Title :
Control design based on analytical stability criteria for optimized kinesthetic perception in scaled teleoperation
Author :
Son, Hyoung Il ; Bhattacharjee, Tapomayukh ; Lee, Doo Yong
Author_Institution :
Dept. of Mech. Eng., KAIST, Daejeon, South Korea
Abstract :
This paper considers kinesthetic perception as the main performance objective for a scaled teleoperation system, and devises a scheme to optimize it with constraints of position tracking and absolute stability. Analytical criteria for monitoring stability have been derived for position-position, force-position, and four-channel control architectures using Llewellyn´s absolute stability criteria. This helps to reduce the optimization complexity and provides an easy and effective design guideline for selecting control gains amongst the range. Optimization results indicate that trade-offs exist among different control architectures. This paper provides guidelines based on application-dependent selection of control scheme.
Keywords :
control system synthesis; optimisation; position control; stability criteria; telecontrol; Llewellyn absolute stability criteria; analytical stability criteria; control design; force-position control architectures; four-channel control architectures; multiobjective constrained optimization problem; optimized kinesthetic perception; position tracking; position-position control architectures; scaled teleoperation system; stability monitoring; Constraint optimization; Control design; Design optimization; Force control; Impedance; Master-slave; Robust stability; Stability analysis; Stability criteria; Velocity control; Absolute Stability; Kinesthetic Perception; Optimization; Scaled Teleoperation;
Conference_Titel :
ICCAS-SICE, 2009
Conference_Location :
Fukuoka
Print_ISBN :
978-4-907764-34-0
Electronic_ISBN :
978-4-907764-33-3
