论文信息 - Placing dynamic sensors and actuators on flexible space structures

Placing dynamic sensors and actuators on flexible space structures

This paper selects sensors and actuators (location, type and number) from an admissible set. We seek an approximate solution to this integer programming problem. Given the optimal use of the entire admissible set of sensors and actuators, it is possible to decompose the quadratic cost function into contributions from each stochastic input and each weighted output. In the past, these suboptimal cost decomposition methods of sensor and actuator selection have been used to locate perfect (infinite bandwidth) sensors and actuators on large scale systems. This paper extends these ideas to the more practical case of imperfect actuators and sensors with dynamics of their own. Secondly, the old cost decomposition methods are discarded for improved formulas for sensor and actuator deletion (from the admissible set). These results show that there exists an optimal number of actuators (it is possible to use too few and too many). Preliminary attempts to solve this new research question are described. It is also shown that there exists optimal dynamics of the actuators. NASA’s SCOLE example demonstrates the concepts.

Gregory A. Norris | Robert E. Skelton

[1] K. Howell,et al. Some considerations of actuator dynamics in the attitude control of a flexible beam , 1986 .

[2] Robert E. Skelton,et al. Space structure control design by variance assignment , 1985 .

[3] E. Ryan,et al. Filtering and Control of Distributed Parameter Systems with Point Observations and Inputs , 1977 .

[4] M. Balas,et al. Feedback control of flexible systems , 1978 .

[5] C. Malandrakis. Optimal sensor and controller allocation for a class of distributed parameter systems , 1979 .

[6] P. Hughes,et al. Space structure vibration modes: How many exist? Which ones are important? , 1984, IEEE Control Systems Magazine.

[7] M L DeLorenzo. Selection of Noisy Sensors and Actuators for Regulation of Linear Systems. , 1983 .

[8] M. Hautus. Input regularity of cascaded systems , 1975 .

[9] D. B. Schaechter. Control technology development , 1982 .

[10] P. Hughes,et al. Modal cost analysis for linear matrix-second-order systems , 1980 .

[11] Atsunobu Ichikawa,et al. Sensor and controller location problems for distributed parameter systems , 1979, Autom..

[12] P. Hughes,et al. Controllability and Observability of Linear Matrix-Second-Order Systems , 1980 .

[13] J. Seinfeld,et al. Optimal location of process measurements , 1975 .

[14] T. K. Caughey,et al. On the stability problem caused by finite actuator dynamics in the collocated control of large space structures , 1985 .