Systems-engineered aircraft are designed to transport passengers safely, ensuring all components work together seamlessly. This book explores the concept of aircraft as a complex system, including humans, with safety as a crucial aspect. By prioritizing safety and quality, fewer fatalities can be achieved, leading to efficient, reliable, and safe aircraft for passengers and crew.
Systems Engineering for Commercial Aircraft: A Domain-Specific Adaptation, Third Edition focuses on Deming's definition of quality, its methods, and the benefits it brings, which were not covered in the previous edition. The Risk chapter will also be expanded to include discussions on Risk Denial, its consequences, and strategies to avoid it. A detailed examination of resilience will be provided, highlighting how it enables an aircraft to prevent, endure, and recover from disruptions such as bird strikes. The book will explore the proactive and reactive aspects of resilience, how a system, like an aircraft, can be defined by its functions, and how an aircraft's design should prioritize the needs of various stakeholders, including passengers, regulatory agencies, and other relevant parties.
The primary audience for this book consists of major aircraft companies engaged in advanced design, aeronautical engineers, and systems engineers.
By:
Scott Jackson
Imprint: Routledge
Country of Publication: United Kingdom
Edition: 3rd edition
Dimensions:
Height: 234mm,
Width: 156mm,
Weight: 700g
ISBN: 9781041015581
ISBN 10: 1041015585
Pages: 268
Publication Date: 30 June 2025
Audience:
Professional and scholarly
,
Undergraduate
Format: Hardback
Publisher's Status: Active
1. Introduction. 2. Commercial Aircraft. 3. Functional Analysis. 4. Requirements and Needs. 5. Constraints and Specialty Requirements. 6. Interfaces. 7. Synthesis. 8. Top-Level Synthesis. 9. Subsystem Synthesis. 10. Certification, Safety, and Software. 11. Verification and Validation. 12. Systems Engineering Management and Control. 13. Adapting Systems Engineering to the Commercial Aircraft Domain. 14. Large Scale System Integration. 15. Risk Management. 16. Resilience of the Aircraft System. 17. System Quality. 18. Final Comments. 19. Appendix 1: The Mathematics of Reliability Allocation. 20. Appendix 2: Example Commercial Specification Outline. 21. Appendix 3: Systems Engineering Automated Tools.
Dr. Scott Jackson, Principal Engineer at Burnham Systems Consulting, assists commercial aircraft companies worldwide in adapting and implementing systems engineering processes. With extensive experience in aircraft design and production, he has taught graduate-level courses at the University of Southern California and has worked with Boeing, Embraer, SA of Brazil, and the NASA Glenn Research Center. He has authored two books, Systems Engineering for Commercial Aircraft and Systems Engineering for Commercial Aircraft: A Domain-Specific Adaptation, which emphasize the adaptation of systems engineering processes to commercial aircraft to save time, schedule, cost, and reduce risk. He also authored the book Architecting Resilient Systems, used in a graduate-level course at the University of Southern California.
