Adaptive control of time-varying non-linear plants by speed-gradient algorithms-Reference-Cited by-同舟云学术

Adaptive control of time-varying non-linear plants by speed-gradient algorithms

Published:2019-06-21 Issue:3 Volume: Page:37-44
ISSN:2541-8610
Container-title:Information and Control Systems
language:
Short-container-title:Informacionno-upravlâûŝie sistemy

Author:

Tomchina O. P.¹^ORCID,Polyakhov D. N.²^ORCID,Tokareva O. I.³^ORCID,Fradkov A. L.⁴^ORCID

Affiliation:

1. Saint-Petersburg State University of Architecture and Civil Engineering

2. Peter the Great St. Petersburg Polytechnic University

3. Admiral Makarov State University of Maritime and Inland Shipping

4. Saint-Petersburg State University; Institute for Problems of Mechanical Engineering of RAS

Abstract

Introduction: The motion of many real world systems is described by essentially non-linear and non-stationary models. A number of approaches to the control of such plants are based on constructing an internal model of non-stationarity. However, the non-stationarity model parameters can vary widely, leading to more errors. It is only assumed in this paper that the change rate of the object parameters is limited, while the initial uncertainty can be quite large.Purpose: Analysis of adaptive control algorithms for non-linear and time-varying systems with an explicit reference model, synthesized by the speed gradient method.Results: An estimate was obtained for the maximum deviation of a closed-loop system solution from the reference model solution. It is shown that with sufficiently slow changes in the parameters and a small initial uncertainty, the limit error in the system can be made arbitrarily small. Systems designed by the direct approach and systems based on the identification approach are both considered. The procedures for the synthesis of an adaptive regulator and analysis of the synthesized system are illustrated by an example.Practical relevance: The obtained results allow us to build and analyze a broad class of adaptive systems with reference models under non-stationary conditions.

Publisher

State University of Aerospace Instrumentation (SUAI)

Subject

Control and Optimization,Computer Science Applications,Human-Computer Interaction,Information Systems,Control and Systems Engineering,Software

Reference30 articles.

1. Fomin V. N., Fradkov A. L., Yakubovich V. A. Adaptivnoe upravlenie dinamicheskimi ob”ektami [Adaptive control of dynamic objects]. Moscow, Nauka Publ., 1981. 448 p. (In Russian).

2. Timofeev A. V. Postroenie adaptivnyh sistem upravleniya programmnym dvizheniem [Construction of adaptive software motion control systems]. Leningrad, Energia Publ., 1980. 88 p. (In Russian).

3. Derevitsky D. P., Fradkov A. L. Prikladnaya teoriya diskretnyh adaptivnyh sistem upravleniya [Applied theory of discrete adaptive control systems]. Moscow, Nauka Publ., 1981. 216 p. (In Russian).

4. Bortsov Yu. A., Polyakhov N. D., Putov V. V. Elektromekhanicheskie sistemy s adaptivnym i modal’nym upravleniem [Electromechanical systems with adaptive and modal control]. Leningrad, Energoatomizdat Publ., 1984. 216 p. (In Russian).

5. Tsykunov A. M. Adaptivnoe upravlenie ob”ektami s posledejstviem [Adaptive control of retarded plants]. Moscow, Nauka Publ., 1984. 230 p. (In Russian).

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