Title :
Stable adaptive teleoperation
Author :
Niemeyer, Günter ; Slotine, Jean-Jacques E.
Author_Institution :
Nonlinear Syst. Lab., MIT, Cambridge, MA, USA
Abstract :
A study is made of how the existence of transmission time delays affects the application of advanced robot control schemes to effective force-reflecting telerobotic systems. This application best exploits the presence of the human operator while making full use of available robot control technology and computing power. A physically motivated, passivity-based formalism is used to provide energy conservation and stability guarantees in the presence of transmission delays. The notion of wave variable is utilized to characterize time-delay systems and leads to a configuration for force-reflecting teleoperation. The effectiveness of the approach is demonstrated experimentally. Within the same framework, an adaptive tracking controller is incorporated for the control of the remote robotic system and can be used to simplify, transform, or enhance the remote dynamics perceived by the operator.<>
Keywords :
adaptive control; delays; robots; stability; telecontrol; adaptive teleoperation; adaptive tracking controller; energy conservation; force-reflecting telerobotic systems; remote dynamics; remote robotic system; robot control; stability; telecontrol; transmission time delays; wave variable; Application software; Cognitive robotics; Cognitive science; Computer science; Control systems; Control theory; Humans; Robot control; Space technology; Telerobotics;
Journal_Title :
Oceanic Engineering, IEEE Journal of
