Relatively robust grasping
نویسنده
چکیده
In this paper, we present an approach for robustly grasping objects under positional uncertainty. We maintain a belief state (a probability distribution over world states), model the problem as a partially observable Markov decision process (POMDP), and select actions with a receding horizon using forward search through the belief space. Our actions are world-relative trajectories, or fixed trajectories expressed relative to the most-likely state of the world. We localize the object, ensure its reachability, and robustly grasp it at a goal position by using information-gathering, reorientation, and goal actions. We choose among candidate actions in a tractable way online by computing and storing the observation models needed for belief update offline. This framework is used to successfully grasp objects (including a powerdrill and a Brita pitcher) despite significant uncertainty, both in simulation and with an actual robot arm.
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