Advanced search
Publication Cover
International Journal of Production Research Volume 58, 2020 - Issue 12
Submit an article Journal homepage
2,457
Views
11
CrossRef citations to date
0
Altmetric
Articles

Progressive modelling of feature-centred product family development

Haizhu Zhanga Institute of Advanced Design and Manufacturing, School of Mechanical Engineering, Southwest Jiaotong University, Chengdu, People’s Republic of China;b School of Design, Northumbria University, Newcastle upon Tyne, UKView further author information
,
Shengfeng Qinb School of Design, Northumbria University, Newcastle upon Tyne, UKView further author information
,
Rong Lia Institute of Advanced Design and Manufacturing, School of Mechanical Engineering, Southwest Jiaotong University, Chengdu, People’s Republic of ChinaCorrespondence[email protected]
View further author information
,
Yisheng Zoua Institute of Advanced Design and Manufacturing, School of Mechanical Engineering, Southwest Jiaotong University, Chengdu, People’s Republic of ChinaView further author information
&
Guofu Dinga Institute of Advanced Design and Manufacturing, School of Mechanical Engineering, Southwest Jiaotong University, Chengdu, People’s Republic of ChinaView further author information
Pages 3701-3723 | Received 24 Jul 2018, Accepted 17 Jun 2019, Published online: 01 Jul 2019

References

  • Agard, B., and S. Bassetto. 2013. “Modular Design of Product Families for Quality and Cost.” International Journal of Production Research 51 (6): 1648–1667.
  • AlGeddawy, T., and H. ElMaraghy. 2011. “A Model for Co-evolution in Manufacturing Based on Biological Analogy.” International Journal of Production Research 49 (15): 4415–4435.
  • AlGeddawy, Tarek, and Hoda ElMaraghy. 2012. “A Co-evolution Model for Prediction and Synthesis of New Products and Manufacturing Systems.” Journal of Mechanical Design 134 (5): 051008.
  • Alizon, Fabrice, Kiran Khadke, Henri J. Thevenot, John K. Gershenson, Tucker J. Marion, Steven B. Shooter, and Timothy W. Simpson. 2007. “Frameworks for Product Family Design and Development.” Concurrent Engineering 15 (2): 187–199.
  • Aydin, Merve, and Berna Haktanirlar Ulutas. 2016. “A New Methodology to Cluster Derivative Product Modules: An Application.” International Journal of Production Research 54 (23): 7091–7099.
  • Bonev, Martin, Lars Hvam, John Clarkson, and Anja Maier. 2015. “Formal Computer-Aided Product Family Architecture Design for Mass Customization.” Computers in industry 74: 58–70.
  • Brière-Côté, Antoine, Louis Rivest, and Alain Desrochers. 2010. “Adaptive Generic Product Structure Modelling for Design Reuse in Engineer-to-Order Products.” Computers in industry 61 (1): 53–65.
  • Brunetti, Gino, and Borut Golob. 2000. “A Feature-Based Approach Towards an Integrated Product Model Including Conceptual Design Information.” Computer-Aided Design 32 (14): 877–887.
  • Christensen, Clayton M., Michael B. Horn, and Heather Staker. 2013. “Is K-12 Blended Learning Disruptive? An Introduction to the Theory of Hybrids.” Clayton Christensen Institute for Disruptive Innovation.
  • Dou, R. L., Y. B. Zhang, and G. F. Nan. 2017. “Iterative Product Design Through Group Opinion Evolution.” International Journal of Production Research 55 (13): 3886–3905.
  • Du, X. H., J. X. Jiao, and M. M. Tseng. 2001. “Architecture of Product Family: Fundamentals and Methodology.” Concurrent Engineering-Research And Applications 9 (4): 309–325.
  • ElMaraghy, H. 2009. “Changing and Evolving Products and Systems – Models and Enablers.” In Changeable and Reconfigurable Manufacturing Systems, edited by H. ElMaraghy, 25–45. London: Springer.
  • ElMaraghy, Hoda, and Tarek AlGeddawy. 2012. “New Dependency Model and Biological Analogy for Integrating Product Design for Variety with Market Requirements.” Journal of Engineering Design 23 (10–11): 722–745.
  • ElMaraghy, H., T. AlGeddawy, and A. Azab. 2008. “Modelling Evolution in Manufacturing: A Biological Analogy.” Cirp Annals-Manufacturing Technology 57 (1): 467–472.
