China’s rapid urbanization has accelerated the transition of residential development toward high-density models. As a critical interface between architecture and the urban environment, residential facades reflect evolving design strategies, living demands, and technological conditions. However, due to the complexity and diversity of facade components, the underlying influencing factors of facade evolution remain insufficiently explored. This study focuses on Shenzhen, a typical high-density city in southern China, and quantitatively analyzes 225 residential facades from 1980 to 2024 using HCA (Hierarchical Cluster Analysis). The results show that the development of residential facades in Shenzhen presents continuous and staged evolutionary characteristics, with a transition from simplified, function-oriented configurations to diversified and technology-integrated forms. Six clusters of facade types are identified, and the analysis reveals that this evolution is driven by the combined effects of policies and design standards (external factors), resident demand (internal factors), and technological development (technical support), rather than merely stylistic changes. This study establishes a quantitative classification framework to identify the evolutionary patterns and influencing factors of residential facades, enriches the research system of high-density residential facades, provides methodological support for facade analysis, and offers both theoretical and practical guidance for facade design in subtropical high-density cities.
Tan et al. (Fri,) studied this question.
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