Cognitive preferences for architectural renovation strategies in traditional villages combining subjective evaluation and eye tracking

Yu Xing; Jiawei Leng; Haifei Zhou

doi:10.1016/j.foar.2024.10.003

Front. Archit. Res. ›› 2025, Vol. 14 ›› Issue (4) : 1017 -1034. DOI: 10.1016/j.foar.2024.10.003

RESEARCH ARTICLE

Cognitive preferences for architectural renovation strategies in traditional villages combining subjective evaluation and eye tracking

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Abstract

With the implementation of the “rural revitalization” strategy, many traditional villages face the challenges of renewal and revitalization. A scientific and effective understanding of these renovation strategies is crucial in the renewal design process. This study integrates eye-tracking technology and subjective evaluation methods to construct a research framework for assessing cognitive preferences regarding architectural renovation strategies in traditional villages. Three villages in Nanjing, Jiangsu Province, China—She Village, Lixiang Village, and Sujia Ideal Village—were selected as case studies. Subjective evaluation scores were obtained using a semantic differentiation (SD) questionnaire, and the weights of various evaluation dimensions were determined based on the analytic hierarchy process (AHP). Eye-tracking experiments recorded subjects’ observation processes of different remodeling spaces, producing focus heatmaps, areas of interest (AOI) maps, and corresponding eye movement data. The comprehensive analysis of these two aspects provides a more thorough understanding and evaluation of renovation strategies in traditional villages: (1) In architectural renovation, the most effective strategies are ranked as follows: block addition, facade renovation, juxtaposition of old and new, and overall reshaping. (2) The metrics of richness and recognizability show significant correlations with eye-tracking data, suggesting their importance in comprehensive analysis. (3) Both high and low subjective evaluation scores attract attention, indicating the need to integrate subjective evaluation results with eye-tracking data for accurate judgment.

Keywords

Subjective evaluation / Eye tracking / Traditional villages / Renovation strategies / Cognitive preferences / Ergonomic analysis

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Yu Xing, Jiawei Leng, Haifei Zhou. Cognitive preferences for architectural renovation strategies in traditional villages combining subjective evaluation and eye tracking. Front. Archit. Res., 2025, 14(4): 1017-1034 DOI:10.1016/j.foar.2024.10.003

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References

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[1]	Amati, M. , Ghanbari Parmehr, E. , McCarthy, C. , Sita, J. , 2018. How eye-catching are natural features when walking through a park? Eye-tracking responses to videos of walks. Urban For. Urban Green. 31, 67- 78.

[2]	Behe, B.K. , Bae, M. , Huddleston, P.T. , Sage, L. , 2015. The effect of involvement on visual attention and product choice. J. Retailing Consum. Serv. 24, 10- 21.

[3]	Berni, A. , Altavilla, S. , Ruiz-Pastor, L. , Nezzi, C. , Borgianni, Y. , 2022. An eye-tracking study to identify the most observed features in a physical prototype of a tiny house. Proceed. Des. Soc. 2, 841- 850.

[4]	Blascheck, T. , Kurzhals, K. , Raschke, M. , Burch, M. , Weiskopf, D. , Ertl, T. , 2017. Visualization of eye tracking data: a taxonomy and survey. Comput. Graph. Forum 36 (8), 260- 284.

[5]	Bojko, A. , 2009. Informative or misleading? Heatmaps decon-structed. In: Jacko, J.A. (Ed.), Human-Computer Interaction. New Trends, vol. 5610. Springer Berlin Heidelberg, pp. 30-39.

[6]	Carrasco, M. , 2011. Visual attention: the past 25 years. Vis. Res. 51 (13), 1484- 1525.

[7]	Chen, B. , Gong, C. , Li, S. , 2022. Looking at buildings or trees? Association of human nature relatedness with eye movements in outdoor space. J. Environ. Psychol. 80, 101756.

[8]	Chen, Z. , 2023. Positive nudges for urban regeneration via eye-tracking and behavioural evidence. World Architect. 7, 68-69(in Chinese).

[9]	Chi, H.-Y. , Juan, Y.-K. , Lu, S. , 2022. Comparing BIM-based XR and traditional design process from three perspectives: aesthetics, gaze tracking, and perceived usefulness. Buildings 12 (10), 1728.

[10]	Cho, H. , 2016. A study on the comparison of the visual attention characteristics on the facade image of a detached house due to the features on windows. J. Asian Architect. Build Eng. 15 (2), 209- 214.

[11]	De La Fuente Suárez, L.A. , 2020. Subjective experience and visual attention to a historic building: a real-world eye-tracking study. Front. Architect. Res. 9 (4), 774- 804.

[12]	De Lucio, J.V. , Mohamadian, M. , Ruiz, J.P. , Banayas, J. , Bernaldez, F.G. , 1996. Visual landscape exploration as revealed by eye movement tracking. Landsc. Urban Plann. 34 (2), 135- 142.

