Integration of Security in the Development Lifecycle of Dependable Automotive CPS

Georg Macher; Eric Armengaud; Christian Kreiner; Eugen Brenner; Christoph Schmittner; Zhendong Ma; Helmut Martin; Martin Krammer

doi:10.4018/978-1-5225-2845-6.ch015

Integration of Security in the Development Lifecycle of Dependable Automotive CPS

Georg Macher, Eric Armengaud, Christian Kreiner, Eugen Brenner, Christoph Schmittner, Zhendong Ma, Helmut Martin, Martin Krammer

Institute of Technical Informatics (4480)

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

The exciting new features, such as advanced driver assistance systems, fleet management systems, and autonomous driving, drive the need for built-in security solutions and architectural designs to mitigate emerging security threats. Thus, cybersecurity joins reliability and safety as a cornerstone for success in the automotive industry. As vehicle providers gear up for cybersecurity challenges, they can capitalize on experiences from many other domains, but nevertheless must face several unique challenges. Therefore, this article focuses on the enhancement of state-of-the-art development lifecycle for automotive cyber-physical systems toward the integration of security, safety and reliability engineering methods. Especially, four engineering approaches (HARA at concept level, FMEA and FTA at design level and HSI at implementation level) are extended to integrate security considerations into the development lifecycle.

Original language	English
Title of host publication	Solutions for Cyber-Physical Systems Ubiquity
Editors	Norbert Druml, Andreas Genser, Krieg. Armin, Manuel Menghin, Andrea Hoeller
Publisher	IGI Global Publishing
Pages	383-423
Number of pages	41
ISBN (Electronic)	9781522528463
ISBN (Print)	9781522528456, 1522528458
DOIs	https://doi.org/10.4018/978-1-5225-2845-6.ch015
Publication status	Published - 2018

Access to Document

10.4018/978-1-5225-2845-6.ch015

1 Active
4 Finished

Industrial Informatics
Macher, G., Dobaj, J., Krug, T., Blažević, R. & Veledar, O.
1/09/12 → …
Project: Research area
AQU-AutoUniverse - Automotive Quality Universities
Kreiner, C. J.
1/09/15 → 31/10/17
Project: Research project
AQUA - Knowledge Alliance for Training Quality and Excellence in Automotive
Kreiner, C. J.
1/01/13 → 31/03/15
Project: Research project

Cite this

Macher, G., Armengaud, E., Kreiner, C., Brenner, E., Schmittner, C., Ma, Z., Martin, H., & Krammer, M. (2018). Integration of Security in the Development Lifecycle of Dependable Automotive CPS. In N. Druml, A. Genser, K. Armin, M. Menghin, & A. Hoeller (Eds.), Solutions for Cyber-Physical Systems Ubiquity (pp. 383-423). Article Chapter 15 IGI Global Publishing. https://doi.org/10.4018/978-1-5225-2845-6.ch015

Integration of Security in the Development Lifecycle of Dependable Automotive CPS. / Macher, Georg; Armengaud, Eric; Kreiner, Christian et al.
Solutions for Cyber-Physical Systems Ubiquity. ed. / Norbert Druml; Andreas Genser; Krieg. Armin; Manuel Menghin; Andrea Hoeller. IGI Global Publishing, 2018. p. 383-423 Chapter 15.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Macher, G, Armengaud, E, Kreiner, C, Brenner, E, Schmittner, C, Ma, Z, Martin, H & Krammer, M 2018, Integration of Security in the Development Lifecycle of Dependable Automotive CPS. in N Druml, A Genser, K Armin, M Menghin & A Hoeller (eds), Solutions for Cyber-Physical Systems Ubiquity., Chapter 15, IGI Global Publishing, pp. 383-423. https://doi.org/10.4018/978-1-5225-2845-6.ch015

