We present a predictive system for non-prehensile, physics-based motion planning in clutter with a human-in-the-loop. Recent shared-autonomous systems present motion planning performance improvements when high-level reasoning is provided by a human. Humans are usually good at quickly identifying high-level actions in high-dimensional spaces, and robots are good at converting high-level actions into valid robot trajectories. In this paper, we present a novel framework that permits a single human operator to effectively guide a fleet of robots in a virtual warehouse. The robots are tackling the problem of Reaching Through Clutter (RTC), where they are reaching onto cluttered shelves to grasp a goal object while pushing other obstacles out of ...
Planning motion is an essential component for any autonomous robotic system. An intelligent agent mu...
International audienceRobot navigation in the presence of humans raises new issues for motion planni...
The goal of this thesis is to enable robots to produce motion that is suitable for human-robot colla...
This thesis presents motion planning and control algorithms to tackle the problem of Reaching Throug...
Humans, in comparison to robots, are remarkably adept at reaching for objects in cluttered environme...
We propose a human-operator guided planning approach to pushing-based manipulation in clutter. Most ...
This thesis presents a series of planners and algorithms for manipulation in cluttered human environ...
cf : hal-00668407This paper presents interaction between a user and a robot to guide motion through ...
Human–Robot Interaction (HRI) for collaborative robots has become an active research topic recently....
As we work to move robots out of factories and into human environments, we must empower robots to in...
Abstract — This paper addresses the motion planning problem while considering Human-Robot Interactio...
Abstract—We propose a planning method for grasping in cluttered environments, a method where the rob...
<p>Robotic manipulation systems suffer from two main problems in unstructured human environments: <e...
Robot motion planning is a field that encompasses many different problems and algorithms. From the t...
<p>We propose a planning method for grasping in cluttered environments, a method where the robot can...
Planning motion is an essential component for any autonomous robotic system. An intelligent agent mu...
International audienceRobot navigation in the presence of humans raises new issues for motion planni...
The goal of this thesis is to enable robots to produce motion that is suitable for human-robot colla...
This thesis presents motion planning and control algorithms to tackle the problem of Reaching Throug...
Humans, in comparison to robots, are remarkably adept at reaching for objects in cluttered environme...
We propose a human-operator guided planning approach to pushing-based manipulation in clutter. Most ...
This thesis presents a series of planners and algorithms for manipulation in cluttered human environ...
cf : hal-00668407This paper presents interaction between a user and a robot to guide motion through ...
Human–Robot Interaction (HRI) for collaborative robots has become an active research topic recently....
As we work to move robots out of factories and into human environments, we must empower robots to in...
Abstract — This paper addresses the motion planning problem while considering Human-Robot Interactio...
Abstract—We propose a planning method for grasping in cluttered environments, a method where the rob...
<p>Robotic manipulation systems suffer from two main problems in unstructured human environments: <e...
Robot motion planning is a field that encompasses many different problems and algorithms. From the t...
<p>We propose a planning method for grasping in cluttered environments, a method where the robot can...
Planning motion is an essential component for any autonomous robotic system. An intelligent agent mu...
International audienceRobot navigation in the presence of humans raises new issues for motion planni...
The goal of this thesis is to enable robots to produce motion that is suitable for human-robot colla...