Title :
Design of optimal digital controller considering frequency-shaped cost function
Author :
Tamaki, Shiro ; Miyazato, Tomoki ; Sakuma, Yasuhiro ; Kinjo, Hiroshi ; Yamamoto, Tetsuhiko
Author_Institution :
Dept. of Mech. Syst. Eng., Ryukyus Univ., Okinawa, Japan
Abstract :
This paper presents the optimal digital feedback controller for eliminating stationary disturbance, the design of which is based on the system´s impulse response data and the spectral density function of the disturbance signal. This control scheme adopts the Wiener-Hopf criterion which minimizes the frequency-shaped cost function. Since the free parameter of the controller is constructed as a FIR filter, the computation for designing the optimal filter is reduced to solving the finite discrete-time Wiener-Hopf equation. This equation is solved, recursively, increasing the order of the system each time, via the fast algorithm. Furthermore, the stability of the feedback system is guaranteed. The effectiveness of the proposed method is verified both simulations and experiments by application to the oscillation control of a load hanging from a traveling crane
Keywords :
control system synthesis; cranes; digital control; discrete time systems; feedback; integral equations; optimal control; transient response; vibration control; FIR filter; Wiener-Hopf criterion; disturbance signal; feedback controller; finite discrete-time Wiener-Hopf equation; frequency-shaped cost function; impulse response data; optimal digital controller; optimal filter; oscillation control; spectral density function; stationary disturbance elimination; traveling crane; Adaptive control; Cost function; Density functional theory; Digital control; Equations; Finite impulse response filter; Frequency; Optimal control; Signal design; Stability;
Conference_Titel :
SICE '95. Proceedings of the 34th SICE Annual Conference. International Session Papers
Conference_Location :
Hokkaido
Print_ISBN :
0-7803-2781-0
DOI :
10.1109/SICE.1995.526972
