Automotive Cybersecurity Engineering Handbook: The automotive engineer’s roadmap to cyber-resilient vehicles
by: Dr. Ahmad MK Nasser (Author)
Publisher finelybook 出版社: Packt Publishing (October 13, 2023)
Language 语言: English
Print Length 页数: 392 pages
ISBN-10: 1801076537
ISBN-13: 9781801076531
Book Description
Accelerate your journey of securing safety-critical automotive systems through practical and standard-compliant methods
Key Features
Understand how automotive systems can become vulnerable to cyberattacks
Apply security controls to all vehicle layers for mitigating cybersecurity risks
Find out how systematic secure engineering mitigates cyber risks while ensuring compliance
Purchase of the print or Kindle book includes a free PDF eBook
Book Description
Replete with exciting challenges, automotive cybersecurity is an emerging domain, and cybersecurity is a foundational enabler for current and future connected vehicle features. This book addresses the severe talent shortage faced by the industry in meeting the demand for building cyber-resilient systems by consolidating practical topics on securing automotive systems to help automotive engineers gain a competitive edge.
The book begins by exploring present and future automotive vehicle architectures, along with relevant threats and the skills essential to addressing them. You’ll then explore cybersecurity engineering methods, focusing on compliance with existing automotive standards while making the process advantageous. The chapters are designed in a way to help you with both the theory and practice of building secure systems while considering the cost, time, and resource limitations of automotive engineering. The concluding chapters take a practical approach to threat modeling automotive systems and teach you how to implement security controls across different vehicle architecture layers.
By the end of this book, you’ll have learned effective methods of handling cybersecurity risks in any automotive product, from single libraries to entire vehicle architectures.
What you will learn
Get to grips with present and future vehicle networking technologies
Explore basic concepts for securing automotive systems
Discover diverse approaches to threat modeling of systems
Conduct efficient threat analysis and risk assessment (TARA) for automotive systems using best practices
Gain a comprehensive understanding of ISO/SAE 21434’s cybersecurity engineering approach
Implement cybersecurity controls for all vehicle life cycles
Master ECU-level cybersecurity controls
Who this book is for
If you’re an engineer wondering where to get started in the field of automotive cybersecurity or trying to understand which security standards apply to your product and how, then this is the book for you. This book is also for experienced engineers looking for a practical approach to automotive cybersecurity development that can be achieved within a reasonable time frame while leveraging established safety and quality processes. Familiarity with basic automotive development processes across the V-model will help you make the most of this book.
Tableof Contents
1. Introducing the vehicle Electrical/Electronic Architecture
2. Cybersecurity Basics for Automotive Use Cases
3. Threat Landscape ag ainst vehicle Components
4. Exploring the Landscape of Automotive Cybersecurity Standards
5. Taking a Deep Dive into ISO/SAE21434
6. Interactions Between Functional Safety and Cybersecurity
7. A Practical Threat vloceling Approach for Automotive Systems
8. vehicle-Level Security Controls
9. ECU-Level Security Controls
About the Author
Dr. Ahmad MK Nasser is an automotive cybersecurity architect with a long experience in securing safety-critical systems. He started his career as a software engineer, building automotive network drivers, diagnostics protocols, and flash programming solutions. This naturally led him into the field of automotive cybersecurity, where he designed secure firmware solutions for various microcontrollers and SoCs, defined secure hardware and software architectures of embedded systems, and performed threat analysis of numerous vehicle architectures, ECUs, and smart sensors. Ahmad holds a B.S. and an M.S. in electrical and computer engineering from Wayne State University, as well as a Ph.D. in computer science from the University of Michigan in Dearborn. He is currently a principal security architect for NVIDIA’s autonomous driving software platform. Amazon page