Closed-Loop Next-Best-View Planning for Target-Driven Grasping
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Picking a specific object from clutter is an essential component of many manipulation tasks. Partial observations often require the robot to collect additional views of the scene before attempting a grasp. This paper proposes a closed-loop next-best-view planner that drives exploration based on occluded object parts. By continuously predicting grasps from an up-to-date scene reconstruction, our policy can decide online to finalize a grasp execution or to adapt the robot's trajectory for further exploration. We show that our reactive approach decreases execution times without loss of grasp success rates compared to common camera placements and handles situations where the fixed baselines fail. Video and code are available at https://github.com/ethz-asl/active_grasp.
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Cited by 2 Pith papers
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A visibility-aware mobile grasping system with iterative whole-body planning and behavior-tree subgoal generation achieves 68.8% success in unknown static and 58% in dynamic environments, outperforming a baseline by 2...
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Visibility-Aware Mobile Grasping in Dynamic Environments
A unified visibility-aware mobile grasping system using whole-body planning, active perception, and behavior trees improves success rates in unknown static and dynamic environments.
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