带换能器的电工系统中的混沌模式

Conference Proceedings., Eleventh International Telecommunications Energy Conference Pub Date : 1989-10-15 DOI:10.1109/INTLEC.1989.88275

V. J. Zhuikov, A. Leonov, R. Strzelecki

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引用次数: 0

摘要

根据所使用的半导体元件模型的类型，可以用具有恒定或可转换换向矩的方程来描述具有电力逆变器的非线性电工系统。为了研究这样的系统，需要一种新的定性理论，能够对所研究对象的特征进行比较深入的分析。近年来对不同量的附带涨落的研究主要基于定性动力系统理论，由于没有使用附带扰动，无法解释混沌过程结构。本文认为，在确定系统中发现的随机状态、动态系统理论中的奇异吸引子概念、自组织理论和Feigenbaum理论允许对大量非线性系统的混沌行为进行更完整的研究。

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Chaotic modes in electrotechnical system with transducers

Nonlinear electrotechnic systems with electric power inverters can be described by equations with constant or convertible commutation moments depending on the type of semiconductor element model used. To investigate such systems a qualitatively new theory is needed that is capable of a comparatively deep analysis of the characteristics of the objects studied. Recent studies of the incidental fluctuation of different quantities were mainly based on qualitative dynamic systems theory, which could not elucidate the chaotic process structure as it does not use the incidental perturbations. It is suggested that the stochastic regimes found in determined systems, the notion of the strange attractor in dynamic systems theory, the theory of self-organization, and Feigenbaum's theory allow a more complete investigation of the chaotic behavior of a large number of nonlinear systems.<>

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Conference Proceedings., Eleventh International Telecommunications Energy Conference

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