Using a deformable sheet to handle objects is convenient and found in many practical applications. For object manipulation through a deformable sheet that is held by multiple mobile robots, it is a challenging task to model the object-sheet interactions. We present a computational model and algorithm to capture the object position on the deformable sheet with changing robotic team formations. A virtual variable cables model (VVCM) is proposed to simplify the modeling of the robot-sheet-object system. With the VVCM, we further present a motion planner for the robotic team to transport the object in a three-dimensional (3D) cluttered environment. Simulation and experimental results with different robot team sizes show the effectiveness and ve...
International audienceThis paper addresses the motion planning problem for a robot in presence of mo...
Large teams of mobile robots have an unprecedented potential to assist humans in a number of roles r...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...
We present object handling and transport by a multi-robot team with a deformable sheet as a carrier....
International audienceA path planning approach has been proposed for a team of robots which formed a...
This article introduces a multimodal motion planning (MMP) algorithm that combines three-dimensional...
With the majority of mobile robot path planning methods being focused on obstacle avoidance, this pa...
In this paper, we address the problem of real-time motion planning for multiple robotic manipulators...
Abstract: This paper addresses the challenging problem of finding collision-free trajectories for ma...
Multi-robot formations have numerous applications, such as cooperative object transportation in smar...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
Multi-mobile robot systems show great advantages over one single robot in many applications. However...
Object transportation is an important task considered in mobile robotics. For many years, it has bee...
Scientific Summary: Motion planning for a single mobile robot has been extensively studied over the ...
In a constantly changing and partially unpredictable envi-ronment, robot-motion planning must be on-...
International audienceThis paper addresses the motion planning problem for a robot in presence of mo...
Large teams of mobile robots have an unprecedented potential to assist humans in a number of roles r...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...
We present object handling and transport by a multi-robot team with a deformable sheet as a carrier....
International audienceA path planning approach has been proposed for a team of robots which formed a...
This article introduces a multimodal motion planning (MMP) algorithm that combines three-dimensional...
With the majority of mobile robot path planning methods being focused on obstacle avoidance, this pa...
In this paper, we address the problem of real-time motion planning for multiple robotic manipulators...
Abstract: This paper addresses the challenging problem of finding collision-free trajectories for ma...
Multi-robot formations have numerous applications, such as cooperative object transportation in smar...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
Multi-mobile robot systems show great advantages over one single robot in many applications. However...
Object transportation is an important task considered in mobile robotics. For many years, it has bee...
Scientific Summary: Motion planning for a single mobile robot has been extensively studied over the ...
In a constantly changing and partially unpredictable envi-ronment, robot-motion planning must be on-...
International audienceThis paper addresses the motion planning problem for a robot in presence of mo...
Large teams of mobile robots have an unprecedented potential to assist humans in a number of roles r...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...