This paper introduces a new methodology for escaping from local minima using an actual-virtual target switching strategy. In particular, this approach proposes suitable steps to detect trap situations and guide the robot away from local minima even when the environment is completely unknown. In this work the navigation system consists of two layers. In the low-level layer, a Nearest Virtual Target (NVT) approach is adapted as a reactive collision avoidance method for mobile robot navigation to achieve collision free motion in cluttered, dense and troublesome scenarios. Where the robot is surrounded by obstacles and a trap situation is likely to occur, the high-level layer becomes responsible to plan a path to pull the robot out of the trap....
Robot local path planning in an unknown and changing environment with uncertainties is one of the m...
There are numerous numbers of methods that have been introduced to the Unmanned Ground Vehicle (UGV)...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...
This paper presents a novel scheme for the mobile robot motion planning and navigation. Both global ...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
In this study, an effective local minima detection and definition algorithm is introduced for a mobi...
In this study, an effective local minima detection and definition algorithm is introduced for a mobi...
“Obstacle avoidance for mobile robots is an area of great interest in mobile robotics. Accomplishing...
The intelligent mobile robot should be capable enough to assimilate the information from the surroun...
This paper provides a mobile robot navigation strategy using fuzzy logic is developed for a two whe...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Robotics technology has been evolved rapidly these last two decades especially in autonomous mobile ...
Abstract: The artificial potential field based path planning has been most wisely used for local pat...
This paper proposes a novel obstacle avoidance algorithm for autonomous mobile robot control. The pr...
Background: The number of research regarding local path planning of the Unmanned Ground Vehicle (UGV...
Robot local path planning in an unknown and changing environment with uncertainties is one of the m...
There are numerous numbers of methods that have been introduced to the Unmanned Ground Vehicle (UGV)...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...
This paper presents a novel scheme for the mobile robot motion planning and navigation. Both global ...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
In this study, an effective local minima detection and definition algorithm is introduced for a mobi...
In this study, an effective local minima detection and definition algorithm is introduced for a mobi...
“Obstacle avoidance for mobile robots is an area of great interest in mobile robotics. Accomplishing...
The intelligent mobile robot should be capable enough to assimilate the information from the surroun...
This paper provides a mobile robot navigation strategy using fuzzy logic is developed for a two whe...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Robotics technology has been evolved rapidly these last two decades especially in autonomous mobile ...
Abstract: The artificial potential field based path planning has been most wisely used for local pat...
This paper proposes a novel obstacle avoidance algorithm for autonomous mobile robot control. The pr...
Background: The number of research regarding local path planning of the Unmanned Ground Vehicle (UGV...
Robot local path planning in an unknown and changing environment with uncertainties is one of the m...
There are numerous numbers of methods that have been introduced to the Unmanned Ground Vehicle (UGV)...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...