Abstract We present two path planning algorithms for mobile robots that are con-nected by cable to a fixed base. Our algorithms efficiently compute the shortest path and control strategy that lead the robot to the target location considering cable length and obstacle interactions. First, we focus on cable-obstacle collisions. We introduce and formally analyze algorithms that build and search an overlapped configuration space manifold. Next, we present an extension that considers cable-robot collisions. All algorithms are experimentally validated using a real robot.
This paper addresses the path planning problem for robotic applications using homotopy classes. Thes...
The following problem appears in robotics. A number of small, circular robots live in a common plana...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
We present two path planning algorithms for mobile robots that are connected by cable to a fixed ba...
My thesis addresses the problem of manipulation using multiple robots with cables. I study how robot...
Abstract — In this paper, we solve the path planning problem for a tethered mobile robot, which is c...
My thesis addresses the the problem of manipulation using multiple robots with cables. I study how r...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Goal-directed path planning is one of the basic and widely studied problems in the field of mobile r...
International audienceA Mobile Cable-Driven Parallel Robot (MCDPR) is a special type of Reconfigurab...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Abstract — In this paper we study the problem of manipulating and transporting multiple objects on t...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
This paper presents a novel simple, but efficient robot path planning algorithm, which plans the obs...
Motion Planning algorithms have been studied in many applications, such as network design and roboti...
This paper addresses the path planning problem for robotic applications using homotopy classes. Thes...
The following problem appears in robotics. A number of small, circular robots live in a common plana...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
We present two path planning algorithms for mobile robots that are connected by cable to a fixed ba...
My thesis addresses the problem of manipulation using multiple robots with cables. I study how robot...
Abstract — In this paper, we solve the path planning problem for a tethered mobile robot, which is c...
My thesis addresses the the problem of manipulation using multiple robots with cables. I study how r...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Goal-directed path planning is one of the basic and widely studied problems in the field of mobile r...
International audienceA Mobile Cable-Driven Parallel Robot (MCDPR) is a special type of Reconfigurab...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Abstract — In this paper we study the problem of manipulating and transporting multiple objects on t...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
This paper presents a novel simple, but efficient robot path planning algorithm, which plans the obs...
Motion Planning algorithms have been studied in many applications, such as network design and roboti...
This paper addresses the path planning problem for robotic applications using homotopy classes. Thes...
The following problem appears in robotics. A number of small, circular robots live in a common plana...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...