Servo controller design based on frequency-dependent error

Presented in this paper is a frequency-based controller design methodology for a class of nonlinear systems that can be characterized by a class of Hammerstein models. The controller design is directed toward the disturbance rejection problem where the output performance speci"cation appears as a ti

Controller design and tuning are mostly aimed at minimization of the variance of the error signal. In many situations, however, one is more interested in keeping this signal within some (safety or quality) limits as long as possible. Using the classical Wiener filter theory, a controller design is p

Presented is a nonlinear controller design methodology for a class of linear regulating systems subjected to quantitative time-domain constraints. The design objective is to satisfy an output time-domain tolerance given an actuator saturation constraint despite an external step disturbance. The goal

In this paper, taking the inverted pendulum as an example of nonlinear systems which are not exactly linearizable, we give a controller design method for the system based on approximate linerization. In the method, we try to suppress the effect of the higher order residual terms in choosing the new

A multivariable controller consisting of a feedback part, a feedforward part and a new precompensator is suitable for self-tuning control of continuous nonsquare systems with differing and unknown dead-times in each path.