Abstract-In this paper, we present a search-based motion planning algorithm for manipulation that handles the high dimensionality of the problem and minimizes the limitations associated with employing a strict set of pre-defined actions. Our approach employs a set of adaptive motion primitives comprised of static motions with variable dimensionality and on-the-fly motions generated by two analytical solvers. This method results in a slimmer, multi-dimensional lattice and offers the ability to satisfy goal constraints with precision. To validate our approach, we used a 7DOF manipulator to perform experiments on a real mobile manipulation platform (Willow Garage's PR2). Our results demonstrate the effectiveness of the planner in efficien...
Abstract—We present a novel motion planning algorithm for performing constrained tasks such as openi...
Figure 1: Our planner produces collision-free walking motions allowing reaching the handle, opening ...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
Abstract — Heuristic searches such as A * search are a popular means of finding least-cost plans due...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
Heuristic searches such as A* search are a popular means of finding least-cost plans due to their ge...
Motion planning for robotics manipulation is an essential component for automating various tasks. In...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
This paper addresses the manipulation planning problem which deals with motion planning for robots m...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
Abstract — This paper addresses the dexterous manipulation planning problem of 3D rigid objects by a...
Abstract—Kinematic planning for robotic arms has been shown to be capable of planning for robust man...
In many robot motion planning problems such as manipulation planning for a personal robot in a kitch...
Abstract—We present a novel motion planning algorithm for performing constrained tasks such as openi...
Figure 1: Our planner produces collision-free walking motions allowing reaching the handle, opening ...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
Abstract — Heuristic searches such as A * search are a popular means of finding least-cost plans due...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
Heuristic searches such as A* search are a popular means of finding least-cost plans due to their ge...
Motion planning for robotics manipulation is an essential component for automating various tasks. In...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
This paper addresses the manipulation planning problem which deals with motion planning for robots m...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
Abstract — This paper addresses the dexterous manipulation planning problem of 3D rigid objects by a...
Abstract—Kinematic planning for robotic arms has been shown to be capable of planning for robust man...
In many robot motion planning problems such as manipulation planning for a personal robot in a kitch...
Abstract—We present a novel motion planning algorithm for performing constrained tasks such as openi...
Figure 1: Our planner produces collision-free walking motions allowing reaching the handle, opening ...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...