International audienceThis paper presents a path planning algorithm for autonomous navigation of non-holonomic mobile robots in complex environments. The irregular contour of obstacles is represented by segments. The goal of the robot is to move towards a known target while avoiding obstacles. The velocity constraints, robot kinematic model and non-holonomic constraint are considered in the problem. The optimal path planning problem is formulated as a constrained receding horizon planning problem and the trajectory is obtained by solving an optimal control problem with constraints. Local minima are avoided by choosing intermediate objectives based on the real time environment
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
A hybrid path planner combining global optimization and quick obstacle avoidance is proposed for non...
This paper presents a path planning algorithm for autonomous navigation of non-holonomic mobile robo...
International audienceThis paper presents a path planning algorithm for autonomous navigation of non...
In this present work we propose a novel mobile robot path planning algorithm. Autonomous robots whic...
This PhD thesis is dedicated to the path planning and control strategy for non-holonomic mobile robo...
Ce travail propose de nouvelles stratégies pour la planification et le contrôle des robots mobiles n...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
A new approach of nonholonomic path planning for car-like robots is presented. The main idea is simi...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
2013-2014 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
The mobile robotics is an area of research that aims to give a machine the ability to move in an env...
Abstract- This paper presents results of our work in development of a genetic algorithm based path-p...
The presence of mobile agents in the industrial environment is growing, introducing specific safety ...
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
A hybrid path planner combining global optimization and quick obstacle avoidance is proposed for non...
This paper presents a path planning algorithm for autonomous navigation of non-holonomic mobile robo...
International audienceThis paper presents a path planning algorithm for autonomous navigation of non...
In this present work we propose a novel mobile robot path planning algorithm. Autonomous robots whic...
This PhD thesis is dedicated to the path planning and control strategy for non-holonomic mobile robo...
Ce travail propose de nouvelles stratégies pour la planification et le contrôle des robots mobiles n...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
A new approach of nonholonomic path planning for car-like robots is presented. The main idea is simi...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
2013-2014 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
The mobile robotics is an area of research that aims to give a machine the ability to move in an env...
Abstract- This paper presents results of our work in development of a genetic algorithm based path-p...
The presence of mobile agents in the industrial environment is growing, introducing specific safety ...
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
A hybrid path planner combining global optimization and quick obstacle avoidance is proposed for non...