2nd International Workshop on Safety and Security of Intelligent Vehicles, Toulouse, Frankreich

Over the last years, aerial and ground vehicles as well as mobile robot systems have been receiving an increased number of electronic components, connected through wireless networks and running embedded software&#046; This strong integration between dedicated computing devices, the physical environment and networking, composes a Cyber&#8211;Physical System (CPS)&#046; CPS have thus become part of common vehicles, accessible to everyone, such as automobiles or unmanned aerial vehicles&#046; Furthermore, as processing power increases and software becomes more sophisticated, these vehicles gain the ability to perform complex operations, becoming more autonomous, efficient, adaptable, comfortable, safe and usable&#046; These are known as Intelligent Vehicles (IV)&#046;<br>However, the combination of high mobility and wireless communications has further increased the exposure of these systems to malicious threats and to faults deriving from uncertain connectivity or communication timeliness&#046; Non&#8211;functional requirements like security and real&#8211;time operation have thus become harder to fulfill, creating new challenges to such safety&#8211;critical embedded systems&#046;<br>After the very successful initial edition of this workshop, clearly showing the interest of the community on discussions about the challenges and innovative solutions regarding Intelligent Vehicles, the workshop will keep the same focus, namely exploring the challenges and interdependencies between security, real&#8211;time, safety and certification, which emerge when introducing networked, autonomous and cooperative functionalities&#046;<br>TOPICS<br>A non&#8211;exhaustive list of topics of interest include the following:<br>&#8211; Architecture, design, implementation and management of safe and secure intelligent vehicles<br>&#8211; Functional safety, standards and certification<br>&#8211; Security threats to cyber&#8211;physical systems<br>&#8211; Secure data communication in vehicular networks<br>&#8211; Collision prediction and avoidance<br>&#8211; Safety and security issues in ADAS<br>&#8211; Vision, learning and distributed cognition for active safety<br>&#8211; Real&#8211;time perception and sensor fusion for safe autonomous driving<br>&#8211; Practical experiences and testbeds related with safety and security of intelligent vehicles<br>&#8211; Industrial experiences and best practices relevant to safety and security of intelligent vehicles<br>