论文信息 - Observer design for bilateral teleoperation systems with variable time delays

Observer design for bilateral teleoperation systems with variable time delays

Abstract Bilateral teleoperators allow people to perform complex tasks in a remote or inaccessible environment. Since the local and remote manipulators are connected via a communication channel there may be substantial delays in data transmission, which does not allow neither exact tracking position nor transparency. For this reason, most control approaches are meant to guarantee only position regulation, when a human interacts with the local robot, or to synchronize the local and the remote manipulator by inducing periodic position trajectories. Another problem that may be present is the lack of velocities measurements. In this work, a teleoperation control-observer scheme is proposed for bilateral systems with variable delays. It is shown that the observation errors tend to zero while position consensus or synchronization is achieved in free motion. Simulation results are provided to validate the proposed algorithm.

Emmanuel Nuño | Marco A. Arteaga-Pérez | Laura López-Recillas | Mauro López

[1] Emmanuel Nuño,et al. Pose consensus in networks of heterogeneous robots with variable time delays , 2015 .

[2] R. Ortega,et al. A globally exponentially convergent immersion and invariance speed observer for mechanical systems with non-holonomic constraints , 2010, Autom..

[3] Martin Buss,et al. A Survey of Environment-, Operator-, and Task-adapted Controllers for Teleoperation Systems , 2010 .

[4] Michel Kinnaert,et al. Position tracking in delayed bilateral teleoperators without velocity measurements , 2016 .

[5] Vicente Parra-Vega,et al. Cartesian control of robots without dynamic model and observer design , 2006, Autom..

[6] Rogelio Lozano,et al. Synchronization of bilateral teleoperators with time delay , 2008, Autom..

[7] Alejandro Rodríguez-Angeles,et al. Transparent Bilateral Master-slave Control Based on Virtual surfaces: stability Analysis and Experimental Results , 2015, Int. J. Robotics Autom..

[8] Romeo Ortega,et al. Passivity-based control for bilateral teleoperation: A tutorial , 2011, Autom..

[9] Francesco Palmieri,et al. Joint end-to-end loss-delay hidden Markov model for periodic UDP traffic over the Internet , 2006, IEEE Transactions on Signal Processing.