论文信息 - Experimental Real-Time Setup for Vision Driven Hand-Over with a Collaborative Robot

Experimental Real-Time Setup for Vision Driven Hand-Over with a Collaborative Robot

Collaborative robotics aims to make possible a close collaboration between human operators and robots in the industry scenario. To achieve this goal, the robot must be able to adapt its behavior to the movements of human co-worker. This work presents a control strategy that permits to drive a UR3 collaborative robot in order to perform a hand-over task with a human operator. The movements of the operator are acquired by a 3D vision system made of multiple Microsoft Kinect sensors, so to prevent possible occlusions related to the presence of the robot or dynamic obstacles in the field of view of the sensors. Thus, the human skeletons extracted from depth sensors are handled by an algorithm that generates an optimized skeleton. A path-planning algorithm uses the skeleton information to calculates the robot joints velocities to accomplish the task. Experimental tests have been conducted to verify the effectiveness of the hand-over strategy here proposed. The hardware setup prepared for the experimental phase of the work and the results obtained from the tests are presented and discussed.

[1] Stefano Pastorelli,et al. Collision Avoidance Algorithm for Collaborative Robotics , 2017, Int. J. Autom. Technol..

[2] Yunyi Jia,et al. Controlling Object Hand-Over in Human–Robot Collaboration Via Natural Wearable Sensing , 2019, IEEE Transactions on Human-Machine Systems.

[3] Alexander Verl,et al. Cooperation of human and machines in assembly lines , 2009 .

[4] Maya Cakmak,et al. Adaptive Coordination Strategies for Human-Robot Handovers , 2015, Robotics: Science and Systems.

[5] Siddhartha S. Srinivasa,et al. Using spatial and temporal contrast for fluent robot-human hand-overs , 2011, 2011 6th ACM/IEEE International Conference on Human-Robot Interaction (HRI).

[6] Sotiris Makris,et al. Design Considerations for Safe Human-robot Collaborative Workplaces , 2015 .

[7] Stefano Pastorelli,et al. Influence of Human Limb Motion Speed in a Collaborative Hand-over Task , 2018, ICINCO.

[8] Charlie C. L. Wang,et al. Improved Skeleton Tracking by Duplex Kinects: A Practical Approach for Real-Time Applications , 2013, J. Comput. Inf. Sci. Eng..

[9] Satoshi Endo,et al. Relative importance of spatial and temporal precision for user satisfaction in human-robot object handover interactions , 2014, HRI 2014.

[10] Stefano Pastorelli,et al. Multiple Collision Avoidance between Human Limbs and Robot Links Algorithm in Collaborative Tasks , 2018, ICINCO.