In the study of collision-free navigation methods of multirobots, much attention has been paid to the constraints of external environment. However, most of the wheeled mobile robots are subjected to nonholonomic constraints. A collision between robots may occur if the nonholonomic constraints are neglected. This paper presents an improved approach to collision-free navigation for multi-nonholonomic robots. This approach combines the Optimal Reciprocal Collision Avoidance (ORCA) algorithm and Model Predictive Control (MPC) strategy. ORCA used a simple robot model, in which kinematics and dynamics are ignored. To cope with this problem, the MPC controller is introduced. In each ORCA step, the reference trajectory, reference control inputs, an...
Multi-robot systems of autonomous mobile robots offer many benefits but also many challenges. This w...
This paper focuses on the collision-free coordination of multi-ple robots with kinodynamic constrain...
Abstract In this paper a case study of a new, cooperative, collision-avoidance method for multiple, ...
Navigation and guidance of autonomous vehicles is a fundamental problem in robotics, which has attra...
In this paper, we present a method, namely CCA, for collision avoidance in dynamic environments amon...
An exploration task can be performed by a team of mobile robots more efficiently than human counterp...
Path planning forms the fundamental requirement to facilitate autonomous navigation in Autonomous Ve...
Collision-free navigation in unknown environments is an essential quality for any autonomous vehicle...
Navigating a robot in a dynamic environment is a challenging task, especially when the behavior of o...
We present a model predictive controller (MPC) that automatically discovers collision-free locomotio...
This paper presents the first motion planning methodology applicable to articulated, nonpoint nonhol...
In this paper, we present a real-time whole-body planner for collision-free legged mobile manipulati...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
Abstract. We present a novel algorithm for smooth and collision-free navigation for multiple human-l...
International audienceThis paper proposes an improvement of a motion planning approach and a modifie...
Multi-robot systems of autonomous mobile robots offer many benefits but also many challenges. This w...
This paper focuses on the collision-free coordination of multi-ple robots with kinodynamic constrain...
Abstract In this paper a case study of a new, cooperative, collision-avoidance method for multiple, ...
Navigation and guidance of autonomous vehicles is a fundamental problem in robotics, which has attra...
In this paper, we present a method, namely CCA, for collision avoidance in dynamic environments amon...
An exploration task can be performed by a team of mobile robots more efficiently than human counterp...
Path planning forms the fundamental requirement to facilitate autonomous navigation in Autonomous Ve...
Collision-free navigation in unknown environments is an essential quality for any autonomous vehicle...
Navigating a robot in a dynamic environment is a challenging task, especially when the behavior of o...
We present a model predictive controller (MPC) that automatically discovers collision-free locomotio...
This paper presents the first motion planning methodology applicable to articulated, nonpoint nonhol...
In this paper, we present a real-time whole-body planner for collision-free legged mobile manipulati...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
Abstract. We present a novel algorithm for smooth and collision-free navigation for multiple human-l...
International audienceThis paper proposes an improvement of a motion planning approach and a modifie...
Multi-robot systems of autonomous mobile robots offer many benefits but also many challenges. This w...
This paper focuses on the collision-free coordination of multi-ple robots with kinodynamic constrain...
Abstract In this paper a case study of a new, cooperative, collision-avoidance method for multiple, ...