Many envisioned applications of mobile robotic systems require the robot to navigate in complex urban environments. This need is particularly critical if the robot is to perform as part of a synergistic team with human forces in military operations. Historically, the development of autonomous navigation for mobile robots has targeted either outdoor or indoor scenarios, but not both, which is not how humans operate. This paper describes efforts to fuse component technologies into a complete navigation system, allowing a robot to seamlessly transition between outdoor and indoor environments. Under the Joint Robotics Program’s Technology Transfer project, empirical evaluations of various localization approaches were conducted to assess their m...
In this paper we show that it is possible to extend a mobile indoor service robot, making it capable...
In the framework of autonomous navigation, an application of Kalman filtering to the problem of mult...
For mobile robots to be successful, they have to navigate safely in populated and dynamic environmen...
Many envisioned applications of mobile robotic systems require the robot to navigate in complex urba...
The potential applications for mobile robots are enormous. The mobile robots must quickly and robust...
In this paper we address the problem of autonomous navigation and localization in indoor environment...
Recently there has been increasing research on the development of localization and navigation syste...
Autonomous vehicle or self-driving vehicle prototypes are being developed rapidly and are soon expec...
As a mobile robot navigates through an indoor environment, the condition of the floor is of low (or ...
An autonomous navigation system for a robot is key for it to be self-reliant in any given environmen...
With an increasing need for greater traffic safety, there is an increasing demand for means by which...
The goal of this project was to create a software for an autonomous mobile robot capable of navigati...
This work presents a comprehensive review of current probabilistic developments used to calculate po...
This paper addresses the problems of building a functional mobile robot for urban site navigation an...
This paper addresses the problems of designing, building and using mobile robots for urban site mode...
In this paper we show that it is possible to extend a mobile indoor service robot, making it capable...
In the framework of autonomous navigation, an application of Kalman filtering to the problem of mult...
For mobile robots to be successful, they have to navigate safely in populated and dynamic environmen...
Many envisioned applications of mobile robotic systems require the robot to navigate in complex urba...
The potential applications for mobile robots are enormous. The mobile robots must quickly and robust...
In this paper we address the problem of autonomous navigation and localization in indoor environment...
Recently there has been increasing research on the development of localization and navigation syste...
Autonomous vehicle or self-driving vehicle prototypes are being developed rapidly and are soon expec...
As a mobile robot navigates through an indoor environment, the condition of the floor is of low (or ...
An autonomous navigation system for a robot is key for it to be self-reliant in any given environmen...
With an increasing need for greater traffic safety, there is an increasing demand for means by which...
The goal of this project was to create a software for an autonomous mobile robot capable of navigati...
This work presents a comprehensive review of current probabilistic developments used to calculate po...
This paper addresses the problems of building a functional mobile robot for urban site navigation an...
This paper addresses the problems of designing, building and using mobile robots for urban site mode...
In this paper we show that it is possible to extend a mobile indoor service robot, making it capable...
In the framework of autonomous navigation, an application of Kalman filtering to the problem of mult...
For mobile robots to be successful, they have to navigate safely in populated and dynamic environmen...