USA : E. Elgar Pub., c, xii, 239 p, 2000.
[10] David Colander, Complexity and the history of economic thought : selected papers from the History of Economics Society Conference,London ; New York : Routledge, xii, 249 p, 2000.
[11] J. Liang; Z. Shi; D. Li; M. J. Wierman, Information entropy, rough entropy and knowledge granulation in incomplete information systems, International Journal of General Systems, Volume 35 Issue 6 2006
[12] Vasco Brattka, Peter Hertling, Ker-I Ko and Hideki Tsuiki, Computability and complexity in analysis, Journal of Complexity, 2006, 12, Vol. 22, 6, 728
[13] Li Zong-Cheng, Fundamental equation and Function of Holo-synergetic Dynamics for Complex Systems, Systems Engineering ÔÇöÔÇö Theory & Practice, Vol. 24, 2004, 4-13
[14] Li Zongcheng, Basis of time series analysis on a non-equilibrium process, IEEE International Conference of Industrial Technology, 1996.
[15] Li Zongcheng, A rate equation of the laser that reflects the coherence of light, Optics & Technology, 1995.
[16] Li Zongcheng, Spatiotemporal Relation of Extendable General Relativity in the Irreversible Process of A Dissipative System, Acta Physics Sinica, 2003.4: 1-10
[17] Li Zongcheng, Gravitational Relation of Extendable General Relativity in the Irreversible Process of A Dissipative System, Acta Physics Sinica, 2003.4: 11-20
[18] Li Zongcheng, On the Hypothesis on the Bifurcate-Chaos Wave of An Atom under Condition of Thermal Non-equilibrium, Chinese Journal of Atomic and Molecular Physics, 4 (1995) 427- 438