Smart Home Lighting Product Design Based on KE/AHP/QFD Integration Model

LUO Kunming; WANG Xiaoyu; DAI Yanfang; ZENG Chao; LIU Jiangwei

doi:10.19554/j.cnki.1001-3563.2025.24.017

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Packaging Engineering ›› 2025, Vol. 46 ›› Issue (24) : 210-219. DOI: 10.19554/j.cnki.1001-3563.2025.24.017

Industrial Design

Smart Home Lighting Product Design Based on KE/AHP/QFD Integration Model

LUO Kunming¹, WANG Xiaoyu¹, DAI Yanfang¹, ZENG Chao^2,*, LIU Jiangwei³

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Abstract

Based on the integration theory, with a focus on users' emotional needs, the work aims to analyze the fuzzy and uncertain emotional factors generated during the use of smart home products to guide the innovative design of smart home lighting products and effectively evaluate the design solutions. On the basis of Kansei Engineering, the picture samples and perceptual vocabulary of smart home lighting products were established through data collection and all relevant demand information was collected systematically. Cluster analysis combined with the results of weight calculation of hierarchical analysis method was employed to transform the acquired demand into specific design requirements and development tasks, and further into specific design elements through Quality Function Deployment Theory (QFD). Finally, the feasibility scale (SUS) was applied to verify the scientificity and feasibility of the solution. With this method as a guideline, by integrating the synergistic design idea, the product finally realizes the dynamic perception of emotions, non-sensory hidden interaction, and gives people a pleasant emotional experience at home. In the scientific and systematic design process of smart home lighting products, with the help of computer information technology and the introduction of relevant integrated theoretical models, the emotional needs of users can be maximally satisfied.

Key words

smart home lighting products / design evaluation / KE / AHP / QFD

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LUO Kunming, WANG Xiaoyu, DAI Yanfang, ZENG Chao, LIU Jiangwei. Smart Home Lighting Product Design Based on KE/AHP/QFD Integration Model[J]. Packaging Engineering. 2025, 46(24): 210-219 https://doi.org/10.19554/j.cnki.1001-3563.2025.24.017

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