This paper presents a framework for motion planning with dynamics as hybrid search over the continuous space of feasible motions and the discrete space of a low-dimensional workspace decomposition. Each step of the hybrid search consists of expanding a frontier of regions in the discrete space using cost heuristics as guide followed by sampling-based motion planning to expand a tree of feasible motions in the continuous space to reach the frontier. The approach is geared towards robots with many degrees-of-freedom (DOFs), nonlinear dynamics, and nonholonomic constraints, which make it difficult to follow discrete-search paths to the goal, and hence require a tight coupling of motion planning and discrete search. Comparisons to related work...
To achieve optimal robot behavior in dynamic scenarios we need to consider complex dynamics in a pre...
Motion planning is an important problem in robotics which addresses the question of how to transitio...
This paper presents a method for computing the motions of a robot in dynamic environments, subject t...
To compute a motion trajectory that avoids collisions, reaches a goalregion, and satisfies different...
To achieve optimal robot behavior in dynamic scenarios we need to consider complex dynamics in a pre...
Sampling-based search has been shown effective in motion planning, a hard continuous state-space pro...
In its original formulation, the motion planning problem considers the search of a robot path from a...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
A significant challenge of autonomous robotics in transportation, exploration, and search-and-rescue...
Analysis techniques and algorithms for basic path planning have become quite valuable in a variety o...
Consider the practically relevant situation in which a robotic system is assigned a task to be execu...
Abstract—Many motion planning problems in robotics are high dimensional planning problems. While sam...
Haschke R. Hybrid Planning: Task-Space Control and Sampling-Based Planning. In: Workshop on Robot M...
Thesis (Ph.D.)--University of Washington, 2021Robotics has become a part of the solution in various ...
This paper presents an algorithm for finding a solution to the problem of planning a feasible path f...
To achieve optimal robot behavior in dynamic scenarios we need to consider complex dynamics in a pre...
Motion planning is an important problem in robotics which addresses the question of how to transitio...
This paper presents a method for computing the motions of a robot in dynamic environments, subject t...
To compute a motion trajectory that avoids collisions, reaches a goalregion, and satisfies different...
To achieve optimal robot behavior in dynamic scenarios we need to consider complex dynamics in a pre...
Sampling-based search has been shown effective in motion planning, a hard continuous state-space pro...
In its original formulation, the motion planning problem considers the search of a robot path from a...
Robots are being employed not only for assembly tasks, but also in domains like healthcare, mining, ...
A significant challenge of autonomous robotics in transportation, exploration, and search-and-rescue...
Analysis techniques and algorithms for basic path planning have become quite valuable in a variety o...
Consider the practically relevant situation in which a robotic system is assigned a task to be execu...
Abstract—Many motion planning problems in robotics are high dimensional planning problems. While sam...
Haschke R. Hybrid Planning: Task-Space Control and Sampling-Based Planning. In: Workshop on Robot M...
Thesis (Ph.D.)--University of Washington, 2021Robotics has become a part of the solution in various ...
This paper presents an algorithm for finding a solution to the problem of planning a feasible path f...
To achieve optimal robot behavior in dynamic scenarios we need to consider complex dynamics in a pre...
Motion planning is an important problem in robotics which addresses the question of how to transitio...
This paper presents a method for computing the motions of a robot in dynamic environments, subject t...