@inbook{352122ccf78f43bcbbd86b624d545abc,

title = "Integration of Security in the Development Lifecycle of Dependable Automotive CPS",

abstract = "The exciting new features, such as advanced driver assistance systems, fleet management systems, and autonomous driving, drive the need for built-in security solutions and architectural designs to mitigate emerging security threats. Thus, cybersecurity joins reliability and safety as a cornerstone for success in the automotive industry. As vehicle providers gear up for cybersecurity challenges, they can capitalize on experiences from many other domains, but nevertheless must face several unique challenges. Therefore, this article focuses on the enhancement of state-of-the-art development lifecycle for automotive cyber-physical systems toward the integration of security, safety and reliability engineering methods. Especially, four engineering approaches (HARA at concept level, FMEA and FTA at design level and HSI at implementation level) are extended to integrate security considerations into the development lifecycle.",

author = "Georg Macher and Eric Armengaud and Christian Kreiner and Eugen Brenner and Christoph Schmittner and Zhendong Ma and Helmut Martin and Martin Krammer",

year = "2018",

doi = "10.4018/978-1-5225-2845-6.ch015",

language = "English",

isbn = "9781522528456",

pages = "383--423",

editor = "Norbert Druml and Andreas Genser and Krieg. Armin and Manuel Menghin and Andrea Hoeller",

booktitle = "Solutions for Cyber-Physical Systems Ubiquity",

publisher = "IGI Global Publishing",

address = "United States",

}

TY - CHAP

T1 - Integration of Security in the Development Lifecycle of Dependable Automotive CPS

AU - Macher, Georg

AU - Armengaud, Eric

AU - Kreiner, Christian

AU - Brenner, Eugen

AU - Schmittner, Christoph

AU - Ma, Zhendong

AU - Martin, Helmut

AU - Krammer, Martin

PY - 2018

Y1 - 2018

N2 - The exciting new features, such as advanced driver assistance systems, fleet management systems, and autonomous driving, drive the need for built-in security solutions and architectural designs to mitigate emerging security threats. Thus, cybersecurity joins reliability and safety as a cornerstone for success in the automotive industry. As vehicle providers gear up for cybersecurity challenges, they can capitalize on experiences from many other domains, but nevertheless must face several unique challenges. Therefore, this article focuses on the enhancement of state-of-the-art development lifecycle for automotive cyber-physical systems toward the integration of security, safety and reliability engineering methods. Especially, four engineering approaches (HARA at concept level, FMEA and FTA at design level and HSI at implementation level) are extended to integrate security considerations into the development lifecycle.

AB - The exciting new features, such as advanced driver assistance systems, fleet management systems, and autonomous driving, drive the need for built-in security solutions and architectural designs to mitigate emerging security threats. Thus, cybersecurity joins reliability and safety as a cornerstone for success in the automotive industry. As vehicle providers gear up for cybersecurity challenges, they can capitalize on experiences from many other domains, but nevertheless must face several unique challenges. Therefore, this article focuses on the enhancement of state-of-the-art development lifecycle for automotive cyber-physical systems toward the integration of security, safety and reliability engineering methods. Especially, four engineering approaches (HARA at concept level, FMEA and FTA at design level and HSI at implementation level) are extended to integrate security considerations into the development lifecycle.

U2 - 10.4018/978-1-5225-2845-6.ch015

DO - 10.4018/978-1-5225-2845-6.ch015

M3 - Chapter

SN - 9781522528456

SN - 1522528458

SP - 383

EP - 423

BT - Solutions for Cyber-Physical Systems Ubiquity

A2 - Druml, Norbert

A2 - Genser, Andreas

A2 - Armin, Krieg.

A2 - Menghin, Manuel

A2 - Hoeller, Andrea

PB - IGI Global Publishing

ER -

Integration of Security in the Development Lifecycle of Dependable Automotive CPS

Abstract

Access to Document

Fingerprint

Projects

Industrial Informatics

AQU-AutoUniverse - Automotive Quality Universities

AQUA - Knowledge Alliance for Training Quality and Excellence in Automotive

Cite this