F. J. Romero Rojo
Decision Engineering Centre, Manufacturing Department, School of Applied Sciences, Cranfield University, Cranfield, UK
R. Roy
Decision Engineering Centre, Manufacturing Department, School of Applied Sciences, Cranfield University, Cranfield, UK
E. Shehab
Decision Engineering Centre, Manufacturing Department, School of Applied Sciences, Cranfield University, Cranfield, UK
K. Cheruvu
Decision Engineering Centre, Manufacturing Department, School of Applied Sciences, Cranfield University, Cranfield, UK
I. Blackman
Component Obsolescence Group, Hertz, UK
G. A. Rumney
Sellafield Ltd, Cumbria, UK
Download articlePublished in: Proceedings of the 2nd CIRP IPS2 Conference 2010; 14-15 April; Linköping; Sweden
Linköping Electronic Conference Proceedings 77:50, p. 393-398
Published: 2012-10-11
ISBN: 978-91-7393-381-0
ISSN: 1650-3686 (print), 1650-3740 (online)
The defence industry is moving rapidly towards new types of agreement such as availability contracts based on Industrial Product-Service System (IPS2) business models. Obsolescence has become one of the main problems that will impact on a system during its life cycle. Most of the research carried out has been focused on electronic components; neglecting the impact of obsolescence in other areas such as software. This paper presents the concept of software obsolescence and highlights the key challenges and mitigation strategies to managing it; which was identified through a set of semi-structured interviews with experts in defence; aerospace and nuclear industries and literature review in software and obsolescence management. It is observed that there is a lack of understanding of the software obsolescence and the impact that it has on the systems.
Software Obsolescence; Skills Obsolescence; Obsolescence Management; Industrial Product-Service Systems.
[1] Sandborn; P.; Mauro; F. and Knox; R.; 2007; A data mining based approach to electronic part obsolescence forecasting; IEEE Transactions on Components and Packaging Technologies; 30; 3; 397-401.
[2] Singh; P. and Sandborn; P.; 2006; Obsolescence Driven Design Refresh Planning for Sustainment- Dominated Systems; The Engineering Economist; 51; 2; 115-139.
[3] Madisetti; V.; Jung; Y.; Khan; M.; Kim; J. and Finnessy; T.; 2000. On upgrading legacy electronics systems: methodology; enabling technologies and tools; VHDL International Users Forum Fall Workshop; 2000. Proceedings; Orlando; FL; USA; 18-20 Oct.: 7-14.
[4] Singh; P.; Sandborn; P.; Lorenson; D. and Geiser; T.; 2002; Determining Optimum Redesign Plans for Avionics Based on Electronic Part Obsolescence Forecasts; Proceedings World Aviation Congress; November 2002; Phoenix; AZ; SAE International.
[5] Meyer; A.; Pretorius; L.; Pretorius; J. H. C.; 2004. A model to manage electronic component obsolescence for complex or long life systems. Engineering Management Conference; 2004 Proceedings IEEE International; 3; 1303-1309.
[6] Pecht; M. G. and Das; D.; 2000. Electronic part life cycle. IEEE Transactions on Components and Packaging Technologies; 23; 1; 190-192.
[7] Sandborn; P.; 2007a. Designing for Technology Obsolescence Management. Proceedings of the 2007 Industrial Engineering Research Conference; 19-23 May 2007; Nashville; TN.
[8] Solomon; R.; Sandborn; P. and Pecht; M.; 2000. Electronic part life cycle concepts and obsolescence forecasting. Components and Packaging Technologies; IEEE Transactions on [see also Components; Packaging and Manufacturing Technology; Part A: Packaging Technologies; IEEE Transactions on]; 23; 4; 707-717.
[9] Feldman; K. and Sandborn; P.; 2007. Integrating Technology Obsolescence Considerations into Product Design Planning. Proceedings of the ASME 2007 International Design Engineering Conferences & Computers and Information in Engineering Conference; Sept. 2007; Las Vegas; NV.
[10] Howard; M. A.; 2002. Component obsolescence – It’s not just for electronics anymore. Proc.FAA/DoD/NASA Aging Aircraft Conference; San Francisco; CA; 16-19 Sept.
[11] Craig; R. W.; Co; B. and St Louis; M. O.; 2002. A methodology for addressing support equipment obsolescence. Aerospace and Electronic Systems Magazine; IEEE; 17; 5; 20-25.
[12] Frank; B. and Morgan; R. L.; 2007. Obsolescence mitigation and management of electronics test equipment. Autotestcon; 2007 IEEE: 527-536.
[13] Mont; O.; 2004. Product-service systems: Panacea or myth (Doctoral Dissertation thesis); The International Institute for Industrial Environmental Economics (IIIEE); Lund University: Lund; Sweden.
[14] Sandborn; P.; 2007b. Software Obsolescence - Complicating the Part and Technology Obsolescence Management Problem. IEEE Transactions on Components and Packaging Technologies; 30; 4; 886-888.
[15] Sandborn; P. and Plunkett; G.; 2006. The Other Half of the DMSMS Problem - Software Obsolescence. DMSMS Knowledge Sharing Portal Newsletter; 4; 4; 3-11.
[16] Merola; L.; 2006; The COTS software obsolescence threat; Fifth International Conference on Commercial-off-the-Shelf (COTS)-Based Software Systems; 2006. San Diego; CA.
[17] Rumney; G. A.; 2007; The Software Obsolescence Minefield: A Guide for Supporting Software and Electronic Information; 1st ed.; COG International Ltd.; UK.
[18] Romero; F. J.; Roy; R.; Shehab; E. and Wardle; P.; 2009. Obsolescence Challenges for Product-Service Systems in Aerospace and defence Industry. The 1st CIRP Industrial Product-Service Systems (IPS2) Conference; 1st-2nd April 2009; Cranfield University; UK.
[19] IEC 62402:2007 - Obsolescence Management - Application Guide.
[20] Software Development Environment; available at: http://en.wikipedia.org/wiki/Software_development_e nvironment (last accessed on 5/11/09).
[21] Shuman; L. L. (2002); Cost-Benefit Analysis Tools for Avionics Parts Obsolescence; Research Report AU/ACSC/02-103/2002-04; Air Command and Staff College; Air University; Maxwell Air Force Base; Alabama.
[22] Roy; R. and Cheruvu; K.S.; 2009; A Competitive Framework for Industrial Product-Service Systems. Int. J. Internet Manufacturing and Services.