Add to ORKGA computational system is called autonomous if it is able to make its own decisions, or take its own actions, without human supervision or control. The capability and spread of such systems have reached the point where they are beginning to touch much of everyday life. However, regulators grapple with how to deal with autonomous systems, for example how could we certify an Unmanned Aerial System for autonomous use in civilian airspace? We here analyse what is needed in order to provide verified reliable behaviour of an autonomous system, analyse what can be done as the state-of-the-art in automated verification, and propose a roadmap towards developing regulatory guidelines, including articulating challenges to researchers, to engineers, an...
Most modern airplanes include automated systems to improve both the efficiency and safety of flight...
This research was driven by the increase of autonomous systems in the current millennium and the cha...
Purpose of Review: The deployment of hardware (e.g., robots, satellites, etc.) to space is a costly ...
A computational system is called autonomous if it is able to make its own decisions, or take its ow...
A computational system is called autonomous if it is able to make its own decisions, or take its own...
AbstractA computational system is called autonomous if it is able to make its own decisions, or take...
Autonomous aerial vehicles (AAV) have the potential to have market disruptions for various industrie...
The age of Autonomous Unmanned Aircraft Systems (AUAS) is creating new challenges for the accreditat...
Autonomous aerial vehicles (AAV) have the potential to have market disruptions for various industrie...
Unmanned aircraft systems promise to be useful for a multitude of applications such as cargo transpo...
Autonomous Systems (AS) are becoming ubiquitous in our society. Some examples are autonomous vehicle...
Future unmanned aircraft are expected to be autonomous, perform missions automatically, and act inte...
When naval certification officials issue a safety of flight clearance, they are certifying that when...
The design of autonomous systems is challenging and ensuring their trustworthiness can have differen...
Civil aviation safety regulations and guidance mate- rial classify Unmanned Aircraft Systems (UAS) a...
Most modern airplanes include automated systems to improve both the efficiency and safety of flight...
This research was driven by the increase of autonomous systems in the current millennium and the cha...
Purpose of Review: The deployment of hardware (e.g., robots, satellites, etc.) to space is a costly ...
A computational system is called autonomous if it is able to make its own decisions, or take its ow...
A computational system is called autonomous if it is able to make its own decisions, or take its own...
AbstractA computational system is called autonomous if it is able to make its own decisions, or take...
Autonomous aerial vehicles (AAV) have the potential to have market disruptions for various industrie...
The age of Autonomous Unmanned Aircraft Systems (AUAS) is creating new challenges for the accreditat...
Autonomous aerial vehicles (AAV) have the potential to have market disruptions for various industrie...
Unmanned aircraft systems promise to be useful for a multitude of applications such as cargo transpo...
Autonomous Systems (AS) are becoming ubiquitous in our society. Some examples are autonomous vehicle...
Future unmanned aircraft are expected to be autonomous, perform missions automatically, and act inte...
When naval certification officials issue a safety of flight clearance, they are certifying that when...
The design of autonomous systems is challenging and ensuring their trustworthiness can have differen...
Civil aviation safety regulations and guidance mate- rial classify Unmanned Aircraft Systems (UAS) a...
Most modern airplanes include automated systems to improve both the efficiency and safety of flight...
This research was driven by the increase of autonomous systems in the current millennium and the cha...
Purpose of Review: The deployment of hardware (e.g., robots, satellites, etc.) to space is a costly ...