Article 5BPF3 Systematic Cybersecurity Threat Analysis and Risk Assessment

Systematic Cybersecurity Threat Analysis and Risk Assessment

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from IEEE Spectrum on (#5BPF3)
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The digital revolution has given transportation companies and consumers a host of new features and benefits, introducing significant complexities in concert with unprecedented connectivity that leaves vehicles vulnerable to cyberattack. To safeguard these systems, engineers must consider a dizzying array of components and interconnected systems to identify any vulnerabilities. Traditional workflows and outdated tools will not be enough to ensure products meet the upcoming ISO 21434 and other applicable cybersecurity standards. Achieving a high level of cybersecurity to protect supply chains and personal vehicles requires high-quality threat analysis.

Ansys medini for Cybersecurity helps secure in-vehicle systems and substantially improves time to market for critical security-related functions. Addressing the increasing market needs for systematic analysis and assessment of security threats to cyber-physical systems, medini for Cybersecurity starts early in the system design. Armed with this proven tool, engineers will replace outdated processes reliant on error-prone human analysis.

In this webinar, we dynamically demonstrate how systematic cybersecurity analysis enables engineers to mitigate vulnerabilities to hacking and cyberattacks.

  • Learn how to identify assets in the system and their important security attributes.
  • Discover new methods for systematically identifying system vulnerabilities that can be exploited to execute attacks.
  • Understand the consequences of a potentially successful attack.
  • Receive expert tips on how to estimate the potential of an attack.
  • Learn how to associate a risk with each threat.
  • Leverage new tools for avoiding overengineering and underestimation.
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Mario Winkler, Lead Product Manager

After finishing his studies in Computer Science at the Humboldt University Berlin and after working for the Fraunhofer Research Institute Mario joined the medini team in 2001. During the past 15 years he gained expertise in functional safety expecially in the automotive domain by helping various customers, OEMs and suppliers, to apply medini analyze to their functional safety process according to ISO26262. With the extended focus of medini to Cybersecurity Mario took on the role of a Product Manager to drive the development of medini analyze in this direction.

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