Title :
A technique of robust sensor allocation for parameter estimation in distributed systems
Author :
Ucinski, Dariusz
Author_Institution :
Dept. of Robot. & Software Eng., Tech. Univ. of Zielona Gora, Zielona Góra, Poland
fDate :
Aug. 31 1999-Sept. 3 1999
Abstract :
A systematic procedure for planning sensor movements in a specified spatial domain in such a way as to maximize the accuracy of parameter estimation of a given distributed system is proposed. The global design criterion is the expectation of a general local design criterion defined on the Fisher information matrix, given a-priori distribution of the parameters to be identified. The approach converts the problem to an optimal control one in which both the control forces of the sensors and the initial sensor positions are optimized. Its solution is obtained with the use of a stochastic-gradient-like algorithm which handles various constraints imposed on sensors´ motions. A technique to tackle minimax-optimality criteria is also indicated. A summary of numerical performance of the resulting algorithms is given in the final part of the paper.
Keywords :
distributed control; matrix algebra; minimax techniques; optimal control; parameter estimation; sensor placement; stochastic systems; Fisher information matrix; distributed systems; global design criterion; initial sensor position optimization; local design criterion; minimax-optimality criteria; optimal control; parameter distribution; parameter estimation; robust sensor allocation technique; sensor control forces; spatial domain sensor movement planning procedure; stochastic-gradient-like algorithm; Algorithm design and analysis; Approximation methods; Atmospheric measurements; Parameter estimation; Pollution measurement; Robot sensing systems; Trajectory; distributed-parameter systems; experimental design; optimal control; parameter estimation; sensor location;
Conference_Titel :
Control Conference (ECC), 1999 European
Conference_Location :
Karlsruhe
Print_ISBN :
978-3-9524173-5-5
