Abstract—Motion planning in high dimensional state spaces, such as for mobile manipulation, is a challenging problem. Con-strained manipulation, e.g. opening articulated objects like doors or drawers, is also hard since sampling states on the constrained manifold is expensive. Further, planning for such tasks requires a combination of planning in free space for reaching a desired grasp or contact location followed by planning for the constrained manipulation motion, often necessitating a slow two step process in traditional approaches. In this work, we show that combined planning for such tasks can be dramatically accelerated by providing user demonstrations of the constrained manipulation motions. In particular, we show how such demonstrat...
Figure 1: Our planner produces collision-free walking motions allowing reaching the handle, opening ...
We consider a class of advanced motion planning problems including object manipulation, navigation a...
We present a framework for visual action planning of complex manipulation tasks with high-dimensiona...
Abstract Motion planning in high dimensional state spaces, such as for mo-bile manipulation, is a ch...
Abstract—We present a novel motion planning algorithm for performing constrained tasks such as openi...
Every planning problem in robotics involves constraints. Whether the robot must avoid collision or j...
Abstract — Computing a motion that enables a mobile manip-ulator to open a door is challenging becau...
Abstract — Humanoid service robots performing complex object manipulation tasks need to plan whole-b...
In this paper, we discuss information that is beneficial to robotic grasp planning and can be extrac...
In a realistic mobile push-manipulation scenario, it becomes non-trivial and infeasible to build ana...
We present a manipulation planning framework that allows robots to plan in the presence of constrain...
Motion planning is a central problem in robotics and is crucial to finding paths to navigate and man...
Abstract — This paper introduces the concept of a task motion multigraph, a data structure that can ...
Robotic manipulation is important for real, physical world applications. General Purpose manipulatio...
Abstract—We propose a planning method for grasping in cluttered environments, a method where the rob...
Figure 1: Our planner produces collision-free walking motions allowing reaching the handle, opening ...
We consider a class of advanced motion planning problems including object manipulation, navigation a...
We present a framework for visual action planning of complex manipulation tasks with high-dimensiona...
Abstract Motion planning in high dimensional state spaces, such as for mo-bile manipulation, is a ch...
Abstract—We present a novel motion planning algorithm for performing constrained tasks such as openi...
Every planning problem in robotics involves constraints. Whether the robot must avoid collision or j...
Abstract — Computing a motion that enables a mobile manip-ulator to open a door is challenging becau...
Abstract — Humanoid service robots performing complex object manipulation tasks need to plan whole-b...
In this paper, we discuss information that is beneficial to robotic grasp planning and can be extrac...
In a realistic mobile push-manipulation scenario, it becomes non-trivial and infeasible to build ana...
We present a manipulation planning framework that allows robots to plan in the presence of constrain...
Motion planning is a central problem in robotics and is crucial to finding paths to navigate and man...
Abstract — This paper introduces the concept of a task motion multigraph, a data structure that can ...
Robotic manipulation is important for real, physical world applications. General Purpose manipulatio...
Abstract—We propose a planning method for grasping in cluttered environments, a method where the rob...
Figure 1: Our planner produces collision-free walking motions allowing reaching the handle, opening ...
We consider a class of advanced motion planning problems including object manipulation, navigation a...
We present a framework for visual action planning of complex manipulation tasks with high-dimensiona...