This study aims to analyze the relationship between the form design parameters of mobile phones and their "Thin" perceptual images by using the evaluation method of Kansei Engineering. By summarizing the design principle of "Thin" mobile phone form, this study determines the semantic correspondence between the chamfer of mobile phone edge and the perception of "Thin - Thick." Designing an evaluation experiment obtains the subjective evaluation order of the experimental samples to analyze the correlation between the sample form design parameters and the perceptual evaluation of the "Thin" image. It concludes that the ranking of subjective assessment of mobile phone's "Thin" image is negatively correlated with the offset distance x of plane A and the offset distance Y of plane B, and strongly positively correlated with the value of conic polar diameter ρ. This study provides a theoretical basis for designing the "Thin" form of mobile phones, which can effectively offer a numerical and methodological reference for the design of objects with similar shapes.

Li Mengniu. Analysis of "Thin" Mobile Phone Form Based on the Kansei Engineering. Frontiers in Art Research (2022) Vol. 4, Issue 2: 63-67. https://doi.org/10.25236/FAR.2022.040212.

[1] Erdem, Y., Cebi, S., & Ilbahar, E. (2020). A New Approach to Analyze Perceived Design Quality of Mobile Phone Using Fuzzy Hierarchical Conjoint Analysis. International Conference on Intelligent and Fuzzy Systems. Springer, Cham, 769-778.

[2] Huang, L. Y. (2014). Research on image extraction of modern mobile phones by factor analysis method. Art Science and Technology, 27(11), 133.

[3] Li, S. (2015). Three factors and three levels orthogonal test for exercise therapy on maternal and infant outcomes of gestational diabetes mellitus. Chinese and Foreign Medical, 34(16), 67-68.

[4] Li, W. J. (2014). Research on lightweight design method of electronic products based on visual art. Art Science and Technology, 27(11), 173.

[5] Li, Z., & Pan, X. (2018). Research on CMF Design and Charging Method in Smartphone-Centered on iPhone.

[6] Qiao, X. Y. et al. (2016). Research on product texture harmonic design model based on the Kansei engineering. Packaging Engineering, 37(14), 68-72.

[7] San, G. S., Anggono, J., & Wahjudi, D. (2018). Characterization of Mobile Phone Cases for Remanufacturing Purpose. Petra Christian University.

[8] Sun, Y. M. Using SPSS software to analyze the correlation between variables. Journal of Xinjiang Institute of Education, 2, 120-123.

[9] Wu, Y. G. (2018). Analysis of influencing factors of typical shape change of mobile phone appearance. Journal of Inner Mongolia Normal University (Chinese Version of Natural Science), 47(5), 415-420.

[10] Yaojun, S., & Yuan, Z. (2018). Research on the mobile phone appearance design development based on CMF. Design, 11(2), 112-117.