研究生: |
蕭彥群 Yen-Chun Hsiao |
---|---|
論文名稱: |
永續地景建築應用參數式規劃之設計策略 The Design Strategy of Parametric Planning for Sustainable Landscape Architecture |
指導教授: |
鄭政利
Cheng-Li Cheng |
口試委員: |
施宣光
S.G. Shih 邱奕旭 I-Hsu Chiu |
學位類別: |
碩士 Master |
系所名稱: |
設計學院 - 建築系 Department of Architecture |
論文出版年: | 2019 |
畢業學年度: | 107 |
語文別: | 中文 |
論文頁數: | 135 |
中文關鍵詞: | 地景建築 、永續規劃 、被動式設計 、參數式設計 、設計策略 |
外文關鍵詞: | Landscape architecture, Sustainable planning, Passive design, Parametric design, Design strategy |
相關次數: | 點閱:225 下載:3 |
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人口擴增與過度開發下,帶來大量汙染與環境變遷並導致氣候與環境破壞日益嚴重,因此如何與環境共生一直是人類生活面臨的主要課題。因此被動式設計是人類發展歷史以來,不斷嘗試與環境共存的因應策略,反應在地氣候環境與生活條件限制不同,衍生出在地性建築與設計規劃,進而改變人類活動與居住型態的獨特模式。然而在大數據引領下,為了降低發展影響與環境負擔,事前規劃的數據評估則顯為重要,近年來更積極整合參數式應用與永續發展的規劃方針。本研究透過環境物理影響之變因研究與基地環境數據,分析影響參數與在地社會人文發展後,進而提供地景建築規劃中對環境影響的精確性與發展策略,藉此尋找適合在地發展和環境共存的地景建築規劃。通過文獻回顧與案例分析等方式理論上論證該策略的可行性同時,並將它應用在設計競圖中實際驗證它的可操作性,提升該設計策略的理論價值。藉由此策略的建立,能夠在設計條件與限制不同時,利用參數式應用產生許多不同的可行性方案,透過參數的調整,評估比較對環境所產生影響不同方案,提供設計者進行下一階段設計的選擇,進而拓廣其他參數式設計與地景建築規劃者的設計思維,提供一個方法上的參考與幫助。
In the condition of population expansion and over-exploitation, how to coexist with the environment has always been a major issue facing human life. However, passive design is an unique plan derived from the history of human development that has been reflected in the differences in the local environment and the conditions. Under the guidance of big data, advance planning is important in order to reduce the development impact and environmental burden. In recent years, parametric design and sustainable development planning policies are being actively integrated. Through the analysis of environmental physical parameters and social humanities, this study provides the accuracy and development strategies of landscape architecture planning, and seeks for sustainable planning that is appropriate and coexists with the environment. Secondly, it verifies the operability with some projects which win in architectural design competitions. Finally, the new parametric design strategy for sustainable landscape architecture is established and benefit to sustainable landscape architecture planning.
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