DOI 10.17586/0021-3454-2024-67-3-230-240
UDC 681.51
PARAMETRIC SYNTHESIS OF LINEAR AUTOMATIC CONTROL SYSTEMS WITH DISTRIBUTED PARAMETERS
SUAI, Department of Control in Technical Systems; Professor
V. I. Goncharova
St. Petersburg State University of Aerospace Instrumentation, Department of Control in Technical Systems ; Senior Lecturer
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Reference for citation: Shishlakov V. F., Goncharova V. I. Parametric synthesis of linear automatic control systems with distributed parameters. Journal of Instrument Engineering. 2024. Vol. 67, N 3. P. 230—240 (in Russian). DOI: 10.17586/0021-3454-2024-67-3-230-240.
Abstract. The problem of parametric synthesis of control laws for continuous automatic control systems with distributed parameters is considered. As a mathematical apparatus for solving the problem, the method of separation of variables (Fourier) is used to implement the transition from partial differential equations to ordinary differential equations, in order to extend the generalized Galerkin method to a new class of systems with distributed parameters.
Abstract. The problem of parametric synthesis of control laws for continuous automatic control systems with distributed parameters is considered. As a mathematical apparatus for solving the problem, the method of separation of variables (Fourier) is used to implement the transition from partial differential equations to ordinary differential equations, in order to extend the generalized Galerkin method to a new class of systems with distributed parameters.
Keywords: automatic control systems with distributed parameters, generalized Galerkin method, method of separation of variables (Fourier), partial differential equations
Acknowledgement: the work was carried out with the financial support of the Ministry of Science and Higher Education of the Russian Federation, agreement No. FSRF-2023-0003, “Fundamental principles for the construction of noise-resistant systems for space and satellite communications, relative navigation, technical vision and aerospace monitoring”.
References:
Acknowledgement: the work was carried out with the financial support of the Ministry of Science and Higher Education of the Russian Federation, agreement No. FSRF-2023-0003, “Fundamental principles for the construction of noise-resistant systems for space and satellite communications, relative navigation, technical vision and aerospace monitoring”.
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