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An approach for path following optimal control of multibody systems
An approach to the determination of approximate solutions of path following optimal control problems by exploiting modern global search and optimization techniques is proposed. According to the methodology developed in this paper, controls are represented by discrete vectors and substituted in the s...
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| Main Authors: | , , |
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| Format: | Conference Proceeding |
| Language: | English |
| Subjects: | |
| Online Access: | Get full text |
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| Summary: | An approach to the determination of approximate solutions of path following optimal control problems by exploiting modern global search and optimization techniques is proposed. According to the methodology developed in this paper, controls are represented by discrete vectors and substituted in the system equations. Alternatively, when it is possible to exclude the controls from the system equations, the parameterization function of the path is represented by a discrete vector. In both cases the components of these vectors are regarded as variables of a performance index based goal function that is to be minimized with respect to the control and phase constraints. Such an approach enables modeling and solution of both open-loop and closed-loop path following optimal control problems, arising in engineering practice, within a unified framework of function approximation and constrained optimization techniques, including: implementation of genetic algorithms for global optimization and multiobjective control, and utilization of parallel processing to alleviate the computational burden in high dimensional optimal control problems. An optimal path following algorithm for control of multibody systems is developed and a test example for minimum-time-energy control of a two-link manipulator is presented. |
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| DOI: | 10.1049/cp:19960679 |