Title :
Nonlinear Bang-Bang Impact Control: A Seamless Control in All Contact Modes
Author :
Jin, Maolin ; Kang, Sang Hoon ; Chang, Pyung H. ; Lee, Eunjeong
Author_Institution :
Dept. of Mechanical Engineering Korea Advanced Institute of Science and Technology 373-1 Guseong-dong, Yuseong-gu, Daejeon 305-701, South Korea; mulan819@kaist.ac.kr
Abstract :
This paper presents stability analysis and experimental results of the nonlinear bang-bang impact controller for robotic manipulators. A stability condition has been derived based on the analysis in Ln ∞ space and its physical interpretation has been given. The analysis shows that the stability of nonlinear bang-bang impact control depends on sampling time and the accuracy of inertia estimation. Stability is enhanced with the decrease of changes in the Coriolis, centrifugal, and disturbance forces. The stability condition is verified by simulations and experiments. Experiments show that overall performance is comparable to or better than existing impact control techniques which employ more complicated control strategies.
Keywords :
Impact force control; Impedance control; Impedance/time-delay control; Ln ∞ stability; Robot joint friction; Admittance; Force control; Impedance; Manipulators; Mechanical engineering; Orbital robotics; Robot control; Sampling methods; Space technology; Stability analysis; Impact force control; Impedance control; Impedance/time-delay control; Ln ∞ stability; Robot joint friction;
Conference_Titel :
Robotics and Automation, 2005. ICRA 2005. Proceedings of the 2005 IEEE International Conference on
Print_ISBN :
0-7803-8914-X
DOI :
10.1109/ROBOT.2005.1570177
