G. Magnani scite author profile

The present paper addresses the issues that should be covered in order to develop walk-through programming techniques (i.e. a manual guidance of the robot) in an industrial scenario. First, an exact formulation of the dynamics of the tool the human should feel when interacting with the robot is presented. Then, the paper discusses a way to implement such dynamics on an industrial robot equipped with an open robot control system and a wrist force/torque sensor, as well as the safety issues related to the walk-through programming. In particular, two strategies that make use of admittance control to constrain the robot motion are presented. One slows down the robot when the velocity of the tool centre point exceeds a specified safety limit, the other one limits the robot workspace by way of virtual safety surfaces. Experimental results on a COMAU Smart Six robot are presented, showing the performance of the walk-through programming system endowed with the two proposed safety strategies

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Modeling, identification, and compensation of pulsating torque in permanent magnet AC motors

Ferretti

Magnani

Rocco

1998

IEEE Trans. Ind. Electron.

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Virtual prototyping of mechatronic systems

Ferretti

Magnani

Rocco

2004

Annual Reviews in Control

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G. Magnani

Force Ripple Compensation in Linear Motors Based on Closed-Loop Position-Dependent Identification

Impedance Control for Elastic Joints Industrial Manipulators

Walk-through programming for robotic manipulators based on admittance control

Modeling, identification, and compensation of pulsating torque in permanent magnet AC motors

Virtual prototyping of mechatronic systems

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