Trajectory planning and obstacle avoidance are very important issues to obtain a smooth and collision-free navigation for an autonomous mobile robot. In this paper, the performance of a time-dependent motion planning approach for a car-like robot is presented. The proposed approach can be divided into two levels; offline and online planning. Offline planning generates a collision-free trajectory with the consideration of known obstacles at the early stage, while online planning deals with unknown obstacles once the robot starting to move. The generated trajectory is developed based on a geometric approach. This paper mainly focuses on the offline planning which was implemented and tested using a car-like robot in static environments. The pr...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
Driving a road vehicle is a very complex task in terms of controlling it, substituting a human drive...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...
This paper presents an extension of motion planning in consideration of travel time and velocity dur...
The question of timing in mobile robot navigation still remains an area of research not thoroughly i...
This paper proposes a new approach to plan the motion for a car-like mobile robot navigating in stat...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
This paper presents the development of a time-dependent trajectory generation method for nonholonomi...
Motion planning for car-like vehicles is a deeply felt theme in industrial and social robotics in re...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
International audienceIn various circumstances, planning at trajectory level is very useful to gener...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
This work has as purpose the implementation of a path planning algorithm used for autonomous driving...
This paper aims to develop a control method by using artificial potential field with the addition of...
© 2018 IEEE. Nowadays, the potential of autonomous vehicles for order picking and material transport...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
Driving a road vehicle is a very complex task in terms of controlling it, substituting a human drive...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...
This paper presents an extension of motion planning in consideration of travel time and velocity dur...
The question of timing in mobile robot navigation still remains an area of research not thoroughly i...
This paper proposes a new approach to plan the motion for a car-like mobile robot navigating in stat...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
This paper presents the development of a time-dependent trajectory generation method for nonholonomi...
Motion planning for car-like vehicles is a deeply felt theme in industrial and social robotics in re...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
International audienceIn various circumstances, planning at trajectory level is very useful to gener...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
This work has as purpose the implementation of a path planning algorithm used for autonomous driving...
This paper aims to develop a control method by using artificial potential field with the addition of...
© 2018 IEEE. Nowadays, the potential of autonomous vehicles for order picking and material transport...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
Driving a road vehicle is a very complex task in terms of controlling it, substituting a human drive...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...