Time-Optimized Trajectory Planning for Non-Prehensile Object Transportation in 3D
Non-prehensile object transportation offers a way to enhance robotic performance in object manipulation tasks, especially with unstable objects. Effective trajectory planning requires simultaneous consideration of robot motion constraints and object stability. Here, we introduce a physical model for...
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| Zusammenfassung: | Non-prehensile object transportation offers a way to enhance robotic
performance in object manipulation tasks, especially with unstable objects.
Effective trajectory planning requires simultaneous consideration of robot
motion constraints and object stability. Here, we introduce a physical model
for object stability and propose a novel trajectory planning approach for
non-prehensile transportation along arbitrary straight lines in 3D space.
Validation with a 7-DoF Franka Panda robot confirms improved transportation
speed via tray rotation integration while ensuring object stability and robot
motion constraints. |
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| DOI: | 10.48550/arxiv.2408.16420 |