화학공학소재연구정보센터
IEEE Transactions on Automatic Control, Vol.43, No.7, 872-880, 1998
Adaptive state regulation in the presence of disturbances of known frequency range
Adaptive state regulation via adaptive observation and asymptotic feedback matrix synthesis in the presence of bounded disturbances of known frequency range is considered. The adaptive observer uses a filtered output error to adapt parameter and state estimates. The filter is designed to attenuate in the disturbance frequency range, It is shown that, with persistent excitation, parameter and feedback gain errors are bounded by a quantity which is proportional directly to the attenuated disturbance magnitudes and inversely to the degree of persistent excitation. Closed-loop stability is proven when the ratio of filtered disturbance magnitude to degree of persistent excitation is sufficiently small, A computer simulation demonstrates the method.