论文标题：（基于不完全正镶嵌和半正镶嵌的模块化响应式立面方案——采光和视觉舒适）

期刊：

作者：Ecenur Kizilörenli, Feray Maden

发表时间：15 Feb 2023

DOI：

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FoAR是由高等教育出版社和东南大学建筑学院联合主办的全英文学术期刊

建筑学 / 城乡规划 / 风景园林

本刊已被 A&HCI / CSCD / Scopus / DOAJ 收录

Frontiers of Architectural Research（建筑学研究前沿/FoAR）于7月下旬在线发布了2023年第四期，共14篇文章。本期推送为其中一篇文章的摘要和大纲，内容采用中文表达，方便大家阅读。推文内容不可直接引用。

01 论 文 题 目

Manuscript Title

Modular responsive facade proposals based on semi-regular and demi-regular tessellation: daylighting and visual comfort

基于不完全正镶嵌和半正镶嵌的模块化响应式立面方案：采光和视觉舒适

02 作 者

Authors

Ecenur Kizilo ?renli*, Feray Maden

Department of Architecture, Yasar University, I_zmir 35100, Turkey

03 论 文 摘 要

Abstract

Responsive facades can reduce building energy consumption and control daylight and natural ventilation to improve user comfort. This study aims to develop alternative responsive facade systems based on semi-regular and demi-regular tessellations. For this purpose, first, the tessellation method used to generate responsive facades is introduced. Then, the geometric and parametric design principles and the movement capabilities of the proposed facade systems are presented. Finally, a set of analyses are performed to test and compare the performances of the facade systems based on daylight metrics and indoor glare comfort. This study contributes to the literature with the proposed facade systems that can adapt to changing environmental conditions, provide flexibility in shape control and simplicity in mechanism design, and improve building performance. The analysis results show that all the proposed facade systems provide the desired visual comfort and daylight levels at different configurations.

响应式立面可以减少建筑能耗，控制日光与自然通风，从而提高用户的舒适度。本研究旨在开发一种基于不完全正镶嵌和半正镶嵌的响应式立面系统。为此，本文首先对生成响应式立面的镶嵌方法进行了介绍。然后，介绍了所提出立面系统的几何与参数化设计原则以及运动性能。最后，根据日照指标和室内眩光舒适度进行了一些列分析来测试和比较立面系统的性能。这项研究为立面系统的研究文献做出了贡献，该系统可以适应不断变化的环境条件、提供灵活多样的外形控制，以及更加简洁的机械设计，同时提高建筑的性能。分析结果表明，所有的立面系统方案在不同的条件配置下都能提供所必须的视觉舒适度和日照水平。

04 关 键 词

Keywords

Responsive facades / 响应式立面

Semi-regular tessellation / 不完全正镶嵌

Demi-regular tessellation / 半正镶嵌

Parametric design / 参数化设计

Daylight performance / 日照效能

05 章 节 标 题

Sections Title

1. Introduction / 引言

2. Types of tessellation / 镶嵌类型

3. Research methodology / 研究方法

3.1. Morphology of the modules / 模块形态

3.2. Parametric model of the proposed facade systems / 立面系统方案的参数化模型

4. Computational performance analysis / 计算性能分析

5. Results and discussion / 研究结果与探讨

6. Conclusion / 结论

06 主 要 插 图

Illustrations

▲ 图一：镶嵌类型及其对偶（黑色图案代表原始镶嵌;蓝色图案表示对偶镶嵌）。 © 本文作者

▲ 图二：（b）框架结构，（b）三角面板的放置。 © 本文作者

▲ 图三：几种三角形和六边形模块的放置方式。 © 本文作者

▲ 图四：模块在不同镶嵌模式上的应用。 © 本文作者

▲ 图五：模块的分解图。 © 本文作者

▲ 图六：立面模块的几种方案。 © 本文作者

▲ 图七：三种立面系统方案下的日照眩光概率。 © 本文作者

07 作 者 介 绍

Authors Information

Ecenur K?z?lorenli

Research Assistant

Department of Architecture

Yasar University, Turkey

Feray Maden

Assistant Professor

Department of Architecture

Yasar University, Turkey

She studied architecture at the Izmir Institute of Technology (IZTECH) and received her Bachelors degree in 2004. After working in several architectural firms, she started her Master’s studies in 2005 at IZTECH and continued her research at KU Leuven in Belgium. Her academic career began as a research assistant at IZTECH in 2006, where she received her M.Sc. degree in 2008. Her Ph.D. studies likewise began at IZTECH and continued in the Netherlands between 2012-2013. She worked at the Department of Architectural Engineering at TU Delft as a Ph.D. researcher. She collaborated with the Innovative Structural Design Research Group at TU Eindhoven on several projects. She received her Ph.D. degree in 2015 and currently works as Assistant Professor at Ya?ar University. She conducted several scientific research projects: “Optimization Driven Architectural Design of Structures” (2016-2020), funded under the Marie-Curie RISE scheme of the Horizon 2020 Programme; “Investigating Novel Architectural Uses and Fabrication Problems of Scissor-Hinge Structural Mechanisms” (2021-2022), funded by Ya?ar University. She is currently coordinating another scientific research project, “Development of Transformable Disaster Relief Shelters Using Scissor Linkages and Foldable Plates.” She is co-founder of the Innovative Structures, Mechanisms, and Automation (ISMA) Research Group and a member of the Design Thinking Research Group. Her research focuses on Kinetic Architecture, Adaptive Structures, Responsive Facades, Parametric Design, Structural Design, and Disaster Relief Shelters.

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