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Building Secure Automotive IoT Applications

You're reading from Building Secure Automotive IoT Applications Developing robust IoT solutions for next-gen automotive software

Product type Paperback

Published in Aug 2024

Publisher Packt

ISBN-13 9781835465509

Length 358 pages

Edition 1st Edition

Concepts

Cybersecurity

Authors (4):

Dr. Dennis Kengo Oka

Jeff Yost

Sharanukumar Nadahalli

Ram Prasad Bojanki

View More author details

Table of Contents (22) Chapters

Preface

1. Part 1: Introduction to Automotive IoT FREE CHAPTER

2. Chapter 1: Automotive Technology Trends

3. Chapter 2: Introducing Automotive IoT Use Cases

4. Part 2: Vehicle Architectures

5. Chapter 3: Vehicle Architecture and Frameworks

6. Chapter 4: Vehicle Diagnostics

7. Chapter 5: Next Wave of Vehicle Diagnostics

8. Part 3: Secure Development for Automotive IoT

9. Chapter 6: Exploring Secure Development Processes for Automotive IoT

10. Chapter 7: Establishing a Secure Software Development Platform

11. Chapter 8: Securing the Software Supply Chain

12. Part 4: Automotive IoT Application Life Cycle

13. Chapter 9: System Design of an Automotive IoT Application

14. Chapter 10: Developing an Automotive IoT Application

15. Chapter 11: Deploying and Maintaining an Automotive IoT Application

16. Part 5: Automotive Software Insights

17. Chapter 12: Processes and Practices

18. Chapter 13: Embedded Automotive IoT Development

19. Chapter 14: Final Thoughts

20. Index

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21. Other Books You May Enjoy

SOVD

SOVD is designed to provide a straightforward diagnostic interface for both modern software-defined vehicle architectures and legacy architectures, including classic ECUs. Additionally, SOVD ensures uniform access for remote, proximal, and in-vehicle diagnostic scenarios. Figure 5.2 provides a high-level view of in-vehicle, proximal, and remote diagnostics.

Figure 5.2 – SOVD use cases (in-vehicle, proximal, and remote)

Figure 5.2 – SOVD use cases (in-vehicle, proximal, and remote)

The ECUs can be accessed within the vehicle (In-Vehicle), locally, near the vehicle (Proximity), or remotely via the cloud (Remote). Here is a detailed discussion of the three types of access:

In-vehicle access: This means accessing ECUs from within the vehicle itself, typically for real-time monitoring, error detection, maintenance, and health status checks.
Proximity access: This means accessing ECUs when physically near the vehicle, often required for diagnostics, repairs, or compliance verification, such as in...

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Authors (4)

Dr. Dennis Kengo Oka

Dr. Dennis Kengo Oka

Dr. Dennis Kengo Oka is an automotive cybersecurity expert with over 15 years of experience. He has a Ph.D. in automotive security from Chalmers University of Technology in Sweden. He has worked for Volvo, Bosch Group, and held the role of head of engineering and consulting Asia-Pacific. Some highlights of his career include security research for remote diagnostics and over-the-air updates, co-launching the ESCRYPT automotive security practice in Japan, and standardizing cybersecurity testing. Dennis is on the advisory board for Block Harbor, and with over 70 publications, including his book, Building Secure Cars: Assuring the Automotive Software Development Lifecycle, he is also a frequent speaker at international automotive and cybersecurity conferences.

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Ram Prasad Bojanki

Ram Prasad Bojanki

Ram Prasad Bojanki is a seasoned software development professional with over two decades of experience, with a particular focus on the automotive industry for 15 years. Most recently, Ram led the charge at Panasonic North America, Smart Mobility, where he spearheaded the entire lifecycle of the OneConnect Cloud Platform (IoT), from conceptualization and development to delivery and operational management. This experience highlights his well-honed abilities in designing and developing complex products and platforms across diverse environments, including both embedded systems and cloud technologies. He holds a Bachelor's in Electronics and Instrumentation Engineering from Andhra University, India.

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Jeff Yost

Jeff Yost

Jeff Yost is an engineering manager at Panasonic Automotive Systems of America. He is a 20-year veteran in embedded development and has been in automotive for over 5 years. He has spent most of his career in software but also had a stint as a product line general manager. Jeff enjoys working with teams and developing new products. He graduated with a BSEE from Missouri Science and Technology University before moving to the desert of Tucson and earning a master's degree in electrical and computer engineering from the University of Arizona. He has 3 US patents and developed many industry-leading products. After enjoying 20 years in the beautiful Pacific Northwest, he relocated to the golf cart community of Peachtree City, Georgia, where he bikes to work daily.

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Sharanukumar Nadahalli

Sharanukumar Nadahalli

Sharanukumar Nadahalli is a software engineering manager at Panasonic Automotive Systems of America with over 16 years of experience in the automotive industry. He has held various roles, including SW developer, technical leader, product architect, project manager, and technical manager. Before that, he worked in embedded system software development for over a year. Sharanu is an enthusiastic learner currently focusing on cybersecurity. Sharanu earned a Stanford lead certification from the Stanford University Graduate School of Business. He also holds a master's degree in general business from Clayton State University, Georgia, and a bachelor's degree in computer science from Visvesvaraya Technological University, India. Sharanu has also served as an area director in Toastmasters International and remains an active member.

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