應用形態發生學於形態找尋

機構典藏 > College of Engineering > Graduate Institute & Department of Architecture > Thesis > Item 987654321/111293

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Title:	應用形態發生學於形態找尋
Other Titles:	Applying morphogenesis for form-finding
Authors:	李明翰;Lee, Ming-Han
Contributors:	淡江大學建築學系碩士班陳珍誠;游瑛樟;Chen, Chen-cheng;Yu, Ying-Chang
Keywords:	參數化設計;模式形成;演算法;歷時性腳本;形態發生運算;Parametric Design;Pattern Formation;Algorithm;Time-Based Scripting;Morphogenetic Computation
Date:	2016
Issue Date:	2017-08-24 23:49:10 (UTC+8)
Abstract:	在自然中有許多隱含的模式，其呈現可能為生物的結構、形態，或者是群體間的動態行為等，透過研究自然界的生成原理，將能進一步理解其規則與模式。本研究在形態找尋的方法下，進行形態發生學的操作，並經由歷時性腳本與參數化模型的輔助，進行設計運算與推演，期望能藉由此方法，將形態發生學應用至建築的領域。本研究之操作分為三個階段：第一階段為基本幾何，點、線以及面的構成，並透過不同的演算法與形態的操作，進行建築元件設計的發想；藉由不同演算法的選用與合併用使，進行具有規則的基礎形態生成。第二階段則是進行歷時性腳本的操作，以群聚行為模式為演算基礎，進行編織形態生成演算法的撰寫；在本階段中，延續既有規則基礎的生成推演，並透過迴圈的撰寫，進行具時間基礎的形態運算，最後生成二維的模式以及三維的形態。第三階段則是建築結構形態的生成，首先以形態找尋的方法操作建築基本形態的發生，分別為柱式、拱、圓頂以及薄殼，再以前一階段所撰寫的編織生成演算法進行形態生成；在這部分所進行的設計操作，主要希望透過前階段所確立的形態生成模式，進一步形成建築的有機結構形態的生成。在本論文的操作中，主要仰賴數位設計輔助工具進行設計運算，其優勢在於，數位時代的幾何形態是由資訊所構成，因此能進行數據的分析與組合，相較於過去類比式的操作，將能協助設計者進行更方便且大量的設計計算；此外，在形態發生的操作部分，則是希望藉由此研究，理解有趣的建築形態生成原理，藉以產生新的建築設計方向與有意義形態。 There are many implicit modes in the nature, which may be presented in biological structures and forms or dynamic behaviors among groups. These rules and modes will be further understood by studying the generation principle of the nature, thus this research utilizes form-finding method to operate morphogenesis, and conducts design and deduction through assistance of time-based scripting and parametric model, expecting to apply morphogenesis into architectural design. The operation in the research includes 3 parts: the first is the composition of basis geometry, point, line and surface through different algorithms and forms, it develops the concept of architecture component design; it selects and merges different algorithms to generate basic regular form. The second part conducts operation of time-based scripting and takes clustered behavior pattern as calculation base, to write generation of algorithm from weaving form; in the step, it continues generation deduction of existing rule foundation and utilizes writing of for-loop to conduct form computation with time-based, which finally generates two-dimensional pattern and three-dimensional form. The third is to generate the structures of architectural form; first, it utilizes form-finding method to operate generation of basic form of architecture, i.e., column type, arch, dome and thin shell respectively, second, it conducts form generation through the weaving generation algorithm in the previous phase; the design operation in this part mainly hopes to further form organic structure of architecture through form generation pattern established in last phase. The operation of the thesis mainly depends on the computer-aided design tools to conduct design computation. The advantages are that geometric form in digital time is composed of information, therefore, it can analyze and combine data, compared with the past analogy operation, which can assist the designer to have more convenient and a great deal of design calculation; besides, in the operation part of pattern generation, the research is expected to learn generation principle of interesting building form, so as to generate new design direction and meaningful form for architecture.
Appears in Collections:	[Graduate Institute & Department of Architecture] Thesis

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