吉林大学学报(工学版) ›› 2015, Vol. 45 ›› Issue (4): 1213-1218.doi: 10.13229/j.cnki.jdxbgxb201504028

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Integration method for customer requirement analysis in product planning

LYU Feng1, 2, YANG Yin-sheng1, TANG Jin1   

  1. 1.Key Laboratory of Bionic Engineering, Ministry of Education, Jilin University, Changchun 130022, China;
    2.School of Mechatronics Engineering, Henan University of Science and Technology, Luoyang 471023, China
  • Received:2014-01-03 Online:2015-07-01 Published:2015-07-01

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Abstract: In order to effectively evaluate customer requirements in product planning, an analysis method was proposed by integrating rough set theory, DEMATEL method and Kano's model. First, the attribute importance principle of rough set theory is adopted to determine the fundamental importance of customer requirements. Second, considering the influence of the correlations between customer requirements, the fundamental importance of customer requirements is modified by DEMATEL method. Third, based on the competitive analysis of Kano's model, the adjustment function of importance rating is built, which integrates the customer demand category, competitive analysis and importance rating calculation. Finally, the weight vector, which reflects the final importance rating of the customer requirements, is obtained by normative approach. A case study of the development of new farm tractors demonstrates that the proposed analysis method is effective and feasible.

Key words: mechanical design, quality function deployment, customer requirements, rough set, DEMATEL, Kano model

CLC Number: 

  • TH122
[1] Liu Hao-tien. Product design and selection using fuzzy QFD and fuzzy MCDM approaches[J]. Applied Mathematical Modeling,2011,35(1):482-496.
[2] Ronald G D. Quality Function Deployment[M]. Milwaukee Wisconsin: ASQC Press,1993.
[3] Ho W. Integrated analytic hierarchy process and its applications-a literature review[J]. European Journal of Operational Research,2008,186(1):211-228.
[4] Raharjo H, Xie M, Brombacher A C. A systematic methodology to deal with the dynamics of customer needs in quality function deployment[J]. Expert Systems with Applications,2011,38(4): 3653-3662.
[5] 张树山,高大新,王涛,等. 基于DQFD的物流服务能力设计、仿真与优化[J]. 吉林大学学报:工学版,2009,39(增刊2):204-208. Zhang Shu-shan, Gao Da-xin, Wang Tao, et al. Research on the design, simulation and optimization of logistics services ability based on dynamic quality function deployment[J]. Journal of Jilin University (Engineering and Technology Edition),2009,39(Sup.2):204-208.
[6] 车阿大, 林志航, 陈康宁. 质量功能配置中基于ANN的顾客需求重要度评估方法[J]. 西安交通大学学报,1999,33(5):75-78. Che A-da, Lin Zhi-hang, Chen Kang-ning. Capturing weight of voice of the customer using artificial neural network in quality function development[J]. Journal of Xi'an Jiaotong University,1999,33(5):75-78.
[7] Zhang Zai-fang, Chu Xue-ning. Fuzzy group decision-making for multi-format and multi- granularity linguistic judgments in quality function deployment[J]. Expert Systems with Applications,2009,36(5):9150-9158.
[8] 钟晓芳, 刘思峰. 模糊德菲法和熵权重法在不确定环境下产品设计中功能选择的应用[J]. 工业工程,2009,12(4):78-81. Zhong Xiao-fang, Liu Si-feng. Fuzzy delphi method for function selection in product design with uncertainty[J]. Industrial Engineering Journal,2009,12(4):78-81.
[9] Chen C C, Chuang M C. Integrating the Kano model into a robust design approach to enhance customer satisfaction with product design[J]. International Journal of Production Economics, 2008,114(2):667-681.
[10] Zhai L Y, Khoo L P, Zhong Z W. Towards a QFD-based expert system: a novel extension to fuzzy QFD methodology using rough set theory[J]. Expert Systems with Applications,2010,37(12):8888-8896.
[11] 李延来, 唐加福, 蒲云, 等. 质量功能展开中顾客需求的排序算法[J]. 计算机集成制造系统, 2007,13(6):1196-1203. Li Yan-lai, Tang Jia-fu, Pu Yun, et al. Sorting algorithm of customer requirements in quality function deployment[J]. Computer Integrated Manufacturing Systems, 2007,13(6):1196-1203.
[12] 崔强, 武春友, 匡海波. BP-DEMATEL在空港竞争力影响因素识别中的应用[J]. 系统工程理论与实践,2013, 33(6):1471-1478. Cui Qiang, Wu Chun-you, Kuang Hai-bo. Influencing factors research of airports competitiveness based BP-DEMATEL model[J]. Systems Engineering-Theory & Practice, 2013, 33(6):1471-1478.
[13] Lee Hsuan-Shih, Tzeng Gwo-Hshiung,Yeih Weichung, et al. Revised DEMATEL:resolving the infeasibility of DEMATEL[J]. Applied Mathematical Modelling,2013,37(10):6746-6757.
[14] Matzler K, Hinterhuber H H. How to make product development projects more successful by integrating Kano's model of customer satisfaction into QFD[J]. Technovation,1998,18(2):25-38.
[15] Berger C, Blauth R, Boger D, et al. Kano's methods for understanding customer-defined quality[J]. Center for Quality Management Journal, 1993,2(4): 3-36.
[16] Chaudha A,Jain R, Singh A R, et al. Integration of Kano's model into quality function deployment (QFD)[J]. International Journal of Advanced Manufacturing Technology, 2011,53(5): 689-698.
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