SYNTHESIZING AN ADAPTIVE CONTROL SINGLEINPUTSINGLEOUTPUT SYSTEM FOR UNSTABLE AND DETERMINISTIC CHAOTIC PROCESSES

Beisenbi M.A. Аdilbayev А.А. Аkhmetova S.О. Tulenbayev M.S. Kabanbayev A.B.
March 2023 Asian Research Publishing Network

ARPN Journal of Engineering and Applied Sciences
2023 #18 Issue 5 522 - 529 pp.

The paper proposes a solution to the problem of synthesizing an adaptive control system from a reference model with the desired dynamics of unstable and deterministic chaotic processes in the class of “dovetail” catastrophes for single input-single output objects. The task of selecting a reference model with the desired dynamics, the synthesis of the main circuit, and the adaptation circuit are solved by the gradient-speed method of the Lyapunov vector functions. From the conditions of aperiodic robust stability of the reference model with the desired dynamics, the main control loop, and the generalized tunable object, tunable coefficients are calculated, and the control goal is achieved

adaptive , catastrophe theories , constant stability , deterministic chaos , dynamic systems , gradient system , invariant , scalar work , static accuracy , swallow , synthesis contour , system of inequalities

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Eurasian National University after L. N. Gumilyov, Kazakhstan
Taraz Regional University after M. Kh. Dulaty, Kazakhstan

Eurasian National University after L. N. Gumilyov
Taraz Regional University after M. Kh. Dulaty

10 лет помогаем публиковать статьи Международный издатель

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