Add to ORKGIn this paper we present an algorithm to build a sensor-based, dynamic data structure useful for robot navigation in an unknown, multiply-connected planar environment. This data structure offers a robust framework for robot navigation, avoiding the need of a complete geometric map or explicit localization, by building a minimal representation based entirely on critical events in online sensor measurements made by the robot. There are two sensing requirements for the robot: it must detect when it is close to the walls, to perform wall-following reliably, and it must be able to detect discontinuities in depth information. It is also assumed that the robot is able to drop, detect and recover a marker. The navigation paths generated are optimal...
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
Abstract: This paper describes an intuitive geometric algorithm for the localization of mobile nodes...
An algorithmic solution method is presented for the problem of autonomous robot motion in completely...
In this paper we present an algorithm to build a sensor-based, dynamic data structure useful for rob...
Abstract — In this paper we present an algorithm to build a sensor-based, dynamic data structure use...
Abstract — This paper considers what can be accomplished using a mobile robot that has limited sensi...
We consider the problem of online robot navigation in an unfamiliar two-dimensional environment, usi...
This paper defines and analyzes a simple robot with local sensors that moves in an unknown polygonal...
We present an online algorithm for a robot to shape its path to a locally optimal configuration for ...
This thesis addresses the problem of minimum distance localization in environments that may have st...
This thesis introduces a sensor-based planning algorithm that uses less sensing information than an...
Our motivation focuses on answering a simple question: What is the minimum robotic structure necess...
This paper presents muNav, a novel approach to navigation which, with minimal requirements in terms ...
A strategy typically employed for mobile robot navigation in an unknown environment is to follow a n...
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
Abstract: This paper describes an intuitive geometric algorithm for the localization of mobile nodes...
An algorithmic solution method is presented for the problem of autonomous robot motion in completely...
In this paper we present an algorithm to build a sensor-based, dynamic data structure useful for rob...
Abstract — In this paper we present an algorithm to build a sensor-based, dynamic data structure use...
Abstract — This paper considers what can be accomplished using a mobile robot that has limited sensi...
We consider the problem of online robot navigation in an unfamiliar two-dimensional environment, usi...
This paper defines and analyzes a simple robot with local sensors that moves in an unknown polygonal...
We present an online algorithm for a robot to shape its path to a locally optimal configuration for ...
This thesis addresses the problem of minimum distance localization in environments that may have st...
This thesis introduces a sensor-based planning algorithm that uses less sensing information than an...
Our motivation focuses on answering a simple question: What is the minimum robotic structure necess...
This paper presents muNav, a novel approach to navigation which, with minimal requirements in terms ...
A strategy typically employed for mobile robot navigation in an unknown environment is to follow a n...
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
Abstract: This paper describes an intuitive geometric algorithm for the localization of mobile nodes...
An algorithmic solution method is presented for the problem of autonomous robot motion in completely...