Add to ORKGWe propose an approach based on Alloy to formally model and assess a system architecture with respect to safety and security requirements. We illustrate this approach by considering as a case study an avionic system developed by Thales, which provides guidance to aircraft. We show how to define in Alloy a metamodel of avionic architectures with a focus on failure propagations. We then express the specific architecture of the case study in Alloy. Finally, we express and check properties that refer to the robustness of the architecture to failures and attacks.
The Integrated Modular Avionics System (IMA) has been a core technology for the new generation of ai...
Aeronautics is actually facing a confluence of events: connectivity of aircraft is gradually increas...
The increased computational power and connectivity in modern Cyber-Physical Systems (CPS) inevitably...
Abstract. We propose an model-based approach to address safety and security assessment of a system a...
International audienceWe propose an approach based on Alloy to formally model and assess a system ar...
As previously discussed [13], the challenges to achieve a consistent intertwining between safety and...
Cybersecurity vulnerabilities are relatively new regarding airworthiness in comparison with those en...
International audienceEnsuring safety in avionics has mostly been achieved through a complete separa...
As unmanned aircraft systems become an increasingly integral part of a wide range of applications, e...
The aviation industry needs to assure the reliable operation of aircrafts. While this reliability ha...
Part 3: CYBER-PHYSICAL SYSTEMS SECURITYInternational audienceCyber-physical systems are under consta...
A system is said to be fail-secure, sometimes confused with fail-safe, if it maintains its security ...
Designing and improving the resilience of complex sociotechnical/cyber-physical systems is not a sim...
International audienceAssuring that security requirements have been met in design phases is less exp...
Modular system architectures, such as integrated modular avionics (IMA) in the aerospace sector, off...
The Integrated Modular Avionics System (IMA) has been a core technology for the new generation of ai...
Aeronautics is actually facing a confluence of events: connectivity of aircraft is gradually increas...
The increased computational power and connectivity in modern Cyber-Physical Systems (CPS) inevitably...
Abstract. We propose an model-based approach to address safety and security assessment of a system a...
International audienceWe propose an approach based on Alloy to formally model and assess a system ar...
As previously discussed [13], the challenges to achieve a consistent intertwining between safety and...
Cybersecurity vulnerabilities are relatively new regarding airworthiness in comparison with those en...
International audienceEnsuring safety in avionics has mostly been achieved through a complete separa...
As unmanned aircraft systems become an increasingly integral part of a wide range of applications, e...
The aviation industry needs to assure the reliable operation of aircrafts. While this reliability ha...
Part 3: CYBER-PHYSICAL SYSTEMS SECURITYInternational audienceCyber-physical systems are under consta...
A system is said to be fail-secure, sometimes confused with fail-safe, if it maintains its security ...
Designing and improving the resilience of complex sociotechnical/cyber-physical systems is not a sim...
International audienceAssuring that security requirements have been met in design phases is less exp...
Modular system architectures, such as integrated modular avionics (IMA) in the aerospace sector, off...
The Integrated Modular Avionics System (IMA) has been a core technology for the new generation of ai...
Aeronautics is actually facing a confluence of events: connectivity of aircraft is gradually increas...
The increased computational power and connectivity in modern Cyber-Physical Systems (CPS) inevitably...