Title :
Continuous critic learning for robot control in physical human-robot interaction
Author :
Chen Wang ; Yanan Li ; Shuzhi Sam Ge ; Keng Peng Tee ; Tong Heng Lee
Author_Institution :
Social Robot. Lab., Nat. Univ. of Singapore, Singapore, Singapore
Abstract :
In this paper, optimal impedance adaptation is investigated for interaction control in constrained motion. The external environment is modeled as a linear system with parameter matrices completely unknown and continuous critic learning is adopted for interaction control. The desired impedance is obtained which leads to an optimal realization of the trajectory tracking and force regulation. As no particular system information is required in the whole process, the proposed interaction control provides a feasible solution to a large number of applications. The validity of the proposed method is verified through simulation studies.
Keywords :
force control; human-robot interaction; learning (artificial intelligence); linear systems; trajectory control; continuous critic learning; force regulation; interaction control; linear system; optimal impedance adaptation; parameter matrices; physical human-robot interaction; robot control; trajectory tracking; Adaptation models; Equations; Impedance; Integrated optics; Mathematical model; Robots; continuous critic learning; impedance adaptation; robot-environment interaction;
Conference_Titel :
Control, Automation and Systems (ICCAS), 2013 13th International Conference on
Conference_Location :
Gwangju
Print_ISBN :
978-89-93215-05-2
DOI :
10.1109/ICCAS.2013.6704029
