Published May 26, 2022 | Version v1
Conference paper Open

Impact Planning and Pre-configuration based on Hierarchical Quadratic Programming

  • 1. Politecnico di Milano
  • 2. Istituto Italiano di Tecnologia

Description

Impacts and other non-smooth behaviors are usually unwanted in robotic applications. However, several
industrial tasks such as deburring, removing excess material, and assembling/fitting, involve impacts between objects, which can benefit from robotic automation due to the risks posed to human health. Towards this objective, in this paper, we propose a method for optimal impact planning and pre-configuration for torque-controlled robots. We thus employ a well-known impulsive contact model to plan the impact force and create a hierarchical quadratic programming based controller capable of minimizing the robot’s peak torques by reconfiguring its
joints optimally, before the impact occurs. The results obtained from multiple experiments during an industrial deburring task are discussed. Using a 7-DoF manipulator, we show consistent results, both in terms of accuracy of the impact force tracking with respect to the desired forces, and in terms of peak torques reduction and uniform torques distribution.

 

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Additional details

Related works

Cites
Conference paper: 10.1109/ICRA48506.2021.9561506 (DOI)

Funding

European Commission
SOPHIA – Socio-physical Interaction Skills for Cooperative Human-Robot Systems in Agile Production 871237