The Experts below are selected from a list of 291 Experts worldwide ranked by ideXlab platform
Hannah Michalska - One of the best experts on this subject based on the ideXlab platform.
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receding horizon control of Nonlinear Systems
IEEE Transactions on Automatic Control, 1990Co-Authors: D Q Mayne, Hannah MichalskaAbstract:The receding horizon control strategy provides a relatively simple method for determining feedback control for linear or Nonlinear Systems. The method is especially useful for the control of slow Nonlinear Systems, such as chemical batch processes, where it is possible to solve, sequentially, open-loop fixed-horizon, optimal control problems online. The method has been shown to yield a stable closed-loop system when applied to time-invariant or time-varying linear Systems. It is shown that the method also yields a stable closed-loop system when applied to Nonlinear Systems. >
S.a. Billings - One of the best experts on this subject based on the ideXlab platform.
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Output Frequencies of Nonlinear Systems Under A General Input
2007 IEEE International Conference on Networking Sensing and Control, 2007Co-Authors: Xiaofeng Wu, Z. Q. Lang, S.a. BillingsAbstract:The output frequency ranges under certain input has been investigated as well-known concept in the frequency domain analysis of Nonlinear Systems. The previous research results provided significant and basic relationship which can be employed in a variety of engineering applications. The paper introduces the algorithm for numerical computation and an analytical relationship expression for the output frequencies of Nonlinear Systems under a general input. This can be regarded as an extension to the existing specially designed algorithm for Nonlinear output frequency ranges. The new results provide insight for the frequency domain analysis and design of Nonlinear Systems in more general situations.
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Analysis of Output Frequencies of Nonlinear Systems
IEEE Transactions on Signal Processing, 2007Co-Authors: Xiaofeng Wu, Z. Q. Lang, S.a. BillingsAbstract:In this paper, an algorithm is derived for the determination of the output frequency ranges of Nonlinear Systems, which extends previous results on the output frequencies of Nonlinear Systems to a more general situation. The new results are significant for the analysis of the output frequency response of a wide class of Nonlinear Systems.
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The Phase Response of Nonlinear Systems
1992Co-Authors: S.a. Billings, H. ZhangAbstract:Phase shift is very important in the frequency response analysis of Nonlinear Systems and in this paper the phase response function is analysed and interpreted to provide a clear understanding of the problem. Nonlinear Systems which include delay elements are also discussed and simulations of both continuous and discrete time Nonlinear Systems are included to demonstrate the concepts involved.
D Q Mayne - One of the best experts on this subject based on the ideXlab platform.
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receding horizon control of Nonlinear Systems
IEEE Transactions on Automatic Control, 1990Co-Authors: D Q Mayne, Hannah MichalskaAbstract:The receding horizon control strategy provides a relatively simple method for determining feedback control for linear or Nonlinear Systems. The method is especially useful for the control of slow Nonlinear Systems, such as chemical batch processes, where it is possible to solve, sequentially, open-loop fixed-horizon, optimal control problems online. The method has been shown to yield a stable closed-loop system when applied to time-invariant or time-varying linear Systems. It is shown that the method also yields a stable closed-loop system when applied to Nonlinear Systems. >
Xiaofeng Wu - One of the best experts on this subject based on the ideXlab platform.
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Output Frequencies of Nonlinear Systems Under A General Input
2007 IEEE International Conference on Networking Sensing and Control, 2007Co-Authors: Xiaofeng Wu, Z. Q. Lang, S.a. BillingsAbstract:The output frequency ranges under certain input has been investigated as well-known concept in the frequency domain analysis of Nonlinear Systems. The previous research results provided significant and basic relationship which can be employed in a variety of engineering applications. The paper introduces the algorithm for numerical computation and an analytical relationship expression for the output frequencies of Nonlinear Systems under a general input. This can be regarded as an extension to the existing specially designed algorithm for Nonlinear output frequency ranges. The new results provide insight for the frequency domain analysis and design of Nonlinear Systems in more general situations.
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Analysis of Output Frequencies of Nonlinear Systems
IEEE Transactions on Signal Processing, 2007Co-Authors: Xiaofeng Wu, Z. Q. Lang, S.a. BillingsAbstract:In this paper, an algorithm is derived for the determination of the output frequency ranges of Nonlinear Systems, which extends previous results on the output frequencies of Nonlinear Systems to a more general situation. The new results are significant for the analysis of the output frequency response of a wide class of Nonlinear Systems.
C. Li - One of the best experts on this subject based on the ideXlab platform.
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Disturbance decoupling of switched Nonlinear Systems
IEE Proceedings - Control Theory and Applications, 2005Co-Authors: L. Zhang, Daizhan Cheng, C. LiAbstract:The disturbance decoupling problem of switched Nonlinear Systems with arbitrary switching law is investigated by first considering the invariant and weak-invariant distributions of switched Nonlinear Systems. Based on the invariant distribution, the disturbance decoupling problem under two kinds of switching information is considered, using switch-dependent and switch-independent feedback. Sufficient conditions are obtained for solving the problem. An algorithm for the largest invariant distribution contained in the kernel of outputs is presented.
