A parametric LQ approach to multiobjective control system design
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A parametric LQ approach to multiobjective control system design

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Published by NASA, For sale by the National Technical Information Service in [Washington, DC], [Springfield, Va .
Written in English

Subjects:

  • Control systems design.,
  • Linear quadratic regulator.,
  • Parameterization.

Book details:

Edition Notes

StatementDouglas E. Kyr and Marc Buchner.
SeriesNASA technical memorandum -- 101316.
ContributionsBuchner, Marc., United States. National Aeronautics and Space Administration.
The Physical Object
FormatMicroform
Pagination1 v.
ID Numbers
Open LibraryOL15407624M

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A parametric LQ approach to multiobjective control system. A parametric LQ approach to multiobjective control system design. By Douglas E. Kyr and Marc Buchner. Abstract. The synthesis of a constant parameter output feedback control law of constrained structure is set in a multiple objective linear quadratic regulator (MOLQR) framework. The use of intuitive objective functions such as model-following. A parametric LQ approach to multiobjective control system design. By Marc Buchner and Doug Kyr. Abstract. The synthesis of a constant parameter output feedback control law of constrained structure is set in a multiple-objective linear quadratic regulator (MOLQR) framework. The use of intuitive objective functions such as model-following Author: Marc Buchner and Doug Kyr.   A multi-objective parametric design method that based on the robust observer is proposed for the attitude control of satellites with super flexible netted antennas. First, a parametric observer-based controller is obtained based on the eigen-structure assignment theory.

Parametric optimization techniques is an established practice for designing controllers. It was used, for example, to obtain the parameters of PI and PID controllers in several works.   A parametric LQ approach to multiobjective control system design. In Proceedings of the 27th IEEE Conference on Decision and Control, IEEE, Austin, . Therefore, the unified approach leads to an effective design tool which guarantees both stability and performance of linear time-invariant systems under real parametric uncertainty. View full-text. This paper presents an approach by multiobjective optimization of the output feedback design in discrete time. Our goal is to find a controller stabilizing the system with temporal or frequential.

  A robust multimodel multiobjective linear quadratic design technique is applied to the design of robust distillation control systems. A range of operating conditions of the process is considered. A single constant low-order controller is then designed to give satisfactory performance at all operating points. A parametric LQ approach to multiobjective control system design The synthesis of a constant parameter output feedback control law of constrained structure is set in a multiple objective linear quadratic regulator (MOLQR) framework. The use of intuitive objective functions such as model-following ability and closed-loop trajectory sensitivity, allow multiple objective decision making. Parametric control to second-order linear time-varying systems based on dynamic compensator and multi-objective optimization This paper investigates the parametric design approach to second-order linear time-varying systems by using dynamic compensator and multi-objective optimization. With the parametric method, the closed-loop system. On the use of optimization theory for practical control system design On the utopian approach to the multiobjective LQ problem The book is a solid reference for professionals as well as a.