Title :
Trajectory tracking control of the Lunar Rover
Author :
Yang Zi ; Wen Sheng Yu
Author_Institution :
Shanghai Key Lab. of Trustworthy Comput., East China Normal Univ., Shanghai, China
Abstract :
The Lunar Rover trajectory tracking system is a discrete control system under digital situation. Data sampling and information transferring may cause disturbance that could degrade the control performance. This article focus on a real Lunar rover trajectory tracking case, with respect to the sampling interference , transmission delay and energy limitation, a control-sampling co-design approach, which is based on quadric optimal control, is put forward and applied to the real case, in which the overall control quality is optimized. By comparing with the controller get from the classic optimal controller design algorithm, we show the correctness and validity of our method. This article is of valuable reference for controller design and control cycle selecting on lunar rover trajectory tracking.
Keywords :
control system synthesis; controllers; delays; discrete systems; optimal control; planetary rovers; sampling methods; trajectory control; control cycle selection; control quality; control-sampling co-design approach; data sampling; discrete control system; energy limitation; information transferring; lunar rover trajectory tracking system; optimal controller design algorithm; quadric optimal control; sampling interference; trajectory tracking control; transmission delay; Delays; Electronic mail; Kalman filters; MATLAB; Moon; Optimal control; Trajectory; Lunar Rover; Optimal Control; Trajectory Tracking; Transmission Delay;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
