A flexible operation of multiple robotic manipulators operating in a dynamic environment requires online trajectory planning to ensure collision-free trajectories. In this work, we propose a real-time capable motion control algorithm, based on nonlinear model predictive control, which accounts for static and dynamic obstacles. The proposed algorithm is realized in a distributed scheme, where each robot optimizes its own trajectory with respect to the related objective and constraints.We propose a novel approach for collision avoidance between multiple robotic manipulators, where each robot accounts for the predicted movement of the neighboring robots. Additionally, we propose a method to reliably detect and resolve deadlocks occurring...
This paper presents a scalable multi-robot motion planning algorithm called Conflict-Based Model Pre...
International audienceThis paper proposes an improvement of a motion planning approach and a modifie...
Most human-centred robotic applications require robots to follow a certain pre-defined path. This ma...
Collision avoidance is a critical problem in motion planning and control of multirobot systems. More...
In the near future mobile robots, such as personal robots or mobile manipulators, will share the wor...
This paper formulates a new scalable algorithm for motion planning and control of multiple point-mas...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
In this paper, we address the problem of real-time motion planning for multiple robotic manipulators...
For redundant fixed or mobile manipulators in shared human-robot workspaces, control algorithms are ...
Existing motion planning algorithms for multi-robot systems must be improved to address poor coordin...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
Navigating a robot in a dynamic environment is a challenging task. Most modern applications require ...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
A standing challenge in multirobot systems is to realize safe and efficient motion planning and coor...
This paper presents a scalable multi-robot motion planning algorithm called Conflict-Based Model Pre...
International audienceThis paper proposes an improvement of a motion planning approach and a modifie...
Most human-centred robotic applications require robots to follow a certain pre-defined path. This ma...
Collision avoidance is a critical problem in motion planning and control of multirobot systems. More...
In the near future mobile robots, such as personal robots or mobile manipulators, will share the wor...
This paper formulates a new scalable algorithm for motion planning and control of multiple point-mas...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
In this paper, we address the problem of real-time motion planning for multiple robotic manipulators...
For redundant fixed or mobile manipulators in shared human-robot workspaces, control algorithms are ...
Existing motion planning algorithms for multi-robot systems must be improved to address poor coordin...
This paper presents a data-driven decentralized trajectory optimization approach for multi-robot mot...
2019-04-29Using multiple robots is important for search-and-rescue, mining, entertainment, and wareh...
Navigating a robot in a dynamic environment is a challenging task. Most modern applications require ...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
A standing challenge in multirobot systems is to realize safe and efficient motion planning and coor...
This paper presents a scalable multi-robot motion planning algorithm called Conflict-Based Model Pre...
International audienceThis paper proposes an improvement of a motion planning approach and a modifie...
Most human-centred robotic applications require robots to follow a certain pre-defined path. This ma...