The Technology Transfer project employs a spiral development process to enhance the functionality and autonomy of mobile robot systems in the Joint Robotics Program (JRP) Robotic Systems Pool by converging existing component technologies onto a transition platform for optimization. An example of this approach is the implementation of advanced computer vision algorithms on small mobile robots. We demonstrate the implementation and testing of the following two algorithms useful on mobile robots: 1) object classification using a boosted Cascade of classifiers trained with the Adaboost training algorithm, and 2) human presence detection from a moving platform. Object classification is performed with an Adaboost training system developed at the ...
In this paper we discuss the implementation and uses of the object recognition system used for CARME...
Autonomous mobile robots are becoming more prevalent in our society as they become more useful. Ofte...
In this paper we present an algorithm that allows a human to naturally and easily teach a mobile rob...
Development of a robust outdoor navigation system for a mobile robot is a challenging task. A robust...
Mobile robotics is a research domain that focuses on developing autonomous vehicles that can navigat...
This project related to develop and implementation of autonomous vision based mobile robot following...
Object recognition and localisation are important processes in computer vision and robotics. Advance...
Object recognition and localisation are important processes in computer vision and robotics. Advance...
This project related to develop and implementation of autonomous vision based mobile robot following...
International audienceExisting object recognition techniques often rely on human labeled data conduc...
Nowadays, the development of computer vision technology help to overcome track and identify humans w...
We have seen tremendous progress in the computer vision community across the past decades. While ear...
With remarkable increase in computing power and the demand for affordable robotic systems increasing...
A fundamental challenge in deploying vision-based object detection on a robotic platform is achievin...
This paper describes a robotic application that tracks a moving object by utilizing a mobile robot w...
In this paper we discuss the implementation and uses of the object recognition system used for CARME...
Autonomous mobile robots are becoming more prevalent in our society as they become more useful. Ofte...
In this paper we present an algorithm that allows a human to naturally and easily teach a mobile rob...
Development of a robust outdoor navigation system for a mobile robot is a challenging task. A robust...
Mobile robotics is a research domain that focuses on developing autonomous vehicles that can navigat...
This project related to develop and implementation of autonomous vision based mobile robot following...
Object recognition and localisation are important processes in computer vision and robotics. Advance...
Object recognition and localisation are important processes in computer vision and robotics. Advance...
This project related to develop and implementation of autonomous vision based mobile robot following...
International audienceExisting object recognition techniques often rely on human labeled data conduc...
Nowadays, the development of computer vision technology help to overcome track and identify humans w...
We have seen tremendous progress in the computer vision community across the past decades. While ear...
With remarkable increase in computing power and the demand for affordable robotic systems increasing...
A fundamental challenge in deploying vision-based object detection on a robotic platform is achievin...
This paper describes a robotic application that tracks a moving object by utilizing a mobile robot w...
In this paper we discuss the implementation and uses of the object recognition system used for CARME...
Autonomous mobile robots are becoming more prevalent in our society as they become more useful. Ofte...
In this paper we present an algorithm that allows a human to naturally and easily teach a mobile rob...