When operating in human environments, a robot should use predictable motions that allow humans to trust and anticipate its behavior. Heuristic search-based planning offers predictable motions and guarantees on completeness and sub-optimality of solutions. While search-based planning on motion primitive-based (lattice-based) graphs has been used extensively in navigation, application to high-dimensional state-spaces has, until recently, been thought impractical. This dissertation presents methods we have developed for applying these graphs to mobile manipulation, specifically for systems which contain closed chains. The formation of closed chains in tasks that involve contacts with the environment may reduce the number of available degrees-o...
Traditionally, motion planning involved navigating one robot from source to goal for accomplishing a...
Abstract-In this paper, we present a search-based motion planning algorithm for manipulation that ha...
Abstract — This paper presents a technique for improving the efficiency of automated motion planners...
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...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
This paper presents an algorithm for finding a solution to the problem of planning a feasible path f...
Thesis (Ph.D.)--University of Washington, 2021Robotics has become a part of the solution in various ...
Abstract — Computing a motion that enables a mobile manip-ulator to open a door is challenging becau...
Abstract — Heuristic searches such as A * search are a popular means of finding least-cost plans due...
(*Work done while at EPFL-VRlab) Neuroscience evidence supports the idea that biological adaptive be...
<p>An effective autonomous robot performing dangerous or menial tasks will need to act under signifi...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
Traditionally, motion planning involved navigating one robot from source to goal for accomplishing a...
Abstract-In this paper, we present a search-based motion planning algorithm for manipulation that ha...
Abstract — This paper presents a technique for improving the efficiency of automated motion planners...
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...
When operating in human environments, a robot should use predictable motions that allow humans to tr...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
Motion primitive-based (lattice-based) graphs have been used extensively in navigation, but applicat...
This paper presents an algorithm for finding a solution to the problem of planning a feasible path f...
Thesis (Ph.D.)--University of Washington, 2021Robotics has become a part of the solution in various ...
Abstract — Computing a motion that enables a mobile manip-ulator to open a door is challenging becau...
Abstract — Heuristic searches such as A * search are a popular means of finding least-cost plans due...
(*Work done while at EPFL-VRlab) Neuroscience evidence supports the idea that biological adaptive be...
<p>An effective autonomous robot performing dangerous or menial tasks will need to act under signifi...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
Traditionally, motion planning involved navigating one robot from source to goal for accomplishing a...
Abstract-In this paper, we present a search-based motion planning algorithm for manipulation that ha...
Abstract — This paper presents a technique for improving the efficiency of automated motion planners...