A multifunctional computational approach to waterfront design

Yasha J. Grobman; Roy Kozlovsky; Hanna Levy

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A multifunctional computational approach to waterfront design

机译：滨水设计的多功能计算方法

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Seawalls and other types of waterfront infrastructures are predominantly designed to counter natural forces and maintain structural stability. Consequently, their defensive and reactive design impedes other types of uses and users. As an alternative to the single-use paradigm, there have been attempts to develop a more ecological, performance-based and civic approach to coastal defence structures that would engage with the diverse needs of human and non-human stakeholders. This paper presents a theoretical and methodological framework for employing computational tools to creatively design the interaction between the sea and the man-made shoreline. The research developed and tested a computational design methodology for the early stages of the seawall architectural design process. The suggested design methodology relies on inputs from a wave and texture taxonomy that was developed using physically based fluid simulation tools. The methodology was tested in a case study design.

机译：防波堤和其他类型的滨水基础设施主要用于抵抗自然力量并保持结构稳定性。因此，它们的防御性和反应性设计阻碍了其他类型的用途和用户。作为一次性使用范式的替代方案，已经尝试开发一种更具生态，基于绩效和公民意识的方法来应对沿海防御结构，从而满足人类和非人类利益相关者的多样化需求。本文提供了一个理论和方法框架，可使用计算工具来创造性地设计海洋与人造海岸线之间的相互作用。该研究为海堤建筑设计过程的早期阶段开发并测试了一种计算设计方法论。建议的设计方法依赖于使用基于物理的流体模拟工具开发的波浪和纹理分类法的输入。该方法已在案例研究设计中进行了测试。

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来源
《Architectural science review》 |2017年第6期|446-459|共14页
作者
Yasha J. Grobman; Roy Kozlovsky; Hanna Levy;
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作者单位

Faculty of Architecture and Town Planning, Technion, Israel Institute of Technology, Haifa, Israel;

David Azrieli School of Architecture, Tel Aviv University, Tel Aviv, Israel;

Faculty of Architecture and Town Planning, Technion, Israel Institute of Technology, Haifa, Israel;

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原文格式 PDF
正文语种 eng
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关键词
Waterfront design; wave simulation; physically based animation; computational fluid dynamics; design methodology;

机译：滨水设计;波浪模拟基于物理的动画;计算流体动力学;设计方法;

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A multifunctional computational approach to waterfront design

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