Optimal sampling based motion planning and trajectory optimization are two competing frameworks to generate optimal motion plans. Both frameworks have complementary properties: Sampling based planners are typically slow to converge, but provide optimality guarantees. Trajectory optimizers, however, are typically fast to converge, but do not provide global optimality guarantees in nonconvex problems, e.g. scenarios with obstacles. To achieve the best of both worlds, we introduce a new planner, BITKOMO, which integrates the asymptotically optimal Batch Informed Trees (BIT*) planner with the K-Order Markov Optimization (KOMO) trajectory optimization framework. Our planner is anytime and maintains the same asymptotic optimality guarantees provi...
In this thesis we modified a sampling-based motion planning algorithm to improve sampling efficiency...
Path planning is a crucial algorithmic approach for designing robot behaviors. Sampling-based approa...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...
This paper proposes a novel sampling-based motion planner, which integrates in RRT* (Rapidly explori...
Bidirectional motion planning approaches decrease planning time, on average, compared to their unidi...
A motion planner finds a sequence of potential motions for a robot to transit from an initial to a g...
Algorithms have been designed for robot motion planning with various adaptability to different probl...
© 2018 IEEE. We present an evaluation of several representative sampling-based and optimization-base...
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’...
Path planners based on basic rapidly-exploring random trees (RRTs) are quick and efficient, and thus...
Robot actuators have physical limitations in how fast they can change their velocity. The more accur...
We consider time-optimal motion planning for dynamical systems that are translation-invariant, a pro...
Motion is an essential component of our world. It dominates the world of robotics, our understanding...
algorithm for motion planning. The EET planner deliberately trades probabilistic completeness for co...
In this thesis we modified a sampling-based motion planning algorithm to improve sampling efficiency...
Path planning is a crucial algorithmic approach for designing robot behaviors. Sampling-based approa...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...
This paper proposes a novel sampling-based motion planner, which integrates in RRT* (Rapidly explori...
Bidirectional motion planning approaches decrease planning time, on average, compared to their unidi...
A motion planner finds a sequence of potential motions for a robot to transit from an initial to a g...
Algorithms have been designed for robot motion planning with various adaptability to different probl...
© 2018 IEEE. We present an evaluation of several representative sampling-based and optimization-base...
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’...
Path planners based on basic rapidly-exploring random trees (RRTs) are quick and efficient, and thus...
Robot actuators have physical limitations in how fast they can change their velocity. The more accur...
We consider time-optimal motion planning for dynamical systems that are translation-invariant, a pro...
Motion is an essential component of our world. It dominates the world of robotics, our understanding...
algorithm for motion planning. The EET planner deliberately trades probabilistic completeness for co...
In this thesis we modified a sampling-based motion planning algorithm to improve sampling efficiency...
Path planning is a crucial algorithmic approach for designing robot behaviors. Sampling-based approa...
Sampling-based motion planners such as RRT* and BIT*, when applied to kinodynamic motion planning, r...