Title :
Real-time control of robot manipulators in the presence of obstacles
Author :
Kheradpir, Shaygan ; Thorp, James S.
Author_Institution :
GTE Lab. Inc., Waltham, MA, USA
fDate :
12/1/1988 12:00:00 AM
Abstract :
A novel approach is suggested to the problem of obstacle avoidance for a point robot moving among circular or elliptical/spherical or ellipsoid obstacles. The obstacle avoidance strategy (OAS) translates each state constraint (obstacle) into a state-dependent control constraint (SDCC). Each SDCC defines a hyperplane in the control space u. The intersection of the SDCC sets with the hard control bounds forms a polygon in u. The optimal decision strategy (ODS) control algorithm is then used to find the control which lies in this polygon-assuring obstacle avoidance-and minimizes the deviation between the acceleration vector of the point robot and a desired acceleration field. Simulation results display the effectiveness of the algorithm for a workspace hosting multiple obstacles. The OAS algorithm has been implemented successfully on a small Cartesian-coordinate robot
Keywords :
computerised control; position control; robots; Cartesian-coordinate robot; computerised control; obstacle avoidance; optimal decision strategy; point robot; position control; real-time control; robot manipulators; state-dependent control constraint; Acceleration; Automatic control; Control systems; Manipulators; Open loop systems; Optimal control; Orbital robotics; Robot control; Robotics and automation; Trajectory;
Journal_Title :
Robotics and Automation, IEEE Journal of
