Litcius/Paper detail

Real-Time Simulation for Control of Soft Robots With Self-Collisions Using Model Order Reduction for Contact Forces

Olivier Goury, Bruno Carrez, Christian Duriez

2021IEEE Robotics and Automation Letters42 citationsDOIOpen Access PDF

Abstract

In rigid robotics, self-collision are usually avoided since it leads to a failure in the robot control and can also cause damage. In soft robotics, the situation is very different, and self-collisions may even be a desirable property, for example to gain artificial stiffness or to provide a natural limitation to the workspace. However, the modeling and simulation of self-collision is very costly as it requires first a collision detection algorithm to detect where collisions occur, and most importantly, it requires solving a constrained problem to avoid interpenetrations. When the number of contact points is large, this computation slows down the simulation dramatically. In this letter, we apply a numerical method to alleviate the contact response computation by reducing the contact space in a low-dimensional positive space obtained from experiments. We show good accuracy while speeding up dramatically the simulation. We apply the method in simulation on a cable-actuated finger and on a continuum manipulator performing exploration. We also show that the reduced contact method proposed can be used for inverse modeling. The method can therefore be used for control or design.

Topics & Concepts

ComputationRobotContact forceReduction (mathematics)CollisionComputer scienceWorkspaceRoboticsStiffnessCollision detectionSimulationControl theory (sociology)Artificial intelligenceAlgorithmControl (management)EngineeringMathematicsStructural engineeringPhysicsComputer securityQuantum mechanicsGeometryRobot Manipulation and LearningSoft Robotics and ApplicationsRobotic Mechanisms and Dynamics