New dry friction model with load- and velocity- dependence and dynamic identification of multi-dof robots
Résumé
— Usually, the joint transmission friction model for robots is composed of a viscous friction force and of a constant dry sliding friction force. However, according to the Coulomb law, the dry friction force depends linearly on the load driven by the transmission, which has to be taken into account for robots working with large variation of the payload or inertial and gravity forces. Moreover, for robots actuating at low velocity, the Stribeck effect must be taken into account. This paper proposes a new inverse dynamic identification model for n degrees of freedom (dof) serial robot, where the dry sliding friction force is a linear function of both the dynamic and the external forces, with a velocity-dependent coefficient. A new sequential identification procedure is carried out. At a first step, the friction model parameters are identified for each joint (1 dof), moving one joint at a time (this step has been validated in [23]). At a second step, these values are fixed in the n dof dynamic model for the identification of all robot inertial and gravity parameters. For the two steps, the identification concatenates all the joint data collected while the robot is tracking planned trajectories with different payloads to get a global least squares estimation of inertial and new friction parameters. An experimental validation is carried out with an industrial 3 dof robot.
Mots clés
Coulomb law
Dry friction
Dry sliding friction
Dynamic identification
Experimental validations
External force
Friction models
Friction parameters
Global least squares
Gravity forces
Identification procedure
Inverse dynamics
Joint transmissions
Linear functions
Low velocities
Multi-DOF
Robots working
Serial robots
Stribeck effect
Velocity dependence
Velocity-dependent
Viscous friction
Digital storage
Gravitation
Identification (control systems)
Parameter estimation
Robotics
Robots
Tribology
Friction
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