Add to ORKGThis paper introduces box approximations as a new tool for path planning of closed-loop linkages. Box approximations are finite collections of rectangloids that tightly envelop the robot's free space at a desired resolution. They play a similar role to that of approximate cell decompositions for open-chain robots - they capture the free-space connectivity in a multi-resolutive fashion and yield rectangloid channels enclosing collision-free paths - but have the additional property of enforcing the satisfaction of loop closure constraints frequently arising in articulated linkages. We present an efficient technique to compute such approximations and show how resolution-complete path planners can be devised using them. To the authors' knowledg...
Abstract: Motion planning for spatially constrained robots is difficult due to addi-tional constrain...
This paper presents a new method to isolate all configurations that a multiloop linkage can adopt. T...
Abstract: Given a linkage belonging to any of several broad classes (both planar and spatial), we ha...
This paper introduces box approximations as a new tool for path planning of closed-loop linkages. Bo...
Abstract — This paper introduces box approximations as a new tool for path planning of closed-loop l...
A method to compute an exact cell decomposition and corresponding connectivity graph of the configur...
Abstract — A method to compute an exact cell decomposi-tion and corresponding connectivity graph of ...
In this thesis we introduce the notion of incremental problems in geometric robot motion planning, a...
Abstract In this paper we consider the motion planning problem for arbitrary articulated structures...
This report presents a new method able to isolate all configurations that a multi-loop linkage can a...
Motion planning is an important problem in robotics which addresses the question of how to transitio...
Irreducibility is a theoretical framework for completeness-preserving dimensionality reduction in mo...
Abstract — This paper presents a technique for improving the efficiency of automated motion planners...
Includes bibliographical references.This work considers the path planning problem for planar revolut...
In this work, a topological characteristic of various classes of configuration space obstacles is ex...
Abstract: Motion planning for spatially constrained robots is difficult due to addi-tional constrain...
This paper presents a new method to isolate all configurations that a multiloop linkage can adopt. T...
Abstract: Given a linkage belonging to any of several broad classes (both planar and spatial), we ha...
This paper introduces box approximations as a new tool for path planning of closed-loop linkages. Bo...
Abstract — This paper introduces box approximations as a new tool for path planning of closed-loop l...
A method to compute an exact cell decomposition and corresponding connectivity graph of the configur...
Abstract — A method to compute an exact cell decomposi-tion and corresponding connectivity graph of ...
In this thesis we introduce the notion of incremental problems in geometric robot motion planning, a...
Abstract In this paper we consider the motion planning problem for arbitrary articulated structures...
This report presents a new method able to isolate all configurations that a multi-loop linkage can a...
Motion planning is an important problem in robotics which addresses the question of how to transitio...
Irreducibility is a theoretical framework for completeness-preserving dimensionality reduction in mo...
Abstract — This paper presents a technique for improving the efficiency of automated motion planners...
Includes bibliographical references.This work considers the path planning problem for planar revolut...
In this work, a topological characteristic of various classes of configuration space obstacles is ex...
Abstract: Motion planning for spatially constrained robots is difficult due to addi-tional constrain...
This paper presents a new method to isolate all configurations that a multiloop linkage can adopt. T...
Abstract: Given a linkage belonging to any of several broad classes (both planar and spatial), we ha...