Title :
Stability of teleoperation systems for time-varying delays by Lyapunov-Krasovskii and frequencial techniques
Author :
Delgado, Emma ; Barreiro, Antonio
Author_Institution :
E.T.S. Ing. Ind., Univ. of Vigo, Vigo, Spain
Abstract :
This work presents a stability analysis for an architecture for teleoperating a laboratory crane using haptic devices. The teleoperation scheme chosen is the 2-channel position error (PE) architecture. This scheme is modeled first by state-space equations testing that the system is Hurwitz stable for zero delay and calculating the maximum constant value of the delay hmax > 0 for which the nominal system (constant delay) is asymptotically stable. Then, by frequencial Laplace techniques, the delay system to be analyzed is transformed in such a way that it becomes a feedback interconnection of a linear time-invariant plant and a time-delay operator. In this way, we obtain the upper bound on the time-varying delay for each nominal value in the interval 0 < h ¿ hmax. Final discussions are provided regarding expected tracking capabilities and agreement of the theory and simulation results, which are satisfactory.
Keywords :
Laplace transforms; Lyapunov methods; haptic interfaces; state-space methods; telecontrol; time-varying systems; 2-channel position error; Laplace techniques; Lyapunov-Krasovskii; delay hmax > 0; haptic devices; linear time invariant plant; nominal system; state space equations; teleoperation systems stability; time varying delays; Cranes; Delay systems; Feedback; Frequency; Haptic interfaces; Laboratories; Laplace equations; Stability analysis; System testing; Time varying systems;
Conference_Titel :
Industrial Electronics, 2009. IECON '09. 35th Annual Conference of IEEE
Conference_Location :
Porto
Print_ISBN :
978-1-4244-4648-3
Electronic_ISBN :
1553-572X
DOI :
10.1109/IECON.2009.5414815
