Robotics technology has been evolved rapidly these last two decades especially in autonomous mobile robots development. One of the most important issues that related to autonomous mobile robots is it navigation systems. Deliberative navigation and reactive navigation are two types of navigation in mobile robot navigations. Reactive navigation in unknown and changing territories without prior knowledge to the environment is one of the most challenging problems in robotics, thus has been investigated by researchers for many years. Previous researchers gave particular attention to local minimum and multiple minimum problems which trap the robot into an infinite loop during its navigation. This could ruin the objective of good local navigati...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Potential field method has been widely used in obstacle avoidance for mobile robots because of its e...
In this dissertation, we proposed a robust and efficient navigation system for mobile robotics navig...
This paper addresses the issue of mobile robot navigation in an indoor environment. In the system, a...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
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...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
This chapter presents a new reactive navigation algorithm for a wheeled mobile robot (WMR) with a di...
[eng] Reactive navigation is a well-known paradigm for controlling an autonomous mobile robot, which...
The presence of mobile robots in diverse scenarios is considerably increasing to perform a variety o...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
A mobile robot with a behaviour-based navigation system is where a robot relies on sensor inputs to ...
International audienceReactive navigation in very cluttered environment while insuring maximum safet...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Potential field method has been widely used in obstacle avoidance for mobile robots because of its e...
In this dissertation, we proposed a robust and efficient navigation system for mobile robotics navig...
This paper addresses the issue of mobile robot navigation in an indoor environment. In the system, a...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
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...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
This chapter presents a new reactive navigation algorithm for a wheeled mobile robot (WMR) with a di...
[eng] Reactive navigation is a well-known paradigm for controlling an autonomous mobile robot, which...
The presence of mobile robots in diverse scenarios is considerably increasing to perform a variety o...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
A mobile robot with a behaviour-based navigation system is where a robot relies on sensor inputs to ...
International audienceReactive navigation in very cluttered environment while insuring maximum safet...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Potential field method has been widely used in obstacle avoidance for mobile robots because of its e...
In this dissertation, we proposed a robust and efficient navigation system for mobile robotics navig...