We investigate the problem of optimal robust tracking control of plants with multiplicative perturbations and unknown disturbances.

Robust tracking and model following for a class of uncertain Markov jump systems;

Based on paper,a new robust tracking algorithm of variable structure for robust tracking maneuvering targets is presented.

An adaptive robust tracking problem is investigated when a discrete-time plant is subject to both unmodelled dynamics and unknown external disturbances.

A robust-optimal controller design method is proposed based on T-S fuzzy model to deal with the nonlinear and uncertainty problems on the flight simulation turntable system.

According to system characteristics of the system, optimal tracking control is applied to exact linearization and nonlinear control law is obtained.

Dynamic equations of a 3 degree-of-freedom model for the multi-axle steering system of the truck-howitzer including the vehicle body side-sway characteristic was derived,a dimension reduction observer for rebuilding the vehicle state was constructed,and a vehicle steering controller based on the optimal tracking strategy was designed.

The design problem to achieve the optimal tracking controller which satisfy the specific optimal dynamic performances for a MIMO linear discrete_time system with some specified inputs is converted to a linear programming problem with finite variables.

To guarantee that the PM synchronous servo-motor driving is stable and the real output tracks the expected output,a robust tracking controller based on feedback linearization is designed to reduce the impacts aroused by the uncertainty of the system,by means of Lyapunov method.

By using the Lyapunov method,a nonlinear robust tracking controller is proposed for a class of uncertain interconnected robot systems.