  • ElMaraghy, Hoda, Günther Schuh, Waguih ElMaraghy, Frank Piller, Paul Schönsleben, Mitchell Tseng, and A. Bernard. 2013. “Product Variety Management.” Cirp Annals 62 (2): 629–652.
  • Eppinger, Steven D., and Anil R. Chitkara. 2006. “The New Practice of Global Product Development.” Sloan Management 47 (4): 22–30.
  • Erens, Freek, and Karel Verhulst. 1997. “Architectures for Product Families.” Computers in industry 33 (2–3): 165–178.
  • Giovannini, Antonio, Alexis Aubry, Hervé Panetto, Hind El Haouzi, O. Canciglieri Junior, and Ludovic Pierrel. 2016. “Knowledge Representation, Retrieval and Reuse for Product Family Design: An anti-Logicist Approach.” Computers & Industrial Engineering 101: 391–402.
  • Goswami, Mohit, Yash Daultani, and M. K. Tiwari. 2017. “An Integrated Framework for Product line Design for Modular Products: Product Attribute and Functionality-Driven Perspective.” International Journal of Production Research 55 (13): 3862–3885.
  • Ishigami, Yoshiaki, Hiroaki Yagi, Shinsuke Kondoh, Yasushi Umeda, Yoshiki Shimomura, and Masaharu Yoshioka. 2003. “Development of a Design Methodology for Upgradability Involving Changes of Functions. Paper presented at the Proceedings of the EcoDesign, Tokyo, Japan.” December, 8–11.
  • Ismail, Mohamed. 2013. “Progressive Modeling and the Reconfiguration and Operations Planning Problem.” Paper presented at the ASME 2013 International Manufacturing Science and Engineering Conference collocated with the 41st North American Manufacturing Research Conference, Madison, WI, June 10–14.
  • Jiao, J., T. W. Simpson, and Z. Siddique. 2007. “Product Family Design and Platform-Based Product Development: A State-of-the-Art Review.” Journal of Intelligent Manufacturing 18 (1): 5–29.
  • Jiao, J. X., and M. M. Tseng. 2000a. “Understanding Product Family for Mass Customization by Developing Commonality Indices.” Journal of Engineering Design 11 (3): 225–243.
  • Jiao, Jianxin, and M. M. Tseng. 2000b. “Fundamentals of Product Family Architecture.” Integrated Manufacturing Systems 11 (7): 469–483.
  • Jørgensen, K A. 2009. Product Configuration and Product Family Modelling. Aalborg, Denmark: Department of Production, Aalborg University.
  • Jørgensen, Kaj Asbjørn, and Thomas Ditlev Petersen. 2005. “Product Famely Modelling on Multiple Abstraction Levels.” Paper presented at the Advances in Production Management Systems, Modeling and Implementing the Integrated Enterprise, IFIP 5.7, United States, September 18-25.
  • Jung, Sangjin, and Timothy W. Simpson. 2016. “An integrated Approach to Product Family Redesign Using Commonality and Variety Metrics.” Research in Engineering Design 27 (4): 391–412.
  • Kim, Seong-Jin, Jeong-Dong Lee, and Euy-Young Jung. 2016. “Research on the Logic of Product Evolution Using Agent-Based Model.” Paper presented at the 2016 Portland International Conference on Management of Engineering and Technology (PICMET).
  • Ki Moon, Seung, Timothy W. Simpson, Jun Shu, and Soundar R. T. Kumara. 2009. “Service Representation for Capturing and Reusing Design Knowledge in Product and Service Families Using Object-Oriented Concepts and an Ontology.” Journal of Engineering Design 20 (4): 413–431.
  • Kota, Sridhar, Kannan Sethuraman, and Raymond Miller. 2000. “A Metric for Evaluating Design Commonality in Product Families.” Journal of Mechanical Design 122 (4): 403–410.
  • Krishnan, Viswanathan, and Karl T. Ulrich. 2001. “Product Development Decisions: A Review of the Literature.” Management science 47 (1): 1–21.
  • Kuo, Yiyo, Taho Yang, and Guan-Wei Huang. 2008. “The Use of Grey Relational Analysis in Solving Multiple Attribute Decision-Making Problems.” Computers & Industrial Engineering 55 (1): 80–93.
  • Lam, Wing. 1999. “Managing Requirements in a Product Family Approach to Systems Engineering.” Systems Engineering: The Journal of The International Council on Systems Engineering 2 (1): 46–55.
  • Le, Q., Z. H. Sha, and J. H. Panchal. 2014. “A Generative Network Model for Product Evolution.” Journal of Computing and Information Science in Engineering 14 (1): 1–12.
