Add to ORKGSafe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navigation algorithms in unknown dynamic environments with moving and steady obstacles. The first three chapters provide introduction and background on sliding mode control theory, sensor models, and vehicle kinematics. Chapter 4 deals with the problem of optimal navigation in the presence of obstacles. Chapter 5 discusses the problem of reactively navigating. In Chapter 6, border patrolling algorithms are applied to a more general problem of reactively navigating. A method for guidance of a Dubins-like mobile robot is presented in Chapter 7. Chapter 8 introduces and studies a simple biologically-inspired strategy for navigation a Dubins-car. Chap...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
International audienceThis paper deals with a multi-mode control architecture for robot navigation a...
We present a reactive navigation algorithm that guarantees the safety of automated intelligent wheel...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Robotics technology has been evolved rapidly these last two decades especially in autonomous mobile ...
This thesis considers the problem of safe navigation for autonomous mobile robots working in partial...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
[eng] Reactive navigation is a well-known paradigm for controlling an autonomous mobile robot, which...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
The purpose of this book is to address the challenging problem of Autonomous Navigation in Dynamic E...
The primary objective of a safe navigation algorithm is to guide the object from its current positio...
International audienceReactive navigation in very cluttered environment while insuring maximum safet...
This chapter presents a new reactive navigation algorithm for a wheeled mobile robot (WMR) with a di...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
International audienceThis paper deals with a multi-mode control architecture for robot navigation a...
We present a reactive navigation algorithm that guarantees the safety of automated intelligent wheel...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Robotics technology has been evolved rapidly these last two decades especially in autonomous mobile ...
This thesis considers the problem of safe navigation for autonomous mobile robots working in partial...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
[eng] Reactive navigation is a well-known paradigm for controlling an autonomous mobile robot, which...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
The purpose of this book is to address the challenging problem of Autonomous Navigation in Dynamic E...
The primary objective of a safe navigation algorithm is to guide the object from its current positio...
International audienceReactive navigation in very cluttered environment while insuring maximum safet...
This chapter presents a new reactive navigation algorithm for a wheeled mobile robot (WMR) with a di...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
International audienceThis paper deals with a multi-mode control architecture for robot navigation a...
We present a reactive navigation algorithm that guarantees the safety of automated intelligent wheel...