Add to ORKGAbstract—Sampling-based algorithms have dramatically im-proved the state of the art in robotic motion planning. However, they make restrictive assumptions that limit their applicability to manipulators operating in uncontrolled and partially unknown environments. This work describes how one of these assumptions—that the world is perfectly known—can be removed. We propose a utility-guided roadmap planner that incorporates uncertainty directly into the planning process. This enables the planner to identify configuration space paths that minimize uncertainty and, when necessary, efficiently pursue further exploration through utility-guided sensing of the workspace. Experimental results indicate that our utility-guided approach results in a rob...
We present a new motion planning framework that explicitly considers uncertainty in robot motion to ...
Abstract — We present a new motion planning framework that explicitly considers uncertainty in robot...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Sampling-based algorithms have dramatically improved the state of the art in robotic motion planning...
AbstractIn robotics uncertainty exists at both planning and execution time. Effective planning must ...
Uncertainty in motion planning is often caused by three main sources: motion error, sensing error, a...
AbstractIn robotics uncertainty exists at both planning and execution time. Effective planning must ...
Many existing path planning methods do not adequately account for uncertainty. Without uncertainty t...
Motion planning that takes into account uncertainty in motion, sensing, and environment map, is crit...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Abstract — We present a new motion planning framework that explicitly considers uncertainty in robot...
Abstract — Randomized motion planning techniques are re-sponsible for many of the recent successes i...
We present a new motion planning framework that explicitly considers uncertainty in robot motion to ...
Robot control systems are subject to significant uncertainty and error. Typical robots are also eq...
We present a new motion planning framework that explicitly considers uncertainty in robot motion to ...
Abstract — We present a new motion planning framework that explicitly considers uncertainty in robot...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Sampling-based algorithms have dramatically improved the state of the art in robotic motion planning...
AbstractIn robotics uncertainty exists at both planning and execution time. Effective planning must ...
Uncertainty in motion planning is often caused by three main sources: motion error, sensing error, a...
AbstractIn robotics uncertainty exists at both planning and execution time. Effective planning must ...
Many existing path planning methods do not adequately account for uncertainty. Without uncertainty t...
Motion planning that takes into account uncertainty in motion, sensing, and environment map, is crit...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Abstract — We present a new motion planning framework that explicitly considers uncertainty in robot...
Abstract — Randomized motion planning techniques are re-sponsible for many of the recent successes i...
We present a new motion planning framework that explicitly considers uncertainty in robot motion to ...
Robot control systems are subject to significant uncertainty and error. Typical robots are also eq...
We present a new motion planning framework that explicitly considers uncertainty in robot motion to ...
Abstract — We present a new motion planning framework that explicitly considers uncertainty in robot...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...