Summarization: This paper describes a motion controller which issues incremental velocity commands to a nonholonomic mobile robot guided by a holonomic path planner. The controller finds the best pair of rotational and translational velocities through discrete optimization of a multi-criteria objective function. Valid velocity choices are restricted within the dynamic velocity window as determined by the current velocities and the maximum acceleration and deceleration ability of the robot (smoothness criterion). In addition, for each choice the objective function examines the proximity of the resulting stopping configuration to the current goal set by the planner (accuracy criterion). Finally, it takes into account the potential of unforese...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
This paper presents a motion planner and nonholonomic controller for a mobile robot, with global col...
This paper considers the design of a motion planner that will simultaneously accomplish control and ...
Abstract—This paper studies a hierarchical approach for incre-mentally driving a nonholonomic mobile...
International audienceWe present in this paper a methodology for computing the maximum velocity prof...
We address the global trajectory planning problem of non-holonomic mobile robots in environments wit...
Abstract. We present in this paper a methodology for computing the maximum velocity profile over a t...
Abstract. In order to avoid wheel slippage or mechanical damage during the mobile robot naviga-tion,...
International audienceThis paper deals with motion planning and control for mobile robots. The vario...
This PhD thesis is dedicated to the path planning and control strategy for non-holonomic mobile robo...
We present in this paper a methodology for computing the maximum velocity profile over a trajectory ...
Ce travail propose de nouvelles stratégies pour la planification et le contrôle des robots mobiles n...
Finding an optimal trajectory from an initial point to a final point through closely packed obstacle...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
Multi-robot systems of autonomous mobile robots offer many benefits but also many challenges. This w...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
This paper presents a motion planner and nonholonomic controller for a mobile robot, with global col...
This paper considers the design of a motion planner that will simultaneously accomplish control and ...
Abstract—This paper studies a hierarchical approach for incre-mentally driving a nonholonomic mobile...
International audienceWe present in this paper a methodology for computing the maximum velocity prof...
We address the global trajectory planning problem of non-holonomic mobile robots in environments wit...
Abstract. We present in this paper a methodology for computing the maximum velocity profile over a t...
Abstract. In order to avoid wheel slippage or mechanical damage during the mobile robot naviga-tion,...
International audienceThis paper deals with motion planning and control for mobile robots. The vario...
This PhD thesis is dedicated to the path planning and control strategy for non-holonomic mobile robo...
We present in this paper a methodology for computing the maximum velocity profile over a trajectory ...
Ce travail propose de nouvelles stratégies pour la planification et le contrôle des robots mobiles n...
Finding an optimal trajectory from an initial point to a final point through closely packed obstacle...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
Multi-robot systems of autonomous mobile robots offer many benefits but also many challenges. This w...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
This paper presents a motion planner and nonholonomic controller for a mobile robot, with global col...
This paper considers the design of a motion planner that will simultaneously accomplish control and ...