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Main Author: Voliansky, Roman
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.05294
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_version_ 1866929619574194176
author Voliansky, Roman
author_facet Voliansky, Roman
contents Due to the processes that occur during the functioning of modern electromechanical systems, these systems can be considered complex nonlinear dynamic systems from the point of view of the theory of dynamic systems. The movement of such systems is completely determined by external influences acting on the EMS, their parameters, and initial operating conditions. The above-mentioned factors complicate the study of electromechanical systems and, in the general case, make it impossible to use classical methods of analyzing the dynamics of the EMS since the latter neglect the features of nonlinear systems and describe their dynamics using ordinary linear differential equations with constant coefficients. At the same time, many methods and approaches have been developed in control theory for analyzing stability and synthesizing motion trajectories based on linear differential equations. Therefore, an important task arises to create mathematical models of nonlinear EMS that consider the peculiarities of their motion but have a form similar to linear models.
format Preprint
id arxiv_https___arxiv_org_abs_2412_05294
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Use of Differential Equations With Variable Coefficients to Describe the Motions of Nonlinear Electromechanical Systems
Voliansky, Roman
Optimization and Control
Due to the processes that occur during the functioning of modern electromechanical systems, these systems can be considered complex nonlinear dynamic systems from the point of view of the theory of dynamic systems. The movement of such systems is completely determined by external influences acting on the EMS, their parameters, and initial operating conditions. The above-mentioned factors complicate the study of electromechanical systems and, in the general case, make it impossible to use classical methods of analyzing the dynamics of the EMS since the latter neglect the features of nonlinear systems and describe their dynamics using ordinary linear differential equations with constant coefficients. At the same time, many methods and approaches have been developed in control theory for analyzing stability and synthesizing motion trajectories based on linear differential equations. Therefore, an important task arises to create mathematical models of nonlinear EMS that consider the peculiarities of their motion but have a form similar to linear models.
title Use of Differential Equations With Variable Coefficients to Describe the Motions of Nonlinear Electromechanical Systems
topic Optimization and Control
url https://arxiv.org/abs/2412.05294