Concurrent and collaborative development mode of aviation product based on capability maturity model

doi:10.11835/j.issn.1000-582X.2018.10.003

Home > Archive>Volume 41, Issue 10, 2018 >19-29. DOI:10.11835/j.issn.1000-582X.2018.10.003

Concurrent and collaborative development mode of aviation product based on capability maturity model
DOI:
                        10.11835/j.issn.1000-582X.2018.10.003
                    
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                        ZHU LingziZHU Lingzi
The State Key Laboratory of Mechanical Transmissions, Chongqing University, Chongqing 400044, P. R. China
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WANG ShilongWANG Shilong
The State Key Laboratory of Mechanical Transmissions, Chongqing University, Chongqing 400044, P. R. China
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YANG BoYANG Bo
The State Key Laboratory of Mechanical Transmissions, Chongqing University, Chongqing 400044, P. R. China
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TANG QianTANG Qian
The State Key Laboratory of Mechanical Transmissions, Chongqing University, Chongqing 400044, P. R. China
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WANG YankaiWANG Yankai
The State Key Laboratory of Mechanical Transmissions, Chongqing University, Chongqing 400044, P. R. China
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Abstract:

One of the main obstacle to the development process of aviation product is that the separation between the design and manufacturing departments together with the one-way serial mode of design-manufacturing leads to the long development cycle and low quality. This paper analyzed the development process of complex aviation products, established the aviation product maturity model, and defines the important links and state nodes of the development process. An aviation product development process controlling technology based on capability maturity model was presented. This technology replaced the original review by maturity calculation, achieving the control of the development process and determining the nodes for manufacturing sector involved in. An evaluation method for aviation product development maturity level based on the two-level fuzzy comprehensive evaluation method was designed to realize the multi-level and multi-factor evaluation of aviation products maturity degree. In order to verify the effectiveness of this method, it was applied to the development process of a type of aviation product. The results show that the manufacturing sector can effectively get involved in advance to implement the concurrent engineering, which is aimed at saving manufacturing cost by shortening the development time, controlling the development costs and improving the quality of products.

Key words:aviation;concurrent engineering;product maturity;fuzzy comprehensive evaluation

Reference

[1] Isaksson M, Bruze M. Aircraft industry[M]//Kanerva L, Wahlberg J E, Elsner P, et al, eds. Handbook of Occupational Dermatology. Heidelberg, Berlin:Springer, 2000.

[2] Sarh B, Buttrick J, Munk C, et al. Aircraft manufacturing and assembly[M]//Nof S, eds. Springer Handbook of Automation. Heidelberg, Berlin:Springer, 2009.

[3] Hirsch B, Humbert G. Production control in the aircraft industry[M]//Rolstadås A, eds. Computer-Aided Production Management. IFIP State-of-the-Art Reports. Heidelberg, Berlin:Springer, 1988.

[4] Price M A, Robinson T T, Soban D, et al. Maintaining design intent for aircraft manufacture[J]. CIRP Annals-Manufacturing Technology, 2013, 62(1):99-102.

[5] 李文正.飞机设计流程解析[M].北京:航空工业出版社,2013. LI Zhengwen. Aircraft design process analysis[M]. Beijing:Aviation industry Press, 2013. (in Chinese)

[6] 刘寅东,苏绍娟. 船舶并行协同设计环境及关键技术[J]. 大连海事大学学报, 2011, 37(1):25-28, 31. LIU Yindong, SU Shaojuan. Collaborative environment and key techniques of ship integrated framework design[J]. Journal of Dalian Maritime University, 2011, 37(1):25-28, 31. (in Chinese)

[7] 胡洁,彭颖红,熊光楞. 基于系统论的并行协同设计方法研究[J]. 计算机集成制造系统,2005,11(2):151-156. HU Jie, PENG Yinghong, XIONG Guangleng. Research on concurrent and collaborative design based on system theory[J]. Computer Integrated Manufacturing Systems, 2005, 11(2):151-156. (in Chinese)

[8] 王凯,刘毅,李文正.协同工作模式下飞机总体布置设计过程建模[J].重庆大学学报,2012,35(2):41-46. WANG Kai, LIU Yi, LI Wenzheng. A design process modelling method for airplane general arrangement in the cooperative development mode[J]. Journal of Chongqing University, 2012, 35(2):41-46. (in Chinese)

[9] 金兴明. 并行工程及其在航空电子产品研制中的应用[J]. 航空学报, 2001, 22(6):505-508. JIN Xingming. Concurrent engineering and its application in R&D of avionics[J]. Acta Aeronautica et Astronautica Sinica, 2001, 22(6):505-508. (in Chinese)

[10] Wang Q P, Fan L, Wu X H. Research on the new airplane develop system based on 3D-digital technique and multi-companies collaboration[J]. Procedia Engineering, 2015(99):101-110.

[11] Barbosa G F, Carvalho J, Filho E V G. A proper framework for design of aircraft production system based on lean manufacturing principles focusing to automated processes[J]. The International Journal of Advanced Manufacturing Technology, 2014, 72(9/10/11/12):1257-1273.

[12] Ngai E W T, Chau D C K, Poon J K L, et al. Energy and utility management maturity model for sustainable manufacturing process[J]. International Journal of Production Economics, 2013, 146(2):453-464.

[13] Kerrigan M. A capability maturity model for digital investigations[J]. Digital investigation, 2013, 10(1):19-33

[14] Lee J H, Suh E H, Hong J. A maturity model based CoP evaluation framework:A case study of strategic CoPs in a Korean company[J]. Expert Systems with Applications, 2010, 37(3):2670-2681.

[15] P Fraser, J Moultrie, M Gregory. The use of maturity models/grids as a tool in assessing product development capability[C]//IEEE International Engineering Management Conference, August 18-20, 2002, Cambridge, UK.[S.l.]:IEEE, 2002:244-249.

[16] Dooley K, Subra A, Anderson J. Maturity and its impact on new product development project performance[J]. Research in Engineering Design, 2001, 13(1):23-29.

[17] Siedlak D J L, Pinon O J, Schlais P R, et al. A digital thread approach to support manufacturing-influenced conceptual aircraft design[J]. Research in Engineering Design, 2018, 29(2):285-308.

[18] 黄洪钟.模糊设计[M].北京:机械工业出版社,1999. HUANG Hongzhong. Fuzzy design[M]. Beijing:China Machine Press, 1999. (in Chinese)

[19] 杨纶标,高英仪,凌卫新.模糊数学原理及应用[M].广州:华南理工大学出版社,2011. YANG Lunbiao, GAO Yingyi, LING Weixin. Fuzzy mathematics principle and application[M]. Guangzhou:South China University of Technology Press, 2011. (in Chinese)

[20] Antonsson E K, Sebastian H J. Fuzzy sets in engineering design[M]//Zimmermann H J, eds. Practical Applications of Fuzzy Technologies. The Handbooks of Fuzzy Sets Series, Vol 6. Boston, MA:Springer, 1999.

[21] Liu T I, Yang X M, Kalambur G J. Design for machining using expert system and fuzzy logic approach[J]. Journal of Materials Engineering and Performance, 1995, 4(5):599-609.

[22] Salhi S. Applications of fuzzy set methodologies in industrial engineering[J]. Journal of the Operational Research Society, 1991, 42(3):262-263.

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朱凌子,王时龙,杨波,唐倩,王彦凯.基于成熟度模型的航空产品并行协同研制模式[J].重庆大学学报,2018,41(10):19~29

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Received:May 18,2018
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Online: October 22,2018
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