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Minimum-Time Control of Systems with Columb Friction: Near Global Optima Via Mixed Integer Linear Programming

机译：具有Columb Friction的系统的最小时间控制：通过混合整数线性规划接近全局Optima

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This work presents a method of finding near global optima to minimum-time trajectory generation problem for systems that would be linear if it were not for the presence of Coloumb friction. The required final state of the system is assumed to be maintainable by the system, and the input bounds are assumed to be large enough so that they can overcome the maximum static Coloumb friction force. Other than the previous work for generating minimum-time trajectories for non redundant robotic manipulators for which the path in joint space is already specified, this work represents, to the best of the authors' knowledge, the first approach for generating near global optima for minimum-time problems involving a nonlinear class of dynamic systems. The reason the optima generated are near global optima instead of exactly global optima is due to a discrete-time approximation of the system (which is usually used anyway to simulate such a system numerically). The method closely resembles previous methods for generating minimum-time trajectories for linear systems, where the core operation is the solution of a Phase I linear programming problem. For the nonlinear systems considered herein, the core operation is instead the solution of a mixed integer linear programming problem.

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作者
Driessen, B. ; Sadegh, N.;
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年度 2000
页码 1-10
总页数 10
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Linear programming; Discrete systems; Optimal systems; Static friction; Manipulators; Time domain analysis; Meetings;

机译：线性规划;离散系统;最优系统;静摩擦;操纵器;时域分析;会议;

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1. Minimum-time control of systems with coulomb friction: near global via mixed integer linear programming [J] . Brian J. Driessen, Nader Sadegh Optimal Control Applications and Methods . 2001,第2期

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4. Minimum-Time Control With Coulomb Friction: Near-Global Optima Via Integer Programming [C] . Brian J.Driessen, Nader Sadegh IASTED International Conference Intelligent Systems and Control, August 14-16, 2000, in Honolulu, Hawaii, USA. . 2000

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5. OQGRG: A multi-start algorithm for global solution of nonlinear and mixed integer programs. [D] . Ugray, Zsolt Gyula. 2001

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Minimum-Time Control of Systems with Columb Friction: Near Global Optima Via Mixed Integer Linear Programming

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