A Family Cars- Life Cycle Cost (LCC)-Oriented Hybrid Modelling Approach Combining ANN and CBR
Design for cost (DFC) is a method that reduces life
cycle cost (LCC) from the angle of designers. Multiple domain
features mapping (MDFM) methodology was given in DFC. Using
MDFM, we can use design features to estimate the LCC. From the
angle of DFC, the design features of family cars were obtained, such
as all dimensions, engine power and emission volume. At the
conceptual design stage, cars- LCC were estimated using back
propagation (BP) artificial neural networks (ANN) method and
case-based reasoning (CBR). Hamming space was used to measure the
similarity among cases in CBR method. Levenberg-Marquardt (LM)
algorithm and genetic algorithm (GA) were used in ANN. The
differences of LCC estimation model between CBR and artificial
neural networks (ANN) were provided. ANN and CBR separately
each method has its shortcomings. By combining ANN and CBR
improved results accuracy was obtained. Firstly, using ANN selected
some design features that affect LCC. Then using LCC estimation
results of ANN could raise the accuracy of LCC estimation in CBR
method. Thirdly, using ANN estimate LCC errors and correct errors in
CBR-s estimation results if the accuracy is not enough accurate.
Finally, economically family cars and sport utility vehicle (SUV) was
given as LCC estimation cases using this hybrid approach combining
ANN and CBR.
[1] Xiaochuan Chen, Jun Shao, Zhongxu Tian. Family cars- life cycle cost
(LCC) estimation model based on the neural network ensemble, IFIP TC5
International Conference PROgraming LAnguages for MAchine Tools
conference 2006(PROLAMAT 2006), June 15-17, 2006 Shanghai,
China.pp.610-618.
[2] Chen Xiaochuan, Wang Zuoxiong , Wu Di, Shao Jun, Family cars- life
cycle cost (LCC) estimation model based on CBR, Proceeding of
International Technology & Innovation Conference 2006 (ITIC2006),
Nov. 6-8, 2006,HangZhou, China, Paper Number:01150.
[3] Dean, E. B. and R. Unal. "Designing for Cost," Transactions of the
American Association of Cost Engineers, 35th Annual Meeting, June
23-26, Seattle WA, pp D.4.1-D.4.6. (1991).
[4] Xiaochuan Chen, ZhangBao-bao, Feng Xin-an, "Key technology and
conceptual model about design for cost(DFC)", Journal of Dalian
University of Technology,39(6),pp. 775-780(1999). ( in Chinese)
[5] Chen Xiaochuan, Yang Jianguo, Li Beizhi, Feng Xin-an. "Methodology
and technology of design for cost (DFC)", The 5th World Congress on
Intelligent Control and Automation (WCICA'04), Hangzhou, China, June
14-18, pp. 3129-3134. (2004).
[6] Benjamin S. Blanchard. "Life cycle costing-A review", Terotechnica, 1,
pp. 9-15(1979).
[7] Ruan Lian, Zhang Guodong. Engineering system planning and design.
Beijing University of Aeronautics and Astronautics Press. (1991). ( in
Chinese)
[8] Wai M. Cheung, Linda B. Newnes, Antony R. Mileham, Robert Marsh,
John D. Lanham. "A Study of Life cycle costing in the Perspectives of
Research and Commercial Applications in the 21ST Century",
Proceedings of the ASME 2007 International Design Engineering
Technical Conferences & Computers and Information in Engineering
Conference (IDETC/CIE 2007),September 4-7, 2007, Las Vegas, Nevada,
USA.
[9] Schank, R. C., & Abelson, R. P. Scripts, Plans, Goals and Understanding.
New Jersey, USA: Erlbaum Hillsdale. (1977).
[10] Kolodner, J. "Case-Based Reasoning", Morgan Kaufmann Publishers,
San Mateo, CA. (1993).
[11] Kolodner, JL. "An introduction to case-based reasoning". Artificial
Intelligence Review, 6, pp. 3-34, (1992).
[12] Aamodt, A. and Plaza, E. "Case-based reasoning: foundational issues,
methodological variations and system approaches", AI Communications,
7(1), pp. 39-59, (1994).
[13] R. Belecheanu, K.S. Pawar, R.J. Barson, B. Bredehorst and F. Weber.
"The application of case based reasoning to decision support in new
product development". Integrated Manufacturing Systems, 14(1), pp.
36-45, (2003).
[14] Yi-Kai Juan, Shen-Guan Shih, Yeng-Horng Perng. "Decision support for
housing customization: A hybrid approach using case-based reasoning
and genetic algorithm". Expert Systems with Applications, 31, pp. 83-93,
(2006).
[15] X. Xu, J. L.-Q. Chen, and S. Q. Xie. "Framework of a Product Lifecycle
Costing System", Journal of Computing and Information Science in
Engineering, 6(1), pp. 69-77, (2006).
