On-line collision avoidance for collaborative robot manipulators by adjusting off-line generated paths: An industrial use case - Archive ouverte HAL
Article Dans Une Revue Robotics and Autonomous Systems Année : 2019

On-line collision avoidance for collaborative robot manipulators by adjusting off-line generated paths: An industrial use case

Résumé

Human–robot collision avoidance is a key in collaborative robotics and in the framework of Industry 4.0. It plays an important role for achieving safety criteria while having humans and machines working side-by-side in unstructured and time-varying environment. This study introduces the subject of manipulator’s on-line collision avoidance into a real industrial application implementing typical sensors and a commonly used collaborative industrial manipulator, KUKA iiwa. In the proposed methodology, the human co-worker and the robot are represented by geometric primitives (capsules). The minimum distance and relative velocity between them is calculated, when human/obstacles are nearby the concept of hypothetical repulsion and attraction vectors is used. By coupling this concept with a mathematical representation of robot’s kinematics, a task level control with collision avoidance capability is achieved. Consequently, the off-line generated nominal path of the industrial task is modified on-the-fly so the robot is able to avoid collision with the co-worker safely while being able to fulfill the industrial operation. To guarantee motion continuity when switching between different tasks, the notion of repulsion-vector-reshaping is introduced. Tests on an assembly robotic cell in automotive industry show that the robot moves smoothly and avoids collisions successfully by adjusting the off-line generated nominal paths.
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Dates et versions

hal-02362167 , version 1 (13-11-2019)

Identifiants

  • HAL Id : hal-02362167 , version 1

Citer

Mohammad Safeea, Pedro Neto, Richard Bearee. On-line collision avoidance for collaborative robot manipulators by adjusting off-line generated paths: An industrial use case. Robotics and Autonomous Systems, 2019, 119, pp.278-288. ⟨hal-02362167⟩
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