A method, incorporating robustness into trajectory planning, is proposed in this article. In the presence of delays, the suggested approach guarantees collision-free scenarios for robots with predefined paths and overlapping workspaces. Traditionally, only the time at which a robot can enter a common workspace is constrained so as to avoid collisions. If the shared zone becomes available later than planned, collisions can potentially occur if the robot is unable to stop before entering the shared space. In this work, a clearance point is introduced where the occupancy of the common workspace is evaluated. The velocity is constrained at this point such that, if necessary, the robot is able to stop at the boundary of the shared space. The clo...
In this paper, we address the problem of assigning tasks and generating trajectories in a collision-...
A robot and a positioning table system is a kinematically redundant system with respect to planar mo...
Abstract In this paper, we consider the problem of planning collision-free trajec-tories to navigate...
A trajectory planning formulation incorporating robustness is proposed in this paper, where uncertai...
National audienceThis paper addresses trajectory planning for a robot subject to dynamic constraints...
The rise of collaborative robotics has offered new opportunities for integrating automation into the...
This paper addresses trajectory planning in dynamic workspaces, for a robot subject to dynamic const...
This report addresses trajectory planning in dynamic workspace, i.e. motion planning for a robot sub...
This paper addresses Dynamic Trajectory Planning, which is defined as Motion Planning for a robot A ...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...
Scheduling can generally be described as the act of allocating resources to tasks over time such tha...
This thesis focuses on motion planning and motion control for two robots in a common workspace, whic...
This paper presents a method for motion planning in dynamic environments, subject to robot dynamics ...
Abstract — We deal with the problem of planning collision-free trajectories for robots operating in ...
Abstract — We deal with the problem of planning collision-free trajectories for robots operating in ...
In this paper, we address the problem of assigning tasks and generating trajectories in a collision-...
A robot and a positioning table system is a kinematically redundant system with respect to planar mo...
Abstract In this paper, we consider the problem of planning collision-free trajec-tories to navigate...
A trajectory planning formulation incorporating robustness is proposed in this paper, where uncertai...
National audienceThis paper addresses trajectory planning for a robot subject to dynamic constraints...
The rise of collaborative robotics has offered new opportunities for integrating automation into the...
This paper addresses trajectory planning in dynamic workspaces, for a robot subject to dynamic const...
This report addresses trajectory planning in dynamic workspace, i.e. motion planning for a robot sub...
This paper addresses Dynamic Trajectory Planning, which is defined as Motion Planning for a robot A ...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...
Scheduling can generally be described as the act of allocating resources to tasks over time such tha...
This thesis focuses on motion planning and motion control for two robots in a common workspace, whic...
This paper presents a method for motion planning in dynamic environments, subject to robot dynamics ...
Abstract — We deal with the problem of planning collision-free trajectories for robots operating in ...
Abstract — We deal with the problem of planning collision-free trajectories for robots operating in ...
In this paper, we address the problem of assigning tasks and generating trajectories in a collision-...
A robot and a positioning table system is a kinematically redundant system with respect to planar mo...
Abstract In this paper, we consider the problem of planning collision-free trajec-tories to navigate...