Using grey-quality function deployment to construct an aesthetic product design matrix

Nanyi Wang, Xinhui Kang, Qianqian Wang, Changyang Shi
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Abstract

Quality function deployment (QFD) is a systematic approach to transform customer requirements (CRs) into product engineering characteristics (ECs). Traditional QFD relies on market research or customer questionnaires to collect a series of ambiguous and uncertain CRs. As a result, evaluating the weighting of CRs and determining the design matrix between CRs and ECs have become the focus and difficulty of QFD. This paper proposes the grey system theory in artificial intelligence technology combined with QFD to develop grey-QFD to solve the issues mentioned before. First, collect the average evaluation values between the aesthetic images and customer satisfaction of representative products. The grey prediction GM (1, N) model is used to obtain the weight of aesthetic needs relative to customer satisfaction and import it into the left QFD. Second, the domain experts decomposed the product form into a morphological analysis table, and fuzzy Delphi screened key ECs and imported them into the ceiling of QFD. Finally, grey relationship analysis established the aesthetic product design matrix between CRs and ECs, and calculated and ranked the final weights of each ECs by using grey relationship degree. The research uses the security camera in the smart home as an experimental object. After operating the proposed grey-QFD, the aesthetic quality of the target product (lively, intelligent, friendly, personalized, and fashionable) and the optimization of the corresponding product ECs are obtained. The result provides a theoretical reference for designers and significantly improves customer aesthetic satisfaction.
运用灰色质量函数展开法构建产品美学设计矩阵
质量功能展开(QFD)是一种将顾客需求(cr)转化为产品工程特征(ECs)的系统方法。传统的QFD依靠市场调查或客户问卷来收集一系列模棱两可和不确定的cr。因此,评价质量评价指标的权重,确定质量评价指标与质量评价指标之间的设计矩阵,成为质量评价指标设计的重点和难点。本文提出将人工智能技术中的灰色系统理论与QFD相结合,发展灰色QFD来解决上述问题。首先,收集代表产品的审美形象与顾客满意度之间的平均评价值。利用灰色预测GM (1, N)模型得到审美需求相对于顾客满意度的权重,并将其导入左侧的QFD。其次,由领域专家将产品形态分解成形态分析表,通过模糊德尔菲法筛选出关键的ECs,导入到QFD的天花板中;最后,通过灰色关联度分析,建立评价中心与评价中心之间的美学产品设计矩阵,利用灰色关联度对评价中心的最终权重进行计算和排序。本研究以智能家居中的安防摄像头作为实验对象。通过对所提出的灰色qfd进行操作,得到目标产品的审美品质(活泼、智能、友好、个性化、时尚)和相应产品ECs的优化。研究结果为设计师提供了理论参考,显著提高了顾客的审美满意度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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