The Difference Evaluation of Light Environment Atmosphere Index and Consumers’ Psychological Perception in Jewelry Stores
LIU Ze1, ZHANG Yu-hui1, LIANG Jing1*, WANG Zhi-sheng1, ZOU Nian-yu1, LIAN Yu-sheng2
1. School of Information Science and Engineering, Dalian Polytechnic University, Dalian 116034, China
2. School of Printing and Packaging Engineering, Beijing Institute of Graphic Communication, Beijing 102600, China
Abstract:Jewelry is a high-end consumer luxury product. The quality of shopping and the beautiful visual experience influence consumers’ buying behavior and determine brand value enhancement. With the rapid popularity and application of LED light sources, lighting factors (color temperature, illuminance, color rendering index, etc.) have become more and more significant in creating the atmosphere of jewelry stores. This paper studied the atmosphere evaluation indicators under four color temperature conditions in jewelry stores. In this paper, an LED light source with adjustable color temperature was used to simulate the lighting environment of the jewelry store display stand. Reliability analysis was used to verify the stability of the subjective evaluation data, and principal component analysis, maximum variance rotation method, one-way analysis of variance and correlation analysis were used to study atmosphere indicators of jewelry stores under different color temperatures and the impact of color temperature on consumers’ psychological perception. In the jewelry store, four basic perception dimensions have been extracted: the sense of integration, liveliness, aesthetics and uniformity. When the color temperature was 3 000 K, the sense of integration was the highest, but the liveliness was very low, which made the overall atmosphere more depressing. When the color temperature was 4 000 K, the average value of the four basic dimensions was generally higher. When the color temperature was 5 000 K, the sense of integration was lowest. When the color temperature was 6 000 K, the sense of integration was relatively low, while the liveliness, aesthetics and uniformity maintained a high average value. Color temperature significantly impacted factor 1 (sense of integration) and factor 2 (liveliness) of the basic perception dimension. When the color temperature was 4 000 K, the sense of integration and liveliness were more prominent, while the aesthetics and uniformity were not significantly affected by the color temperature. When the jewelry store chooses the color temperature of the lighting in the space, the color temperature of 4 000 K is given priority. There was a correlation between the four basic perception dimensions of the jewelry store and the subjective evaluation quantifier cool-warm, indicating that the change in color temperature can cause the observer to visually feel the change in the degree of coldness and warmth of the environment. The sense of integration had the strongest correlation with the cool-warm quantifier. The sense of integration in the jewelry store gradually increased as the color temperature decreased. This paper only changed the color temperature in the lighting parameters, but the observer’s evaluation of uniformity and brightness was affected. It showed that the observer’s subjective perception of brightness and light uniformity would also be affected by changes in color temperature.
刘 泽,张雨蕙,梁 静,王志胜,邹念育,廉玉生. 珠宝店的光环境氛围指标及消费者心理感知的差异评价[J]. 光谱学与光谱分析, 2022, 42(02): 660-664.
LIU Ze, ZHANG Yu-hui, LIANG Jing, WANG Zhi-sheng, ZOU Nian-yu, LIAN Yu-sheng. The Difference Evaluation of Light Environment Atmosphere Index and Consumers’ Psychological Perception in Jewelry Stores. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2022, 42(02): 660-664.
[1] Knez I. Journal of Environmental Psychology, 1995, 15(1): 39.
[2] Noguchi H, Sakaguchi T. Applied Human Science, 1999, 18(4): 117.
[3] Michon R, Chebat J C, Turley L W. Journal of Business Research, 2005, 58(5): 576.
[4] Riaz Hussain,Mazhar Ali. International Journal of Marketing Studies,2015, 7(2).
[5] Vogels, de Vries M, van Erp T. Interim Meeting of the International Colour Association: Colour-Effects and Affects, Stockholm (Sweden):Paper No.060,2008.
[6] Vogels. Atmosphere Metrics: International Symposium Creating an Atmosphere. Grenoble, France, 2008.
[7] Liu X Y, Luo M R, Li H. Lighting Research & Technology, 2015, 47(5): 581.
[8] Wang H H, Luo M R, Liu P, et al. Lighting Research & Technology, 2014, 46(6): 661.
[9] Lu Y,Li W, Xu W, et al. Lighting Research & Technology,2019, 51(8):1143.
[10] Li B, Zhai Q Y, Hutchings J B, et al. Lighting Research & Technology, 2019, 51(5): 682.
[11] Noguchi H, Sakaguchi T. Applied Human Science Journal of Physiological Anthropology, 1999,18(4): 117.
[12] LIANG Jing, NING Si-yu, LIAN Yu-sheng, et al(梁 静, 宁思宇, 廉玉生, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析). 2018, 38(10): 3199.
[13] LIU Qiang, TANG Mei-hua(刘 强, 唐美华). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2016, 36(11): 3664.
[14] Schielke T,Leudesdorff M. Lighting Research & Technology,2015, 47(6):672.
[15] Likert R. Archives of Psychology,1932,140: 1
[16] Chang L. Applied Psychological Measurement,1994,18: 205.
