Robot manipulation in cluttered environments often requires complex and sequential rearrangement of multiple objects in order to achieve the desired reconfiguration of the target objects. Due to the sophisticated physical interactions involved in such scenarios, rearrangement-based manipulation is still limited to a small range of tasks and is especially vulnerable to physical uncertainties and perception noise. This paper presents a planning framework that leverages the efficiency of sampling-based planning approaches, and closes the manipulation loop by dynamically controlling the planning horizon. Our approach interleaves planning and execution to progressively approach the manipulation goal while correcting any errors or path deviations...
Recent work has shown that complex manipulation skills, such as pushing or pouring, can be learned t...
In this paper, we address the problem of visually guided rearrangement planning with many movable ob...
Humans display extraordinary ability in grasping and manipulating objects even in extremely complex ...
<p>As we work to move robots out of factories and into human environments, we must empower robots to...
Manipulation in clutter requires solving complex sequential decision making problems in an environme...
<p>Robotic manipulation systems suffer from two main problems in unstructured human environments: <e...
This paper addresses the problem of rearrangement planning, i.e. to find a feasible trajectory for a...
Adaptation to unorganized, congested and uncertain environment is a desirable capability but challen...
Abstract—We present a randomized kinodynamic plan-ner that solves rearrangement planning problems. W...
This thesis presents motion planning and control algorithms to tackle the problem of Reaching Throug...
Abstract—In this work we present a fast kinodynamic RRT-planner that uses dynamic nonprehensile acti...
2014-12-08Robotic household assistants of the future will need to understand their environment in re...
Robotic systems are the workhorses in practically all automated applications. Manufacturing industri...
This thesis handles the motion planning problem for various robotic platforms. This is a fundamental...
<p>This thesis presents a series of planners and algorithms for manipulation in cluttered human envi...
Recent work has shown that complex manipulation skills, such as pushing or pouring, can be learned t...
In this paper, we address the problem of visually guided rearrangement planning with many movable ob...
Humans display extraordinary ability in grasping and manipulating objects even in extremely complex ...
<p>As we work to move robots out of factories and into human environments, we must empower robots to...
Manipulation in clutter requires solving complex sequential decision making problems in an environme...
<p>Robotic manipulation systems suffer from two main problems in unstructured human environments: <e...
This paper addresses the problem of rearrangement planning, i.e. to find a feasible trajectory for a...
Adaptation to unorganized, congested and uncertain environment is a desirable capability but challen...
Abstract—We present a randomized kinodynamic plan-ner that solves rearrangement planning problems. W...
This thesis presents motion planning and control algorithms to tackle the problem of Reaching Throug...
Abstract—In this work we present a fast kinodynamic RRT-planner that uses dynamic nonprehensile acti...
2014-12-08Robotic household assistants of the future will need to understand their environment in re...
Robotic systems are the workhorses in practically all automated applications. Manufacturing industri...
This thesis handles the motion planning problem for various robotic platforms. This is a fundamental...
<p>This thesis presents a series of planners and algorithms for manipulation in cluttered human envi...
Recent work has shown that complex manipulation skills, such as pushing or pouring, can be learned t...
In this paper, we address the problem of visually guided rearrangement planning with many movable ob...
Humans display extraordinary ability in grasping and manipulating objects even in extremely complex ...