  • Lermen, Fernando Henrique, Márcia Elisa Echeveste, Carla Beatriz Peralta, Monique Sonego, and Arthur Marcon. 2018. “A Framework for Selecting Lean Practices in Sustainable Product Development: The Case Study of a Brazilian Agroindustry.” Journal of cleaner production 191: 261–272.
  • Li, Shaobo, Yongming Wu, Yanxia Xu, Jie Hu, and Jianjun Hu. 2018. “A Bayesian Network Based Adaptability Design of Product Structures for Function Evolution.” Applied Sciences 8 (4): 493.
  • Lim, Soon Chong Johnson, Ying Liu, and Wing Bun Lee. 2011. “A Methodology for Building a Semantically Annotated Multi-Faceted Ontology for Product Family Modelling.” Advanced Engineering Informatics 25 (2): 147–161.
  • Liu, X. J., G. Du, and R. J. Jiao. 2017. “Bilevel joint optimisation for product family architecting considering make-or-buy decisions.” International Journal of Production Research 55 (20): 5916–5941.
  • Liu, Ying, Soon Chong Johnson Lim, and Wing Bun Lee. 2013. “Product Family Design Through Ontology-Based Faceted Component Analysis, Selection, and Optimization.” Journal of Mechanical Design 135 (8): 081007.
  • Liu, Z., Y. S. Wong, and K. S. Lee. 2010. “Modularity Analysis and Commonality Design: A Framework for the Top-Down Platform and Product Family Design.” International Journal of Production Research 48 (12): 3657–3680.
  • Lundin, Michael, Erik Lejon, Andreas Dagman, Mats Näsström, and Peter Jeppsson. 2017. “Efficient Design Module Capture and Representation for Product Family Reuse.” Journal of Computing and Information Science in Engineering 17 (3): 031002.
  • Luo, Shijian, Shouqian Sun, and Yunhe Pan. 2005. “An Object-Oriented Integrated Knowledge Approach to Internet-Based Product Collaborative Conceptual Design.” Paper presented at the International Conference on Computer Supported Cooperative Work in Design (2005), Coventry, United Kingdom, May 24–26.
  • Maier, Jonathan R. A., and Georges M. Fadel. 2007. “A Taxonomy and Decision Support for the Design and Manufacture of Types of Product Families.” Journal of Intelligent Manufacturing 18 (1): 31–45.
  • Martin, M. 2000. “Design for Verity: A Methodology for Developing Product Platform Architectures.” National Manufacturing Week. Stanford University.
  • Martin, Mark V., and Kosuke Ishii. 2002. “Design for Variety: Developing Standardized and Modularized Product Platform Architectures.” Research in Engineering Design 13 (4): 213–235.
  • Matsui, Yoshiki, Roberto Filippini, Hideaki Kitanaka, and Osamu Sato. 2007. “A Comparative Analysis of New Product Development by Italian and Japanese Manufacturing Companies: A Case Study.” International Journal of Production Economics 110 (1–2): 16–24.
  • McKay, Alison, Frederick Erens, and M. Susan Bloor. 1996. “Relating Product Definition and Product Variety.” Research in Engineering Design 8 (2): 63–80.
  • Meyer, M. H., and A. P. Lehnerd. 1997. “The Power of Product Platforms: Building Value and Cost Leadership.” Research-Technology Management 40 (4): 59–60.
  • Meyer, Marc H., and James M. Utterback. 1993. “The Product Family and the Dynamics of Core Capability.” Sloan management review 34 (3): 29–47.
  • Moon, Seung Ki, and Daniel A. McAdams. 2012. “A Market-Based Design Strategy for a Universal Product Family.” Journal of Mechanical Design 134 (11): 111007.
  • Moon, Seung Ki, Timothy W. Simpson, and Soundar R. T. Kumara. 2010. “A Methodology for Knowledge Discovery to Support Product Family Design.” Annals of Operations Research 174 (1): 201–218.
  • Nadadur, Gopal, Wonmo Kim, Alexander R. Thomson, Matthew B. Parkinson, and Timothy W. Simpson. 2012. “Strategic product design for multiple global markets.” Paper presented at the ASME 2012 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Chicago, IL, August 12–15.
  • Nadadur, Gopal, Matthew B. Parkinson, and Timothy W. Simpson. 2012. “Application of the generational variety index: a retrospective study of IPhone evolution.” Paper presented at the ASME 2012 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Chicago, Illinois, USA, August 12–15.
