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Title:	Parametric Adaptation Of Models Describing Structure-Dynamics Control Processes In Complex Technical Systems (CTS)
Authors:	Dmitry A. Ivanov, Boris V. Sokolov, Dmitry N. Verzilin, Evgeniy M. Zaychik
Published in:	(2009).ECMS 2009 Proceedings edited by J. Otamendi, A. Bargiela, J. L. Montes, L. M. Doncel Pedrera. European Council for Modeling and Simulation. doi:10.7148/2009 ISBN: 978-0-9553018-8-9 23^rd European Conference on Modelling and Simulation, Madrid, June 9-12, 2009
Citation format:	Ivanov, D. A., Sokolov, B. V., Verzilin, D. N., & Zaychik, E. M. (2009). Parametric Adaptation Of Models Describing Structure-Dynamics Control Processes In Complex Technical Systems (CTS). ECMS 2009 Proceedings edited by J. Otamendi, A. Bargiela, J. L. Montes, L. M. Doncel Pedrera (pp. 345-351). European Council for Modeling and Simulation. doi:10.7148/2009-0345-0351
DOI:	http://dx.doi.org/10.7148/2009-0345-0351
Abstract:	In this paper, a dynamical multiple criteria model of integrated adaptive planning and scheduling for complex technical system (CTS) is presented. Various types of CTS are used nowadays, for example: virtual enterprises, supply chains, telecommunication systems, etc. Hereafter, we mostly interpret CTS as the systems of the above-mentioned types. The adaptation control loops are explicitly integrated with the analytical- simulation model. The mathematical approach is based on a combined application of control theory, operations research, systems analysis, and modeling and simulation theory. In particular, a scheduling problem for CTS is considered in a dynamical interpretation. New procedures of dynamic decomposition help to find the parameters value of models adaptation. The example demonstrates a general optimization scheme to be applied to the problem of competencies division between the coordinating and operating levels of CTS via parametric adaptation of models describing structure-dynamics control processes.
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