This paper proposes a new approach to plan the motion for a car-like mobile robot navigating in static environments. A multiple waypoints trajectory planning is introduced in order to ensure the planned trajectory is smooth and is able to guide the robot to pass through all the required waypoints at the specified position, orientation, velocity and time. This presented approach uses cubic and quintic polynomials to obtain a smooth trajectory. Furthermore, the generated trajectory is time-depended and the kinematic constraints of the mobile robot are taken into account during the generation of trajectory. While navigating, the mobile robot is able to negotiate with unexpected static obstacles, adjust its original trajectory and travel speed,...
Path planning and trajectory planning are crucial issues in the field of Robotics and, more generall...
Abstract- The main objective of path planning is to acquire a collision free path for a mobile robot...
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...
This paper presents the development of a time-dependent trajectory generation method for nonholonomi...
This paper presents an extension of motion planning in consideration of travel time and velocity dur...
Trajectory planning and obstacle avoidance are very important issues to obtain a smooth and collisio...
The question of timing in mobile robot navigation still remains an area of research not thoroughly i...
In order for a mobile robot to complete its task it must be able to plan and follow a trajectory. De...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
Due to their kinematics, car-like mobile robots cannot follow an arbitrary path. Besides obstacle av...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
This work has as purpose the implementation of a path planning algorithm used for autonomous driving...
Path planning and trajectory planning are crucial issues in the field of Robotics and, more generall...
In this paper we have presented a novel technique for the navigation and path formulation of wheeled...
Path planning and trajectory planning are crucial issues in the field of Robotics and, more generall...
Abstract- The main objective of path planning is to acquire a collision free path for a mobile robot...
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...
This paper presents the development of a time-dependent trajectory generation method for nonholonomi...
This paper presents an extension of motion planning in consideration of travel time and velocity dur...
Trajectory planning and obstacle avoidance are very important issues to obtain a smooth and collisio...
The question of timing in mobile robot navigation still remains an area of research not thoroughly i...
In order for a mobile robot to complete its task it must be able to plan and follow a trajectory. De...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
Due to their kinematics, car-like mobile robots cannot follow an arbitrary path. Besides obstacle av...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
This work has as purpose the implementation of a path planning algorithm used for autonomous driving...
Path planning and trajectory planning are crucial issues in the field of Robotics and, more generall...
In this paper we have presented a novel technique for the navigation and path formulation of wheeled...
Path planning and trajectory planning are crucial issues in the field of Robotics and, more generall...
Abstract- The main objective of path planning is to acquire a collision free path for a mobile robot...
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...