[16] Emilia Mendes, Nile Mosley, Steve Counsell. "The application of
case-based reasoning to early web project cost estimation", 26th Annual
International Computer Software and Applications Conference
(COMPSAC 2002), Oxford, England, 26-29 August, pp. 393-398, (2002).
[17] Rehman Sumaira, Guenov Marin D. "A Methodology for modeling
manufacturing costs at conceptual design", Computers & Industrial
Engineering, 35(3-4), pp. 623-626, (1998).
[18] Seo Kwang-Kyu, Park Ji-Hyung, Jang Dong-Sik, Wallace David.
"Prediction of the life cycle cost using statistical and artificial neural
network methods in conceptual product design", International Journal of
Computer Integrated Manufacturing, 15(6), pp. 541-554, (2002).
[19] Xiao-chuan Chen, Ming-lun Fang. "Application of artificial neural
networks (ANN) and grey system theory ion life cycle cost (LCC)
estimation", Proceedings of the 4th International Conference on
Nonlinear Mechanics, Shanghai, China, August 13-16, pp. 1191-1198,
(2002).
[20] Ogaji S.O.T., Singh R. "Neural network technique for gas turbine fault
diagnosis", International Journal of Engineering Intelligent Systems for
Electrical Engineering and Communications, 10(4), pp. 209-214. (2002).
[21] K.-K. Seo, J.-H. Park, D.-S. Jang and D. Wallace, "Approximate
Estimation of the Product Life cycle cost Using Artificial Neural
Networks in Conceptual Design", Advanced Manufacturing Technology,
19, pp. 461-471. (2002).
[22] Pratt M. J., Wilson P. R., Requirements for support of form features in a
solid modeling systems R-85-ASPP-01 CAM-I Inc[R]. Arlington, Texas,
USA, 1985.
[23] Chen Xiaochuan, Fang Minglun, Feng Xinan. Application of multiple
domain feature mapping in Design For Cost(DFC), CE2002, Cranfield
University, U.K. July, pp.27-31 (2002).
[24] Hu Shenghai. Mechanism system design. Harbin: Harbin Engineering
University Press.1997. ( In Chinese)
[25] John Fenton, Advances in vehicle design, London: Professionall
Engineering Publishing. 1999.
[26] Wangyu Wang, Automobile design (fourth edition), Beijing: China
Machine Press.2004. ( In Chinese)
[27] R. C. Creese, L. T. Moore ,Cost modeling for concurrent engineering,
Cost Engineering ,32(6),23-27(1990).
[1] Xiaochuan Chen, Jun Shao, Zhongxu Tian. Family cars- life cycle cost
(LCC) estimation model based on the neural network ensemble, IFIP TC5
International Conference PROgraming LAnguages for MAchine Tools
conference 2006(PROLAMAT 2006), June 15-17, 2006 Shanghai,
China.pp.610-618.
[2] Chen Xiaochuan, Wang Zuoxiong , Wu Di, Shao Jun, Family cars- life
cycle cost (LCC) estimation model based on CBR, Proceeding of
International Technology & Innovation Conference 2006 (ITIC2006),
Nov. 6-8, 2006,HangZhou, China, Paper Number:01150.
[3] Dean, E. B. and R. Unal. "Designing for Cost," Transactions of the
American Association of Cost Engineers, 35th Annual Meeting, June
23-26, Seattle WA, pp D.4.1-D.4.6. (1991).
[4] Xiaochuan Chen, ZhangBao-bao, Feng Xin-an, "Key technology and
conceptual model about design for cost(DFC)", Journal of Dalian
University of Technology,39(6),pp. 775-780(1999). ( in Chinese)
[5] Chen Xiaochuan, Yang Jianguo, Li Beizhi, Feng Xin-an. "Methodology
and technology of design for cost (DFC)", The 5th World Congress on
Intelligent Control and Automation (WCICA'04), Hangzhou, China, June
14-18, pp. 3129-3134. (2004).
[6] Benjamin S. Blanchard. "Life cycle costing-A review", Terotechnica, 1,
pp. 9-15(1979).
[7] Ruan Lian, Zhang Guodong. Engineering system planning and design.
Beijing University of Aeronautics and Astronautics Press. (1991). ( in
Chinese)
[8] Wai M. Cheung, Linda B. Newnes, Antony R. Mileham, Robert Marsh,
John D. Lanham. "A Study of Life cycle costing in the Perspectives of
Research and Commercial Applications in the 21ST Century",
Proceedings of the ASME 2007 International Design Engineering
Technical Conferences & Computers and Information in Engineering
Conference (IDETC/CIE 2007),September 4-7, 2007, Las Vegas, Nevada,
USA.
[9] Schank, R. C., & Abelson, R. P. Scripts, Plans, Goals and Understanding.
New Jersey, USA: Erlbaum Hillsdale. (1977).
[10] Kolodner, J. "Case-Based Reasoning", Morgan Kaufmann Publishers,
San Mateo, CA. (1993).
[11] Kolodner, JL. "An introduction to case-based reasoning". Artificial
Intelligence Review, 6, pp. 3-34, (1992).
