methods for collision avoidance to systems where the dynamics cannot be neglected: mobile robots with slow dynamic capabilities, or systems working at high speeds. Rather than embedding the motion constraints when designing a navigation method, we propose to introduce the robot dynamic constraints directly into the spatial representation. In this space the dynamic capabilities of the robot are implicitly represented. With minor modifications, standard reactive navigation methods can be used in this space implicitly taking into account the robot dynamic constraints. To validate this framework, we show experimental results using two reactive navigation methods whose original formulation do not take the robot dynamic constraints into account (...
This paper addresses the issue of mobile robot navigation in an indoor environment. In the system, a...
In this paper; the problem of motion planning in environments with both known static obstacles and u...
This paper addresses the problem of determining a collision-free path for a mobile robot moving in a...
Abstract — This paper presents a new method for reactive collision avoidance for mobile robots in co...
We address the problem of applying reactive navigation methods to non-holonomic robots. Rather than ...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
This paper addresses the reactive collision avoidance for vehicles that move in very dense, cluttere...
We address the problem of applying reactive naviga-tion methods to non-holonomic robots. Rather than...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
Robot motion planning in dynamic environments is significantly difficult, especially when the future...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
Abstract – The reactive navigation of a non-holonomic mobile robot implies selecting at each instant...
This paper focuses on motion planning in dynamic environments that exists dynamic obstacle and movin...
Robotics technology has been evolved rapidly these last two decades especially in autonomous mobile ...
Navigating a robot in a dynamic environment is a challenging task. Most modern applications require ...
This paper addresses the issue of mobile robot navigation in an indoor environment. In the system, a...
In this paper; the problem of motion planning in environments with both known static obstacles and u...
This paper addresses the problem of determining a collision-free path for a mobile robot moving in a...
Abstract — This paper presents a new method for reactive collision avoidance for mobile robots in co...
We address the problem of applying reactive navigation methods to non-holonomic robots. Rather than ...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
This paper addresses the reactive collision avoidance for vehicles that move in very dense, cluttere...
We address the problem of applying reactive naviga-tion methods to non-holonomic robots. Rather than...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
Robot motion planning in dynamic environments is significantly difficult, especially when the future...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
Abstract – The reactive navigation of a non-holonomic mobile robot implies selecting at each instant...
This paper focuses on motion planning in dynamic environments that exists dynamic obstacle and movin...
Robotics technology has been evolved rapidly these last two decades especially in autonomous mobile ...
Navigating a robot in a dynamic environment is a challenging task. Most modern applications require ...
This paper addresses the issue of mobile robot navigation in an indoor environment. In the system, a...
In this paper; the problem of motion planning in environments with both known static obstacles and u...
This paper addresses the problem of determining a collision-free path for a mobile robot moving in a...