This paper extends the RRT* algorithm, a recently developed but widely used sampling based optimal motion planner, in order to effectively handle nonlinear kinodynamic constraints. Nonlinearity in kinodynamic differential constraints often leads to difficulties in choosing an appropriate distance metric and in computing optimized trajectory segments in tree construction. To tackle these two difficulties, this work adopts the affine quadratic regulator-based pseudo-metric as the distance measure and utilizes iterative two-point boundary value problem solvers to compute the optimized segments. The proposed extension then preserves the inherent asymptotic optimality of the RRT* framework, while efficiently handling a variety of kinodynamic con...
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’...
This paper explores the use of time-optimal controls to improve the performance of sampling-based ki...
This paper extends the RRT* algorithm, a recently developed but widely used sampling based optimal m...
Some of the latest developments in motion planning methods have addressed the merging of optimal co...
Abstract — The RRT ∗ algorithm has recently been proposed as an optimal extension to the standard RR...
This paper proposes a novel sampling-based motion planner, which integrates in Rapidly exploring Ran...
This paper presents a newly conceived planning algorithm that is based on the introduction of motion...
sampling-based approach for asymptotically optimal motion planning for robots with linear differenti...
The RRT* algorithm has recently been proposed as an optimal extension to the standard RRT algorithm ...
Kinodynamic planning algorithms like Rapidly-Exploring Randomized Trees (RRTs) hold the promise of f...
Robot actuators have physical limitations in how fast they can change their velocity. The more accur...
Copyright © 2013 IEEEPresented at 2013 IEEE International Conference on Robotics and Automation (ICR...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...
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’...
This paper explores the use of time-optimal controls to improve the performance of sampling-based ki...
This paper extends the RRT* algorithm, a recently developed but widely used sampling based optimal m...
Some of the latest developments in motion planning methods have addressed the merging of optimal co...
Abstract — The RRT ∗ algorithm has recently been proposed as an optimal extension to the standard RR...
This paper proposes a novel sampling-based motion planner, which integrates in Rapidly exploring Ran...
This paper presents a newly conceived planning algorithm that is based on the introduction of motion...
sampling-based approach for asymptotically optimal motion planning for robots with linear differenti...
The RRT* algorithm has recently been proposed as an optimal extension to the standard RRT algorithm ...
Kinodynamic planning algorithms like Rapidly-Exploring Randomized Trees (RRTs) hold the promise of f...
Robot actuators have physical limitations in how fast they can change their velocity. The more accur...
Copyright © 2013 IEEEPresented at 2013 IEEE International Conference on Robotics and Automation (ICR...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...
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’...
This paper explores the use of time-optimal controls to improve the performance of sampling-based ki...