International audienceThe Next-Generation Airborne Collision Avoidance System (ACAS X) is intended to be installed on all large aircraft to give advice to pilots and prevent mid-air collisions with other aircraft. It is currently being developed by the Federal Aviation Administration (FAA). In this paper we determine the geometric configurations under which the advice given by ACAS X is safe under a precise set of assumptions and formally verify these configurations using hybrid systems theorem proving techniques. We consider subsequent advisories and show how to adapt our formal verification to take them into account. We examine the current version of the real ACAS X system and discuss some cases where our safety theorem conflicts with the...
As airspace becomes ever more crowded, air traffic management must reduce both space and time betwee...
The emergence of unmanned aerial vehicles and the ever increasing performance in terms of speed, fli...
In this paper, we demonstrate a high-level approach to modeling and analyzing complex safety-critica...
International audienceThe Next-Generation Airborne Collision Avoidance System (ACAS X) is intended t...
and should not be interpreted as representing the official policies, either expressed or implied, of...
In this paper, we demonstrate a high-level approach to modeling, analyzing, and verifying complex s...
The development of the new generation of airborne collision avoidance system ACAS X adopts a model-b...
007486991997PDFResearch PaperTraffic alert and collision avoidance systemValidationAviation safetyAi...
Rapidly increasing numbers of ships and ship sizes pose an ever-growing challenge to the maritime in...
International audienceCurrent international regulations and policies do not consider the effect of a...
Complex software systems are becoming increasingly prevalent in aerospace applications, in particula...
Aircraft collision avoidance maneuvers are important and complex applications. Curved flight exhibit...
Complex software systems are becoming increasingly prevalent in aerospace applications: in particula...
As airspace becomes ever more crowded, air traffic management must reduce both space and time betwee...
Curved or segmented approach procedures are considered beneficial for reducing or shifting the impac...
As airspace becomes ever more crowded, air traffic management must reduce both space and time betwee...
The emergence of unmanned aerial vehicles and the ever increasing performance in terms of speed, fli...
In this paper, we demonstrate a high-level approach to modeling and analyzing complex safety-critica...
International audienceThe Next-Generation Airborne Collision Avoidance System (ACAS X) is intended t...
and should not be interpreted as representing the official policies, either expressed or implied, of...
In this paper, we demonstrate a high-level approach to modeling, analyzing, and verifying complex s...
The development of the new generation of airborne collision avoidance system ACAS X adopts a model-b...
007486991997PDFResearch PaperTraffic alert and collision avoidance systemValidationAviation safetyAi...
Rapidly increasing numbers of ships and ship sizes pose an ever-growing challenge to the maritime in...
International audienceCurrent international regulations and policies do not consider the effect of a...
Complex software systems are becoming increasingly prevalent in aerospace applications, in particula...
Aircraft collision avoidance maneuvers are important and complex applications. Curved flight exhibit...
Complex software systems are becoming increasingly prevalent in aerospace applications: in particula...
As airspace becomes ever more crowded, air traffic management must reduce both space and time betwee...
Curved or segmented approach procedures are considered beneficial for reducing or shifting the impac...
As airspace becomes ever more crowded, air traffic management must reduce both space and time betwee...
The emergence of unmanned aerial vehicles and the ever increasing performance in terms of speed, fli...
In this paper, we demonstrate a high-level approach to modeling and analyzing complex safety-critica...