Optimizing Built-in Refrigerator Integration: BEHAVIOR Model for Evaluating Kitchen Workflow and Spatial Adaptability
Abstrak
As ergonomic and user-centered kitchen design gains importance, integrating built-in appliances such as refrigerators has become common in modern households. However, spatial misalignment and circulation conflicts often disrupt kitchen routines. This study introduces the BEHAVIOR model (Behavioral Embeddedness Evaluation for Appliance-Versatile Integrated Operation Routing), a multidimensional framework for evaluating the movement path adaptability of embedded refrigerators in integrated kitchen–dining environments. The model identifies eight behavioral dimensions: Body Clearance, Embedded Compatibility, Handling Logic, Accessibility, Visual Feedback, Interaction Conflict, Operating Time, and Routing Simplicity, from a user–space–product coordination perspective. Expert-based AHP weighting and user entropy methods were combined to construct adaptability scores across five kitchen layouts (L-shaped, U-shaped, single-line, G-shaped, and island). The findings indicate that Routing Simplicity and Accessibility are the core determinants of layout adaptability, while Operating Time and Body Space show layout-dependent variations. Interaction Conflict and Embedded Compatibility are significantly influenced by spatial compactness. This research identifies key behavioral bottlenecks in kitchen workflows and presents a scalable model for appliance–space compatibility analysis, contributing to behavioral product evaluation and highlighting the role of user dynamics in design decisions.
Topik & Kata Kunci
Penulis (4)
Ying Gao
Yushu Chen
Alin Olarescu
Xinyou Liu
Akses Cepat
- Tahun Terbit
- 2025
- Sumber Database
- DOAJ
- DOI
- 10.3390/buildings15213829
- Akses
- Open Access ✓