Typical assumptions for research in quality and security assurance and improvement for small software-intensive systems may not hold for long-running technical systems, such as critical infrastructure or industrial production systems. Therefore, researchers in quality and security assurance and improvement can benefit from better understanding challenges on quality and security assurance and quality improvement coming from the engineering of Complex Cyber-Physical Systems based on the use cases and requirements presented. This chapter summarizes and reflects on the material presented in this book regarding challenges and solutions for Security and Quality of Complex Cyber-Physical Systems (C-CPS) Engineering. Contributions in this book consider requirements, risks, and solutions to improve the security and quality of C-CPS. Engineers and project managers will be enabled to identify quality and security challenges they should consider. In addition, the chapter describes measures to assist the involved staff in handling the identified challenges. The chapter discusses the contributions of the chapters to the Research Questions raised in Chap. 1 of this book.
[1]
Stefan Biffl,et al.
Multi-Disciplinary Engineering for Cyber-Physical Production Systems, Data Models and Software Solutions for Handling Complex Engineering Projects
,
2017
.
[2]
Birthe Böhm,et al.
Application of engineering processes analysis to evaluate benefits of mechatronic engineering
,
2012,
Proceedings of 2012 IEEE 17th International Conference on Emerging Technologies & Factory Automation (ETFA 2012).
[3]
Andreas Ekelhart,et al.
Securing Cyber-Physical Systems through Digital Twins
,
2018,
ERCIM News.
[4]
Andreas Ekelhart,et al.
Towards Security-Aware Virtual Environments for Digital Twins
,
2018,
CPSS@AsiaCCS.
[5]
Edgar R. Weippl,et al.
A tamper-proof audit and control system for the doctor in the loop
,
2016,
Brain Informatics.