[12] Aamodt, A. and Plaza, E. "Case-based reasoning: foundational issues,
methodological variations and system approaches", AI Communications,
7(1), pp. 39-59, (1994).
[13] R. Belecheanu, K.S. Pawar, R.J. Barson, B. Bredehorst and F. Weber.
"The application of case based reasoning to decision support in new
product development". Integrated Manufacturing Systems, 14(1), pp.
36-45, (2003).
[14] Yi-Kai Juan, Shen-Guan Shih, Yeng-Horng Perng. "Decision support for
housing customization: A hybrid approach using case-based reasoning
and genetic algorithm". Expert Systems with Applications, 31, pp. 83-93,
(2006).
[15] X. Xu, J. L.-Q. Chen, and S. Q. Xie. "Framework of a Product Lifecycle
Costing System", Journal of Computing and Information Science in
Engineering, 6(1), pp. 69-77, (2006).
[16] Emilia Mendes, Nile Mosley, Steve Counsell. "The application of
case-based reasoning to early web project cost estimation", 26th Annual
International Computer Software and Applications Conference
(COMPSAC 2002), Oxford, England, 26-29 August, pp. 393-398, (2002).
[17] Rehman Sumaira, Guenov Marin D. "A Methodology for modeling
manufacturing costs at conceptual design", Computers & Industrial
Engineering, 35(3-4), pp. 623-626, (1998).
[18] Seo Kwang-Kyu, Park Ji-Hyung, Jang Dong-Sik, Wallace David.
"Prediction of the life cycle cost using statistical and artificial neural
network methods in conceptual product design", International Journal of
Computer Integrated Manufacturing, 15(6), pp. 541-554, (2002).
[19] Xiao-chuan Chen, Ming-lun Fang. "Application of artificial neural
networks (ANN) and grey system theory ion life cycle cost (LCC)
estimation", Proceedings of the 4th International Conference on
Nonlinear Mechanics, Shanghai, China, August 13-16, pp. 1191-1198,
(2002).
[20] Ogaji S.O.T., Singh R. "Neural network technique for gas turbine fault
diagnosis", International Journal of Engineering Intelligent Systems for
Electrical Engineering and Communications, 10(4), pp. 209-214. (2002).
[21] K.-K. Seo, J.-H. Park, D.-S. Jang and D. Wallace, "Approximate
Estimation of the Product Life cycle cost Using Artificial Neural
Networks in Conceptual Design", Advanced Manufacturing Technology,
19, pp. 461-471. (2002).
[22] Pratt M. J., Wilson P. R., Requirements for support of form features in a
solid modeling systems R-85-ASPP-01 CAM-I Inc[R]. Arlington, Texas,
USA, 1985.
[23] Chen Xiaochuan, Fang Minglun, Feng Xinan. Application of multiple
domain feature mapping in Design For Cost(DFC), CE2002, Cranfield
University, U.K. July, pp.27-31 (2002).
[24] Hu Shenghai. Mechanism system design. Harbin: Harbin Engineering
University Press.1997. ( In Chinese)
[25] John Fenton, Advances in vehicle design, London: Professionall
Engineering Publishing. 1999.
[26] Wangyu Wang, Automobile design (fourth edition), Beijing: China
Machine Press.2004. ( In Chinese)
[27] R. C. Creese, L. T. Moore ,Cost modeling for concurrent engineering,
Cost Engineering ,32(6),23-27(1990).
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:62488", author = "Xiaochuan Chen and Jianguo Yang and Beizhi Li", title = "A Family Cars- Life Cycle Cost (LCC)-Oriented Hybrid Modelling Approach Combining ANN and CBR", abstract = "Design for cost (DFC) is a method that reduces life
cycle cost (LCC) from the angle of designers. Multiple domain
features mapping (MDFM) methodology was given in DFC. Using
MDFM, we can use design features to estimate the LCC. From the
angle of DFC, the design features of family cars were obtained, such
as all dimensions, engine power and emission volume. At the
conceptual design stage, cars- LCC were estimated using back
propagation (BP) artificial neural networks (ANN) method and
case-based reasoning (CBR). Hamming space was used to measure the
similarity among cases in CBR method. Levenberg-Marquardt (LM)
algorithm and genetic algorithm (GA) were used in ANN. The
differences of LCC estimation model between CBR and artificial
neural networks (ANN) were provided. ANN and CBR separately
each method has its shortcomings. By combining ANN and CBR
improved results accuracy was obtained. Firstly, using ANN selected
some design features that affect LCC. Then using LCC estimation
results of ANN could raise the accuracy of LCC estimation in CBR
method. Thirdly, using ANN estimate LCC errors and correct errors in
CBR-s estimation results if the accuracy is not enough accurate.
Finally, economically family cars and sport utility vehicle (SUV) was
given as LCC estimation cases using this hybrid approach combining
ANN and CBR.", keywords = "case-based reasoning, life cycle cost (LCC), artificialneural networks (ANN), family cars", volume = "5", number = "7", pages = "1496-9", }
