Convergence properties of the modified renormalization algorithm based adaptive control supported by ancillary methods

A new branch of computational cybernetics seems to emerge on the principles akin to that of the traditional soft computing (SC). In the paper the essential differences between the conventional and the novel approach are summarized. At the cost of the use of a simple dynamic model, a priori known, un...

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Published inIndustrial Electronics, 2002. ISIE 2002. Proceedings of the 2002 IEEE International Symposium on Vol. 2; pp. 441 - 446 vol.2
Main Authors Patkai, B., Tar, J.K., Rudas, I.J., Bito, J.F.
Format Conference Proceeding
LanguageEnglish
Published 2002
Subjects
Acceleration
Adaptation models
Biological neural networks
Convergence
Mathematical model
Shape
Trajectory
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Summary:A new branch of computational cybernetics seems to emerge on the principles akin to that of the traditional soft computing (SC). In the paper the essential differences between the conventional and the novel approach are summarized. At the cost of the use of a simple dynamic model, a priori known, uniform, lucid, structure of reduced size, machine learning by a simple and short explicit algebraic procedure, especially fit to real time applications, considerable computational advantages can be achieved. The key element of the approach the modified renormalization transformation supported by the application of a simple linear transformation, and the use of a simple prediction technique. How the satisfactory conditions of the "complete stability" can be guaranteed, and how the convergence properties can be improved by the ancillary methods, is analyzed. Simulation examples are presented for the control of a 3 DOF SCARA arm by the use of partially stretched orthogonal transformations.
ISBN:9780780373693
0780373693
DOI:10.1109/ISIE.2002.1026329