Title :
Replacing a PID controller by a lat-lead compensator for a robot-a frequency-response approach
Author_Institution :
Gen. Motors Res. Lab., Warren, MI, USA
fDate :
4/1/1989 12:00:00 AM
Abstract :
Because of their simplicity, PD (Proportional-derivative) or PID (proportional-integral-derivative) controllers are widely used with various robot control strategies. For dynamic control of robots, this algorithm can be shown to lead to unsatisfactory tradeoffs between static accuracy, system stability, and insensitivity to disturbances. These tradeoffs become more serious as the sampling rate decreases. By deriving a more realistic discrete-time system model and using frequency-response analysis, a lag-lead compensator is designed and implemented. Both theoretical analysis and real tests are given for the comparisons of the PD or PID controller and the lag-lead compensator. Replacing PD or PID controllers by lag-lead compensators results in a small increase of offline design and tuning effort and online computational load, but the improvements in robot performance are significant
Keywords :
compensation; control system synthesis; discrete time systems; frequency response; robots; three-term control; PID controller; control system synthesis; discrete-time system; dynamic control; frequency-response; insensitivity; lat-lead compensator; robot; sampling rate; stability; static accuracy; three term control; Control systems; Frequency; PD control; Pi control; Proportional control; Robot control; Sampling methods; Stability; Testing; Three-term control;
Journal_Title :
Robotics and Automation, IEEE Transactions on
