Add to ORKGMobile robots are increasingly being used to perform tasks in unknown environments. The potential of robots to undertake such tasks lies in their ability to intelligently and efficiently locate and interact with objects in their environment. My research focuses on developing algorithms to plan paths for mobile robots in a partially known environment observed by an overhead camera. The environment consists of dynamic obstacles and targets. A new methodology, Extrapolated Artificial Potential Field, is proposed for real time robot path planning. An algorithm for probabilistic collision detection and avoidance is used to enhance the planner. The aim of the robot is to select avoidance maneuvers to avoid the dynamic obstacles. The navigatio...
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...
Personal robotics applications require autonomous mobile robot navigation methods that are safe, rob...
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...
In various scenarios, e.g. on a construction site, in a shopping mall, or on a street, a mobile robo...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
grantor: University of TorontoThis dissertation presents a novel approach to mobile robot ...
grantor: University of TorontoThis dissertation presents a novel approach to mobile robot ...
In this present work we propose a novel mobile robot path planning algorithm. Autonomous robots whic...
In this research a path planning which is the first step of motion planning in robotic applications,...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Nume...
In this paper, an enhanced artificial potential field (EAPF) planner is introduced. This planner is ...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
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...
Personal robotics applications require autonomous mobile robot navigation methods that are safe, rob...
This chapter introduces two kinds of motion path planning algorithms for mobile robots or unmanned g...
In various scenarios, e.g. on a construction site, in a shopping mall, or on a street, a mobile robo...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
grantor: University of TorontoThis dissertation presents a novel approach to mobile robot ...
grantor: University of TorontoThis dissertation presents a novel approach to mobile robot ...
In this present work we propose a novel mobile robot path planning algorithm. Autonomous robots whic...
In this research a path planning which is the first step of motion planning in robotic applications,...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Nume...
In this paper, an enhanced artificial potential field (EAPF) planner is introduced. This planner is ...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
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...
Personal robotics applications require autonomous mobile robot navigation methods that are safe, rob...