The automotive industry's rapid transition to software-defined vehicles (SDVs) presents a complex cybersecurity landscape. With nearly every vehicle function based on software, the attack surface has grown exponentially. With each line of code added, the potential for vulnerabilities grows. In addition, modern vehicles communicate via numerous interfaces, including the Internet, Bluetooth, diagnostic ports and more. This diverse connectivity creates a maze of potential entry points for cyber attackers. In addition, the interconnectedness of vehicle components means that a breach in one area can have far-reaching consequences, impacting critical functions and occupant safety. To effectively address these challenges, the use of new methods and technologies for early threat detection is essential. Traditional approaches to cybersecurity are no longer sufficient. A proactive stance is required to defend against cyber threats from the outset. In addition to identifying threats, it is equally important to test the effectiveness of countermeasures. This includes simulating potential attacks to determine if they could realistically occur and if mitigation strategies are robust enough to neutralize them.
Protecting Passengers and Data: The Importance of a Consistent Process from TARA to Testing
12.12.2023
193623 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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