This paper describes a navigation system which unites three important capabilities: it enables a mobile robot to avoid obstacles, map the environment, and plan local paths around more complex obstacles while navigating. This system extends and integrates the histogram grid representation and the modified A* algorithm. Our system uses the histogram grid representation and updating method to represent the robot's environment and update a map quickly and reliably with the data from a laser range scanner. Our system also uses the modified A* algorithm to search this grid to plan and replan local paths. The navigation system that we have developed enables a mobile robot to smoothly avoid obstacles while navigating towards a goal at speeds of 0.1...
This chapter proposes a new trajectory planning approach by improving A* algorithm, which is a widel...
In order to solve the problems of A* algorithm in raster map path planning, such as large memory con...
Mobile robots need to move in the real world for the majority of tasks. Their control is often inter...
This article proposes highly autonomous map generation and path navigation based on the Robot Operat...
The paper considers the problem of autonomous navigation of unmanned ground vehicle and the way to s...
In this dissertation, we proposed a robust and efficient navigation system for mobile robotics navig...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
This paper discusses the importance, the complexity and the challenges of mapping mobile robot?s unk...
AbstractThis article deals with path planning of a mobile robot based on a grid map. Essential assum...
This thesis focuses on the algorithm used for navigation between two different locations by avoiding...
Personal robotics applications require autonomous mobile robot navigation methods that are safe, rob...
An autonomous navigational system for a mobile robot was developed based on a Laser-Range-Finder-bas...
The presence of mobile robots in diverse scenarios is considerably increasing to perform a variety o...
In this paper we present a route map generation of an autonomous mobile robot. The work in path plan...
As technology advances, robots have integrated into our daily lives in many different forms like rob...
This chapter proposes a new trajectory planning approach by improving A* algorithm, which is a widel...
In order to solve the problems of A* algorithm in raster map path planning, such as large memory con...
Mobile robots need to move in the real world for the majority of tasks. Their control is often inter...
This article proposes highly autonomous map generation and path navigation based on the Robot Operat...
The paper considers the problem of autonomous navigation of unmanned ground vehicle and the way to s...
In this dissertation, we proposed a robust and efficient navigation system for mobile robotics navig...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
This paper discusses the importance, the complexity and the challenges of mapping mobile robot?s unk...
AbstractThis article deals with path planning of a mobile robot based on a grid map. Essential assum...
This thesis focuses on the algorithm used for navigation between two different locations by avoiding...
Personal robotics applications require autonomous mobile robot navigation methods that are safe, rob...
An autonomous navigational system for a mobile robot was developed based on a Laser-Range-Finder-bas...
The presence of mobile robots in diverse scenarios is considerably increasing to perform a variety o...
In this paper we present a route map generation of an autonomous mobile robot. The work in path plan...
As technology advances, robots have integrated into our daily lives in many different forms like rob...
This chapter proposes a new trajectory planning approach by improving A* algorithm, which is a widel...
In order to solve the problems of A* algorithm in raster map path planning, such as large memory con...
Mobile robots need to move in the real world for the majority of tasks. Their control is often inter...