Abstract
System design and engineering are fundamental to the creation of the devices and technologies that have become a large part of our lives. Technology companies, motor vehicle manufacturers and inventors go through this process to develop all kinds of luxuries and necessities for everyday life in the twenty-first century.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Notes
- 1.
Design for X.
References
Ahmed A, Wallace KM (2003) Understanding the knowledge needs of novice designers in the aerospace industry. Novice Des Aerosp Ind Des Stud 25(2):155–173
BAE Systems (2014) BAE annual report 2014, London. http://investors.baesystems.com/~/media/Files/B/Bae-Systems-Investor-Relations-V3/Annual%20Reports/bae-annual-report-2014.pdf. Accessed 2 Nov 2015
Birkhofer H, Jänsch J, Kloberdanz H (2005) An extensive and detailed view of the application of design methods and methodology in industry. In: Proceedings of 15th international conference on engineering design (ICED 05), Melbourne, Paper DS35_188.49
The Free Dictionary (2015) Engineering design. http://encyclopedia2.thefreedictionary.com/Engineering+Design. Accessed 2 Nov 2015
Teach Engineering (2015) Full design process. www.teachengineering.org/assets/images/FullDesignProcess_635wTYPOFIXED.png. Accessed 2 Nov 2015
Melville C (2012) The complexities and challenges of ship building compared to a domestic project. PhD thesis, University of Strathclyde and BAE Systems
Badke-Schaub P, Daalhuizen J, Roozenburg N (2011) Towards a designer-centred methodology—descriptive considerations and prescriptive reflections, the future of design methodology. Springer, Berlin, pp 181–197
Yan XT, Zante R (2010) Mechatronic design process and its application, mechatronics in action. Springer, London, pp 55–70
Davis FD, Bagozzi RP, Warshaw PR (1989) User acceptance of computer technology: a comparison of two theoretical models. Manage Sci 35:982–1003
Moody DL (2003) The method evaluation model: a theoretical model for validating information systems design methods. In: Proceedings of European conference information systems (ECIS 2003), Paper 79
Pedersen K, Emblemsvåg J, Bailey R, Allen JK, Mistree F (2000) Validating design methods & research: the validation square. In: ASME design engineering technical conference, Baltimore. www.researchgate.net/profile/Farrokh_Mistree/publication/236735347_Validating_Design_Methods__Research_The_Validation_Square/links/0deec519274d06d53b000000.pdf. Accessed 2 Nov 2015
Balaji S, Murugaiyan MS (2012) Waterfall vs V-model vs agile: a comparative study on SDLC. Intl J Inf Technol Bus Manag 2(1):26–30
Frey DD, Dym CL (2006) Validation of design methods: lessons from medicine. Res Eng Design 17(1):45–57
Hastings D (2004) The future of engineering systems: development of engineering leaders. MIT Engineering Systems Symposium, pp 29–31
Acknowledgement
The authors would like to acknowledge and express their thanks for the financial support for a key international collaboration project entitled Geometric data processing of large and complex spatial engineering structures—GeomSES, funded by the Chinese Ministry of Science and Technology.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2016 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Melville, C., Yan, XT., Gu, L. (2016). TiV-Model—An Attempt at Breaching the Industry Adoption Barrier for New Complex System Design Methodologies. In: Hehenberger, P., Bradley, D. (eds) Mechatronic Futures. Springer, Cham. https://doi.org/10.1007/978-3-319-32156-1_4
Download citation
DOI: https://doi.org/10.1007/978-3-319-32156-1_4
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-32154-7
Online ISBN: 978-3-319-32156-1
eBook Packages: EngineeringEngineering (R0)