We present three computer-augmented software engineering approaches to ensure dependability at different levels of control architectures in autonomous robots. For each approach, we outline the methodological framework, our current achievements, and open issues. Albeit our results are still preliminary, we believe that furthering research along these lines can provide cost-effective techniques to make autonomous robots safe and thus fit for commercial purposes
In this study, the relevant research literature in recent years has been systematically reviewed and...
International audienceDeveloping advanced robotics applications is now facing the confidence issue f...
Abstract. Before autonomous robotics can be used for dangerous or critical missions, performance gua...
International audienceThe consequences of autonomous systems software failures can be potentially dr...
While autonomous systems offer great promise in terms of capability and flexibility, their reliabili...
Autonomous robots such as robot assistants, healthcare robots, industrial robots, autonomous vehicle...
Autonomous robots such as robot assistants, healthcare robots, industrial robots, autonomous vehicle...
Formal Methods are mathematically-based techniques for software design and engineering, which enable...
A computational system is called autonomous if it is able to make its own decisions, or take its own...
The integration of autonomous robots in real applications is a challenge. It needs that the behaviou...
The growing trend in robotics towards applications in an unstructured environment brings new challen...
International audienceWith the increasing use of domestic and service robots alongside humans, it is...
AbstractA computational system is called autonomous if it is able to make its own decisions, or take...
The robotics and autonomous systems communities have seen a significant and rapid increase in both t...
Complex autonomous robots such as autonomous vehicles or robotic guides are critical systems because...
In this study, the relevant research literature in recent years has been systematically reviewed and...
International audienceDeveloping advanced robotics applications is now facing the confidence issue f...
Abstract. Before autonomous robotics can be used for dangerous or critical missions, performance gua...
International audienceThe consequences of autonomous systems software failures can be potentially dr...
While autonomous systems offer great promise in terms of capability and flexibility, their reliabili...
Autonomous robots such as robot assistants, healthcare robots, industrial robots, autonomous vehicle...
Autonomous robots such as robot assistants, healthcare robots, industrial robots, autonomous vehicle...
Formal Methods are mathematically-based techniques for software design and engineering, which enable...
A computational system is called autonomous if it is able to make its own decisions, or take its own...
The integration of autonomous robots in real applications is a challenge. It needs that the behaviou...
The growing trend in robotics towards applications in an unstructured environment brings new challen...
International audienceWith the increasing use of domestic and service robots alongside humans, it is...
AbstractA computational system is called autonomous if it is able to make its own decisions, or take...
The robotics and autonomous systems communities have seen a significant and rapid increase in both t...
Complex autonomous robots such as autonomous vehicles or robotic guides are critical systems because...
In this study, the relevant research literature in recent years has been systematically reviewed and...
International audienceDeveloping advanced robotics applications is now facing the confidence issue f...
Abstract. Before autonomous robotics can be used for dangerous or critical missions, performance gua...