Lectures & Adaptive Parameter Estimation
Lectures & Adaptive Parameter Estimation
IROS '95 Proceedings of the International Conference on Intelligent Robots and Systems-Volume 1 - Volume 1
Kick it with elasticity: Safety and performance in human-robot soccer
Robotics and Autonomous Systems
Identification of contact dynamics parameters for stiff robotic payloads
IEEE Transactions on Robotics
IROS'09 Proceedings of the 2009 IEEE/RSJ international conference on Intelligent robots and systems
Contact impedance estimation for robotic systems
IEEE Transactions on Robotics
On the Passivity-Based Impedance Control of Flexible Joint Robots
IEEE Transactions on Robotics
PD control with on-line gravity compensation for robots with elastic joints: Theory and experiments
Automatica (Journal of IFAC)
Energy-Efficient Variable Stiffness Actuators
IEEE Transactions on Robotics
Proceedings of Conference on Advances In Robotics
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Variable stiffness actuators (VSAs) are currently explored as a new actuation approach to increase safety in physical human-robot interaction (pHRI) and improve dynamic performance of robots. For control purposes, accurate knowledge is needed of the varying stiffness at the robot joints, which is not directly measurable, nonlinearly depending on transmission deformation, and uncertain to be modeled. We address the online estimation of transmission stiffness in robots driven by VSAs in antagonistic or serial configuration, without the need for joint torque sensing. The two-stage approach combines (i) a residual-based estimator of the torque at the flexible transmission, and (ii) a recursive least squares stiffness estimator based on a parametric model. Further design refinements guarantee a robust behavior in the lack of velocity measures and in poor excitation conditions. The proposed stiffness estimation can be easily extended to multi-degree-of-freedom (multi-DOF) robots in a decentralized way, using only local motor and link position measurements. The method is tested through extensive simulations on the VSA-II device of the University of Pisa and on the Actuator with Adjustable Stiffness (AwAS) of IIT. Experiments on the AwAS platform validate the approach.