Manipulation in clutter requires solving complex sequential decision making problems in an environment rich with physical interactions. The transfer of motion planning solutions from simulation to the real world, in open-loop, suffers from the inherent uncertainty in modelling real world physics. We propose interleaving planning and execution in real-time, in a closed-loop setting, using a Receding Horizon Planner (RHP) for pushing manipulation in clutter. In this context, we address the problem of finding a suitable value function based heuristic for efficient planning, and for estimating the cost-to-go from the horizon to the goal. We estimate such a value function first by using plans generated by an existing sampling-based planner. The...
Robots that operate in natural human environments must be capable of handling uncertain dynamics and...
We present a fully autonomous robotic system for grasping objects in dense clutter. The objects are ...
2014-12-08Robotic household assistants of the future will need to understand their environment in re...
This thesis presents a series of planners and learning algorithms for real-world manipulation in clu...
This thesis presents motion planning and control algorithms to tackle the problem of Reaching Throug...
We propose a human-operator guided planning approach to pushing-based manipulation in clutter. Most ...
<p>Robotic manipulation systems suffer from two main problems in unstructured human environments: <e...
Humans, in comparison to robots, are remarkably adept at reaching for objects in cluttered environme...
<p>This thesis presents a series of planners and algorithms for manipulation in cluttered human envi...
Robot manipulation in cluttered environments often requires complex and sequential rearrangement of ...
Adaptation to unorganized, congested and uncertain environment is a desirable capability but challen...
As we work to move robots out of factories and into human environments, we must empower robots to in...
This paper presents a strategy for planning robot motions in dynamic, cluttered, and uncertain envir...
Physics-based manipulation in clutter involves complex interaction between multiple objects. In this...
This thesis presents planners and controllers for robust physics-based manipulation in real-time. By...
Robots that operate in natural human environments must be capable of handling uncertain dynamics and...
We present a fully autonomous robotic system for grasping objects in dense clutter. The objects are ...
2014-12-08Robotic household assistants of the future will need to understand their environment in re...
This thesis presents a series of planners and learning algorithms for real-world manipulation in clu...
This thesis presents motion planning and control algorithms to tackle the problem of Reaching Throug...
We propose a human-operator guided planning approach to pushing-based manipulation in clutter. Most ...
<p>Robotic manipulation systems suffer from two main problems in unstructured human environments: <e...
Humans, in comparison to robots, are remarkably adept at reaching for objects in cluttered environme...
<p>This thesis presents a series of planners and algorithms for manipulation in cluttered human envi...
Robot manipulation in cluttered environments often requires complex and sequential rearrangement of ...
Adaptation to unorganized, congested and uncertain environment is a desirable capability but challen...
As we work to move robots out of factories and into human environments, we must empower robots to in...
This paper presents a strategy for planning robot motions in dynamic, cluttered, and uncertain envir...
Physics-based manipulation in clutter involves complex interaction between multiple objects. In this...
This thesis presents planners and controllers for robust physics-based manipulation in real-time. By...
Robots that operate in natural human environments must be capable of handling uncertain dynamics and...
We present a fully autonomous robotic system for grasping objects in dense clutter. The objects are ...
2014-12-08Robotic household assistants of the future will need to understand their environment in re...