Title :
Vibrational control of wheeled mobile robots not satisfying ideal velocity constraints: The unicycle case
Author :
Leroquais, William ; d´Andrea-Novel, Brigitte
Author_Institution :
Centre de Robot., Ecole des Mines de Paris, Paris, France
Abstract :
This paper is concerned with the problem of controlling the unicycle wheeled mobile robot when skidding and slipping effects are taken into account. When the assumption of rolling without slipping is satisfied, wheeled mobile robots with a single platform are known to be flat [3], We first highlight that this is no longer true when those ideal conditions are transgressed, i.e. in the real case. Then, we show that the flatness of the robot may be recovered in the average using vibrational technics. Finally, we concentrate on trajectory tracking and make use of the high frequency approach to build a time-varying control feedback ensuring the convergence of the trajectory tracking error to a limit cycle near the origin.
Keywords :
convergence; feedback; mobile robots; time-varying systems; trajectory control; vibration control; limit cycle; rolling; skidding effects; slipping effects; time-varying control feedback; trajectory tracking error; unicycle robot; vibrational control; vibrational technics; wheeled mobile robots; Convergence; Kinematics; Mobile robots; State feedback; Trajectory; Wheels; mobile robot; sliding effects; vibrational control;
Conference_Titel :
Control Conference (ECC), 1997 European
Conference_Location :
Brussels
Print_ISBN :
978-3-9524269-0-6
