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| Robot impedance control and passivity analysis with inner torque and velocity feedback loops |
| M.Focchi,G.A.MedranoCerda,T.Boaventura,M.Frigerio,C.Semini,J.Buchli,D.G.Caldwell |
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| (Department of Advanced Robotics, Istituto Italiano di Tecnologia (IIT)) |
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| DOI: |
| Received:January 21, 2015Revised:December 10, 2015 |
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| Robot impedance control and passivity analysis with inner torque and velocity feedback loops |
| M. Focchi,G. A. MedranoCerda,T. Boaventura,M. Frigerio,C. Semini,J. Buchli,D. G. Caldwell |
| (Department of Advanced Robotics, Istituto Italiano di Tecnologia (IIT);Agile & Dexterous Robotics Lab, ETH Zu¨rich) |
| Abstract: |
| Impedance control is a well-established technique to control interaction forces in robotics. However, real implementations of impedance control with an inner loop may suffer from several limitations. In particular, the viable range of stable stiffness and damping values can be strongly affected by the bandwidth of the inner control loops (e.g., a torque loop) as well as by the
filtering and sampling frequency. This paper provides an extensive analysis on how these aspects influence the stability region of impedance parameters as well as the passivity of the system. This will be supported by both simulations and experimental data. Moreover, a methodology for designing joint impedance controllers based on an inner torque loop and a positive velocity
feedback loop will be presented. The goal of the velocity feedback is to increase (given the constraints to preserve stability) the bandwidth of the torque loop without the need of a complex controller. |
| Key words: Impedance control, torque control, passivity and stability analysis |