[13]	De Smet, B. , Lempereur, L. , Sharafi, Z. , Guéhéneuc, Y.-G. , Antoniol, G. , Habra, N. , 2014. Taupe: visualizing and analyzing eye-tracking data. Sci. Comput. Program. 79, 260- 278.

[14]	Dupont, L. , Antrop, M. , Van Eetvelde, V. , 2014. Eye-tracking analysis in landscape perception research: influence of photograph properties and landscape characteristics. Landsc. Res. 39 (4), 417- 432.

[15]	Franěk, M. , Petružálek, J. , Šefara, D. , 2019. Eye movements in viewing urban images and natural images in diverse vegetation periods. Urban For. Urban Green. 46, 126477.

[16]	Hessels, R.S. , Kemner, C. , Van Den Boomen, C. , Hooge, I.T.C. , 2016. The area-of-interest problem in eyetracking research: a noise-robust solution for face and sparse stimuli. Behav. Res. Methods 48 (4), 1694- 1712.

[17]	Hollander, J.B. , Purdy, A. , Wiley, A. , Foster, V. , Jacob, R.J.K. , Taylor, H.A. , Brunyé T.T. , 2019. Seeing the city: using eyetracking technology to explore cognitive responses to the built environment. J. Urbanism: Inter. Res. Place. Urban Sus. 12 (2), 156- 171.

[18]

Holmqvist, K. , Örbom, S.L. , Hooge, I.T.C. , Niehorster, D.C. , Alexander, R.G. , Andersson, R. , Benjamins, J.S. , Blignaut, P. , Brouwer, A.-M. , Chuang, L.L. , Dalrymple, K.A. , Drieghe, D. , Dunn, M.J. , Ettinger, U. , Fiedler, S. , Foulsham, T. , Van Der Geest, J.N. , Hansen, D.W. , Hutton, S.B. , et al., 2022. Retracted article: eye tracking: empirical foundations for a minimal reporting guideline. Behav. Res. Methods 55 (1), 364- 416.

[19]	Li, B. , Yang, F. , Long, X. , Liu, X. , Cheng, B. , Dou, Y. , 2024. The organic renewal of traditional villages from the perspective of logical space restoration and physical space adaptation: a case study of Laoche village, China. Habitat Int. 144, 102988.

[20]	Li, N. , Zhang, F. , Geng, W. , Li, Z. , 2023. Research on performance improvement design strategies for urban historic districts and suburban traditional villages in multiple scopes. J. Build. Eng. 72, 106342.

[21]	Li, N. , Zhang, S. , Xia, L. , Wu, Y. , 2022. Investigating the visual behavior characteristics of architectural heritage using eyetracking. Buildings 12 (7), 1058.

[22]	Li, Y. , Li, Z. , Song, Y. , 2012. Reusing old construction materials in the renovation of traditional villages—a case study of the mou estate of qixia city, shandong Province. Appl. Mech. Mater. 174- 177, 1957-1961.

[23]	Li, Z. , Sun, X. , Zhao, S. , Zuo, H. , 2021. Integrating eye-movement analysis and the semantic differential method to analyze the visual effect of a traditional commercial block in Hefei, China. Front. Architect. Res. 10 (2), 317- 331.

[24]	Lin, Z. , Wang, Y. , Ye, X. , Wan, Y. , Lu, T. , Han, Y. , 2022. Effects of low-carbon visualizations in landscape design based on virtual eye-movement behavior preference. Land 11 (6), 782.

[25]	Lin, Z. , Zhang, L. , Tang, S. , Song, Y. , Ye, X. , 2021. Evaluating cultural landscape remediation design based on VR technology. ISPRS Int. J. Geo-Inf. 10 (6), 423.

[26]	Lisinska-Kuśnierz, M. , Krupa, M. , 2020. Suitability of eye tracking in assessing the visual perception of architectureda case study concerning selected projects located in cologne. Build. 10 (2), 20.

[27]	Liu, F. , Kang, J. , Wu, Y. , Yang, D. , Meng, Q. , 2022. What do we visually focus on in a World Heritage Site? A case study in the Historic Centre of Prague. Human. Soc. Sci. Commun. 9 (1), 400.

[28]	Liu, Y. , Hu, M. , Zhao, B. , 2019. Audio-visual interactive evaluation of the forest landscape based on eye-tracking experiments. Urban For. Urban Green. 46, 126476.

[29]	Liu, Y. , Hu, M. , Zhao, B. , 2020. Interactions between forest landscape elements and eye movement behavior under audio-visual integrated conditions. J. For. Res. 25 (1), 21- 30.

[30]	Ministry of Housing and Urban-Rural Development of the People's Republic of China, 2023 , 2023. Notice of the Ministry of housing and urban-rural development and other departments on the publication of the sixth batch of villages on the list of traditional villages in China.

[31]

Ministry of Housing and Urban-Rural Development of the People's Republic of China & National Cultural Heritage Administration , 2019. Notice of the Ministry of housing and urban-rural development and the national cultural heritage administration on the announcement of the seventh batch of Chinese famous historical and cultural towns and villages, 2019, January 21.