The adjoining cell mapping and its recursive unraveling,part I: Description of adaptive and recursive algorithms |
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Authors: | P. J. Zufiria R. S. Guttalu |
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Affiliation: | 1. Departamento de Matemática Aplicada a las Tecnologías de la Información, UPM, 28040, Madrid, Spain 2. GTI, DSSR, ETSI de Telecommunicación, UPM, 28040, Madrid, Spain 3. Department of Mechanical Engineering, University of Southern California, 90089-1453, Los Angeles, CA, USA
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Abstract: | A new type of cell mapping, referred to as an adjoining cell mapping, is developed in this paper for autonomous dynamical systems employing the cellular state space. It is based on an adaptive time integration employed to compute an associated cell mapping for the system. This technique overcomes the problem of determining an appropriate duration of integration time for the simple cell mapping method. Employing the adjoining mapping principle, the first type of algorithm developed here is an adaptive mapping unraveling algorithm to determine equilibria and limit cycles of the dynamical system in a way similar to that of the simple cell mapping. In addition, it is capable of providing useful information regarding the behavior of dynamical systems possessing pathological dynamics and of systems with rapidly changing vector field. The adjoining property inherent in the adjoining cell mapping method, in general, permits development of new recursive algorithms for unraveling dynamics. The required computer memory for a practical implementation of such algorithms is considerably less than that required by the simple cell mapping algorithm since they allow for a recursive partitioning of state space for trajectory analysis. The second type of algorithm developed in this paper is a recursive unraveling algorithm based on adaptive integration and recursive partitioning of state space into blocks of cells with a view toward its practical implementation. It can find equilibria of the system in the same manner as the simple cell mapping method but is more efficient in locating periodic solutions. |
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Keywords: | Nonlinear autonomous dynamical systems simple cell mapping limit cycles adjoining cell mapping adaptive integration recursive algorithms |
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