Add to ORKGInternational audienceThe integration of the Safety dimension has been a critical requirement when developing and deploying Autonomous Vehicles (AV). While much progress has been achieved within the past years, most work has centred on providing vehicles with the ability to navigate autonomously. Safety has emerged as the major challenge. This paper proposes a reference architecture that incorporates the notion of self-safety into existing AV architectures. This architecture consists in a multi-layered control loop aimed at managing self-adaptation processes in order to ensure safety at run-tim
International audienceThe rapid adoption of artificial intelligence (AI) techniques is being used to...
For automotive manufacturers and tier-1 suppliers, the upcoming safety standard ISO 26262 results in...
Modern cyber-physical systems (CPS) integrate more and more powerful computing power to master novel...
International audienceThe integration of the Safety dimension has been a critical requirement when d...
The development and deployment of Autonomous Vehicles (AV) is a very challenging endeavour from a sa...
Future safety-critical systems will be highly automated or even autonomous and they will dynamically...
For automated driving, higher levels of automation pose new challenges in terms of safety. In this p...
Recently, autonomous vehicle development ignited competition among car makers and technical corporat...
Each year, automotive crashes cause thousands of deaths and injuries. Autonomous safety systems have...
L’Institut pour la Transition Energétique VEDECOM a pour ambition de développer un véhicule autonome...
An increased focus on the development of autonomous safety-critical systems requiresmore attention a...
In safety engineering for non-autonomous vehicles, it is generally assumed that safety is achieved i...
Persistent challenges in making autonomous vehicles safe and reliable have hampered their widespread...
Advances in robotics, artificial intelligence, and communication technology are enabling increasingl...
International audienceWe propose a Model-Based System Engineering (MBSE) approach for the safety of ...
International audienceThe rapid adoption of artificial intelligence (AI) techniques is being used to...
For automotive manufacturers and tier-1 suppliers, the upcoming safety standard ISO 26262 results in...
Modern cyber-physical systems (CPS) integrate more and more powerful computing power to master novel...
International audienceThe integration of the Safety dimension has been a critical requirement when d...
The development and deployment of Autonomous Vehicles (AV) is a very challenging endeavour from a sa...
Future safety-critical systems will be highly automated or even autonomous and they will dynamically...
For automated driving, higher levels of automation pose new challenges in terms of safety. In this p...
Recently, autonomous vehicle development ignited competition among car makers and technical corporat...
Each year, automotive crashes cause thousands of deaths and injuries. Autonomous safety systems have...
L’Institut pour la Transition Energétique VEDECOM a pour ambition de développer un véhicule autonome...
An increased focus on the development of autonomous safety-critical systems requiresmore attention a...
In safety engineering for non-autonomous vehicles, it is generally assumed that safety is achieved i...
Persistent challenges in making autonomous vehicles safe and reliable have hampered their widespread...
Advances in robotics, artificial intelligence, and communication technology are enabling increasingl...
International audienceWe propose a Model-Based System Engineering (MBSE) approach for the safety of ...
International audienceThe rapid adoption of artificial intelligence (AI) techniques is being used to...
For automotive manufacturers and tier-1 suppliers, the upcoming safety standard ISO 26262 results in...
Modern cyber-physical systems (CPS) integrate more and more powerful computing power to master novel...