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基于改进遗传算法(IGA)和差分进化(DE)算法的三居室住宅公寓内部空间布局优化设计

Optimization design of internal space layout of three-bedroom residential apartment based on IGA and DE algorithm.

作者信息

Zhao Ling, Li Baijun

机构信息

School Design, Nanjing University of the Arts, Nanjing, China.

School of Design and Innovation, Shenzhen Technology University, Shenzhen, China.

出版信息

PLoS One. 2025 Jul 7;20(7):e0326153. doi: 10.1371/journal.pone.0326153. eCollection 2025.

DOI:10.1371/journal.pone.0326153
PMID:40622912
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12233238/
Abstract

To solve the problems of insufficient global optimization ability and easy loss of population diversity in building interior layout design, this study proposes a novel layout optimization model integrating interactive genetic algorithm and improved differential evolutionary algorithm to improve the global optimization ability and maintain population diversity in building layout design. The model characterizes room functions and spatial locations through binary coding, and uses dynamic fitness function and backtracking strategy to improve space utilization and functional fitness. In the experiments, optimization metrics such as kinematic optimization rate (calculated based on the shortest path and connectivity between functional areas), space utilization rate (calculated by the ratio of room area to total usable space), and functional fitness (based on the weighted sum of users' subjective evaluations and functional matches) all perform well. Quantitatively, it is found that the model achieves 94.76% in terms of motion optimization rate, the highest space utilization rate is 96.6%, functional fitness is 9.4, and user satisfaction is close to 94.21%. The optimization results show that the proposed method has significant advantages in improving space utilization and meeting personalized design needs. However, despite the good optimization results, the method still faces the problem of improving the optimization ability under high-dimensional space and complex constraints. This study provides an efficient solution for intelligent building layout design and has certain practical value.

摘要

为解决建筑室内布局设计中全局优化能力不足和种群多样性易丧失的问题,本研究提出一种将交互式遗传算法和改进的差分进化算法相结合的新型布局优化模型,以提高建筑布局设计中的全局优化能力并保持种群多样性。该模型通过二进制编码表征房间功能和空间位置,并使用动态适应度函数和回溯策略来提高空间利用率和功能适应性。在实验中,诸如运动优化率(基于功能区域之间的最短路径和连通性计算)、空间利用率(通过房间面积与总可用空间的比率计算)和功能适应性(基于用户主观评价和功能匹配的加权总和)等优化指标均表现良好。定量分析发现,该模型在运动优化率方面达到了94.76%,最高空间利用率为96.6%,功能适应性为9.4,用户满意度接近94.21%。优化结果表明,所提出的方法在提高空间利用率和满足个性化设计需求方面具有显著优势。然而,尽管优化结果良好,但该方法仍面临在高维空间和复杂约束下提高优化能力的问题。本研究为智能建筑布局设计提供了一种有效的解决方案,具有一定的实用价值。

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