The panorama of probabilistic completeness results for kinodynamic planners is still confusing. Most existing completeness proofs require strong assumptions that are difficult, if not impossible, to verify in practice. To make completeness results more useful, it is thus sensible to establish a classification of the various types of constraints and planning methods, and then attack each class with specific proofs and hypotheses that can be verified in practice. We propose such a classification, and provide a proof of probabilistic completeness for an important class of planners, namely those whose steering method is based on the interpolation of system trajectories in the state space. We also provide design guidelines for the interpolation ...
Sampling-based search has been shown effective in motion planning, a hard continuous state-space pro...
Motion planning is a fundamental algorithmic problem that attracts attention because of its importan...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...
Abstract — The panorama of probabilistic completeness re-sults for kinodynamic planners is still con...
This report presents a motion planner for systems subject to kinematic and dynamic constraints. The ...
This paper presents a novel randomized motion planner for robots that must achieve a specified goal ...
Abstract — We introduce acceleration-limited planning for manipulators as a middle ground between pu...
© 20xx IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This dissertation explores properties of motion planners that build tree data structures in a robot’...
This dissertation explores properties of motion planners that build tree data structures in a robot’...
Abstract — We provide a set of sufficient conditions to es-tablish the completeness of an ensemble o...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The Rapidly-exploring Random Tree (RRT) algorithm has been one of the most prevalent and popular mot...
We introduce a motion planning infrastructure, a new set of distance functions and a steering functi...
This paper presents a novel randomized motion planner for robots that must achieve a specified goal ...
Sampling-based search has been shown effective in motion planning, a hard continuous state-space pro...
Motion planning is a fundamental algorithmic problem that attracts attention because of its importan...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...
Abstract — The panorama of probabilistic completeness re-sults for kinodynamic planners is still con...
This report presents a motion planner for systems subject to kinematic and dynamic constraints. The ...
This paper presents a novel randomized motion planner for robots that must achieve a specified goal ...
Abstract — We introduce acceleration-limited planning for manipulators as a middle ground between pu...
© 20xx IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This dissertation explores properties of motion planners that build tree data structures in a robot’...
This dissertation explores properties of motion planners that build tree data structures in a robot’...
Abstract — We provide a set of sufficient conditions to es-tablish the completeness of an ensemble o...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The Rapidly-exploring Random Tree (RRT) algorithm has been one of the most prevalent and popular mot...
We introduce a motion planning infrastructure, a new set of distance functions and a steering functi...
This paper presents a novel randomized motion planner for robots that must achieve a specified goal ...
Sampling-based search has been shown effective in motion planning, a hard continuous state-space pro...
Motion planning is a fundamental algorithmic problem that attracts attention because of its importan...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...