  • Nanda, Jyotirmaya, Henri J. Thevenot, Timothy W. Simpson, Robert B. Stone, Matt Bohm, and Steven B. Shooter. 2007. “Product Family Design Knowledge Representation, Aggregation, Reuse, and Analysis.” Ai Edam-Artificial Intelligence for Engineering Design Analysis And Manufacturing 21 (2): 173–192.
  • Niwattanakul, Suphakit, Jatsada Singthongchai, Ekkachai Naenudorn, and Supachanun Wanapu. 2013. “Using of Jaccard Coefficient for Keywords Similarity.” Paper presented at the Proceedings of the International MultiConference of Engineers and Computer Scientists, Hong Kong, March 13–15.
  • Nomaguchi, Yutaka, Tomohiro Taguchi, and Kikuo Fujita. 2006. “Proposal of Knowledge Model for Designing Product Architecture and Product Family.” In IJCC Workshop 2006 on Digital Engineering, 77–86. South Korea.
  • Pan, Xu-Wei, Xi-Yong Zhu, Yang-Jian Ji, Yi Yang, and Yi-Ming Wu. 2014. “An Information Integration Modelling Architecture for Product Family Life Cycle in Mass Customisation.” International Journal of Computer Integrated Manufacturing 27 (9): 869–886.
  • Pavlic, D., Antti Pulkkinen, and Asko Riitahuhta. 2006. “A Conceptual Framework of Product Family Architecture. Paper Presented at the Development Process: From Idea to the World's First Bionic Prosthetic Foot, Reykjavik.” Iceland August, 16–18.
  • Pirmoradi, Zhila, and G. Wang. 2011. “Recent Advancements in Product Family Design and Platform-Based Product Development: a literature review.” Paper presented at the ASME 2011 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Washington, DC, August 28–31.
  • Pohl, Hans, and Masaru Yarime. 2012. “Integrating Innovation System and Management Concepts: The Development of Electric and Hybrid Electric Vehicles in Japan.” Technological Forecasting and Social Change 79 (8): 1431–1446.
  • Ranta, Mervi, Martti Mäntylä, Yasushi Umeda, and Tetsuo Tomiyama. 1996. “Integration of Functional and Feature-Based Product Modelling – The IMS/GNOSIS Experience.” Computer-Aided Design 28 (5): 371–381.
  • Reiser, Mark-Oliver, and Matthias Weber. 2007. “Multi-Level Feature Trees.” Requirements Engineering 12 (2): 57–75.
  • Sanderson, Susan Walsh. 1991. “Cost Models for Evaluating Virtual Design Strategies in Multicycle Product Families.” Journal of Engineering and Technology Management 8 (3-4): 339–358.
  • Schönsleben, Paul. 2012. “Methods and Tools that Support a Fast and Efficient Design-to-Order Process for Parameterized Product Families.” Cirp Annals-Manufacturing Technology 61 (1): 179–182.
  • Shaw, Jim, Joe Giglierano, and Jeff Kallis. 1989. “Marketing Complex Technical Products: The Importance of Intangible Attributes.” Industrial Marketing Management 18 (1): 45–53.
  • Shimomura, Y., Yasushi Umeda, and Tetsuo Tomiyama. 1999. “A Proposal of Upgradable Design. Paper presented at the Proceedings First International Symposium on Environmentally Conscious Design and Inverse Manufacturing, Tokyo, Japan.” Febraury, 1–3.
  • Simpson, T. W., J. Jiao, and Z. Siddique. 2014. Advances in Product Family and Product Platform Design. New York: Springer.
  • Sudarsan, Rachuri, Steven J. Fenves, Ram D. Sriram, and Fujun Wang. 2005. “A Product Information Modeling Framework for Product Lifecycle Management.” Computer-aided design 37 (13): 1399–1411.
  • Tao, Jing, and Suiran Yu. 2012. “Sustainable Product Family Planning Based on Product Life Cycle Simulation.” Paper presented at the ASME 2012 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Chicago, IL, August 12–15.
  • Thevenot, Henri J., and Timothy W. Simpson. 2004. “A Comparison of Commonality Indices for Product Family Design.” Paper presented at the ASME 2004 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Salt Lake City, UT, September 28–October 2.
  • Thoben, Klaus-Dieter, Jens Eschenbächer, and Harinder Jagdev. 2001. “Extended Products: Evolving Traditional Product Concepts.” Paper presented at the 7th international Conference on Concurrent Enterprising, Bremen, June 27–29.
