In this paper, we study the path planning for khepera II mobile robot in an unknown environment. The well known heuristic D* lite algorithm is implemented to make the mobile robot navigate through static obstacles and find the shortest path from an initial position to a target position by avoiding the obstacles. and to perform efficient re-planning during exploration. The proposed path finding strategy is designed in a grid-map form of an unknown environment with static unknown obstacles. The robot moves within the unknown environment by sensing and avoiding the obstacles coming across its way towards the target. When the mission is executed, it is necessary to plan an optimal or feasible path for itself avoiding obstructions in its way and...
Navigation is one of the research topics that are greatly funded by both government and private s...
The research contribution of the present work is to solve the path planning and path tracking proble...
Path planning is an important part of the navigation of autonomous mobile robots. Mobile robots ofte...
In this paper, we study the online path planning for khepera II mobile robot in an unknown environme...
A very challenging issue in robot navigation or path planning in an unknown environment is to find a...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
AbstractFor path planning problem of mobile robot in a known three-dimensional (3D) environment, pro...
Path planning in mobile robots must ensure optimality of the path. The optimality achieved may be in...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
The task of planning trajectories for a mobile robot has received considerable attention in the rese...
In this present work we propose a novel mobile robot path planning algorithm. Autonomous robots whic...
Abstract- The main objective of path planning is to acquire a collision free path for a mobile robot...
In this paper, we present a novel approach based on intelligent computing which offers to the autono...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
Navigation is one of the research topics that are greatly funded by both government and private s...
The research contribution of the present work is to solve the path planning and path tracking proble...
Path planning is an important part of the navigation of autonomous mobile robots. Mobile robots ofte...
In this paper, we study the online path planning for khepera II mobile robot in an unknown environme...
A very challenging issue in robot navigation or path planning in an unknown environment is to find a...
Planning the path is the most important task in the mobile robot navigation. This task involves basi...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
AbstractFor path planning problem of mobile robot in a known three-dimensional (3D) environment, pro...
Path planning in mobile robots must ensure optimality of the path. The optimality achieved may be in...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
The task of planning trajectories for a mobile robot has received considerable attention in the rese...
In this present work we propose a novel mobile robot path planning algorithm. Autonomous robots whic...
Abstract- The main objective of path planning is to acquire a collision free path for a mobile robot...
In this paper, we present a novel approach based on intelligent computing which offers to the autono...
This kind of robot is capable to perform many modes of locomotion. This skill allows them to adapt...
Navigation is one of the research topics that are greatly funded by both government and private s...
The research contribution of the present work is to solve the path planning and path tracking proble...
Path planning is an important part of the navigation of autonomous mobile robots. Mobile robots ofte...