  • Tu, Q, Y. M. Deng, A. Y. C. Nee, and W. F. Lu. 2018. “Functional upgrading fundamental and performance upgrading priority ranking of adaptable-function products.” Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 0 (0): 1–14.
  • Ulrich, K., Eppinger, S. 2016. Product Design and Development. 6th ed. New York: McGraw-Hill Education.
  • Umeda, Yasushi, Sinsuke Kondoh, Yoshiki Shimomura, and Tetsuo Tomiyama. 2005. “Development of Design Methodology for Upgradable Products Based on Function–Behavior–State Modeling.” Ai Edam-Artificial Intelligence for Engineering Design Analysis And Manufacturing 19 (3): 161–182.
  • Umemori, Yoshimasa, Shinsuke Kondoh, Yasushi Umeda, Yoshiki Shimomura, and Masaharu Yoshioka. 2001. “Design for Upgradable Products Considering Future Uncertainty.” Paper presented at the Environmentally Conscious Design and Inverse Manufacturing, International Symposium on (2001), Tokyo, Japan, December 11-15.
  • Wang, Fujun, Steven J Fenves, Rachuri Sudarsan, and Ram D Sriram. 2003. “Towards Modeling the Evolution of Product Families.” Paper presented at the ASME 2003 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Chicago, IL, September 2–6.
  • Wang, Tiemin, and Jie Zhou. 2008. “Strategic Choices of Firms in Expanding Overseas Business.” Frontiers of Business Research in China 2 (1): 67–97.
  • Wheelwright, Steven C., and W. Earl Sasser Jr. 1989. “The New Product Development Map.” Harvard Business Review 67 (3): 112.
  • Wiersema, Margarethe F., and Harry P. Bowen. 2008. “Corporate Diversification: The Impact of Foreign Competition, Industry Globalization, and Product diversification.” Strategic Management Journal 29 (2): 115–132.
  • Wu, Zhiqiao, C. K. Kwong, C. K. M. Lee, and Jiafu Tang. 2016. “Joint Decision of Product Configuration and Remanufacturing for Product Family Design.” International Journal of Production Research 54 (15): 4689–4702.
  • Xing, Ke, Martin Belusko, Lee Luong, and Kazem Abhary. 2007. “An Evaluation Model of Product Upgradeability for Remanufacture.” The International Journal of Advanced Manufacturing Technology 35 (1-2): 1–14.
  • Xu, Q. L., S. K. Ong, and A. Y. C. Nee. 2007. “Evaluation of Product Performance in Product Family Design Re-use.” International Journal of Production Research 45 (18–19): 4119–4141.
  • Xue, Yinxing, Zhenchang Xing, and Stan Jarzabek. 2010. “Understanding Feature Evolution in a Family of Product Variants.” Paper presented at the 17th Working Conference on Reverse Engineering (WCRE 2010), Boston, MA, October 13–17.
  • Yang, Qingyan, Suiran Yu, and Dan Jiang. 2014. “A Modular Method of Developing an Eco-Product Family Considering the Reusability and Recyclability of Customer Products.” Journal of cleaner production 64: 254–265.
  • Yu, Dalian. 2012. “Review of the Development History of Bogies for Multiple Units on Shinkansen in Japan.” Foreign Rolling Stock 49 (6): 1–11.
  • Zamirowski, Erik J., and Kevin N. Otto. 1999. “Identifying Product Family Architecture Modularity Using Function and Variety Heuristics.” Paper presented at the 11th International Conference on Design Theory and Methodology, ASME, Las Vegas.
  • Zhang, Haizhu. 2017. “Research on Product-Pedigree-Oriented Customization Design Method of High-Speed Train Bogie.” PhD thesis, Southwest Jiaotong University.
  • Zhang, Lei, Xuening Chu, and Deyi Xue. 2019. “Identification of the to-be-Improved Product Features Based on Online Reviews for Product Redesign.” International Journal of Production Research 57 (8): 2464–2479.
  • Zhang, Haizhu, Guofu Ding, Rong Li, Shengfeng Qin, and Kaiyin Yan. 2017. “Design Change Model for Effective Scheduling Change Propagation Paths.” Chinese Journal of Mechanical Engineering 30 (5): 1081–1090.
  • Zhang, Haizhu, Xin Han, Rong Li, Shengfeng Qin, Guofu Ding, and Kaiyin Yan. 2016. “A New Conceptual Design Method to Support Rapid and Effective Mapping from Product Design Specification to Concept Design.” The International Journal of Advanced Manufacturing Technology 87 (5-8): 2375–2389.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.