Application of AHP method on Customization of GBTool in Taiwan

碩士 === 國立成功大學 === 建築學系碩博士班 === 93 ===   In Recent years,global climate and environment changes badly. Therefore, the issue of sustainable development becomes more and more important. This concept has been emphasized from 1980.(IUCN、UNEP nad WWF,1980)It has been taken more concerns from all over the...

Full description

Bibliographic Details
Main Authors: Po-Yu Shih, 施柏宇
Other Authors: Che-Ming Chiang
Format: Others
Language:zh-TW
Published: 2005
Online Access:http://ndltd.ncl.edu.tw/handle/50011794204103489287
id ndltd-TW-093NCKU5222043
record_format oai_dc
spelling ndltd-TW-093NCKU52220432017-08-27T04:29:40Z http://ndltd.ncl.edu.tw/handle/50011794204103489287 Application of AHP method on Customization of GBTool in Taiwan 應用AHP法探討GBTool於台灣地區適用性之研究 Po-Yu Shih 施柏宇 碩士 國立成功大學 建築學系碩博士班 93   In Recent years,global climate and environment changes badly. Therefore, the issue of sustainable development becomes more and more important. This concept has been emphasized from 1980.(IUCN、UNEP nad WWF,1980)It has been taken more concerns from all over the world. After the “Earth Summit” in Brazil, there is a conclusion about sustainable development in the world. With the issue of “sustainable development”, there is a definition in 2000 Sustainable Building International conference: Sustainability is operated in material 、building and urban, and it should conclude the ecology, the economical, the society cultural element, and must also reflect the regional characteristic to achieve the sustainable goal.   Taiwan is in the subtropics zone. It has its own regional characteristic. Therefore, while we impetus the direction and the content of sustainable building, it is different from the cold temperate zone the OECD country. This study attempts to suggest a sustainable building assessment tool in Taiwan which adjusted form international sustainable building assessment system. According to the research from aboard, the GBTool assessment system is used wide and emphasized on regional operation. Therefore, this study analysis the GBTool assessment system and revise to use in Taiwan.   This study use “Analytic Hierarchy Process” to analysis. According to the content and construction of the GB-Tool assessment system, the expert consultative survey is designed. With the calculation of AHP method, this study suggests that the assessment category is suitable in Taiwan, and build the assessment system in Taiwan.   According to this study, it can be testified that there are 99 assessment categories can be used in Taiwan from 108 assessment categories in GBTool. It show the customization of GBTool in Taiwan is suitable. However, this study show that the assessment issue of Energy and Resource Consumption、Long-Term Performance、Social and Economic aspects are different in Taiwan. Those assessment issues should be revised and than manipulate in Taiwan. Che-Ming Chiang 江哲銘 2005 學位論文 ; thesis 82 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立成功大學 === 建築學系碩博士班 === 93 ===   In Recent years,global climate and environment changes badly. Therefore, the issue of sustainable development becomes more and more important. This concept has been emphasized from 1980.(IUCN、UNEP nad WWF,1980)It has been taken more concerns from all over the world. After the “Earth Summit” in Brazil, there is a conclusion about sustainable development in the world. With the issue of “sustainable development”, there is a definition in 2000 Sustainable Building International conference: Sustainability is operated in material 、building and urban, and it should conclude the ecology, the economical, the society cultural element, and must also reflect the regional characteristic to achieve the sustainable goal.   Taiwan is in the subtropics zone. It has its own regional characteristic. Therefore, while we impetus the direction and the content of sustainable building, it is different from the cold temperate zone the OECD country. This study attempts to suggest a sustainable building assessment tool in Taiwan which adjusted form international sustainable building assessment system. According to the research from aboard, the GBTool assessment system is used wide and emphasized on regional operation. Therefore, this study analysis the GBTool assessment system and revise to use in Taiwan.   This study use “Analytic Hierarchy Process” to analysis. According to the content and construction of the GB-Tool assessment system, the expert consultative survey is designed. With the calculation of AHP method, this study suggests that the assessment category is suitable in Taiwan, and build the assessment system in Taiwan.   According to this study, it can be testified that there are 99 assessment categories can be used in Taiwan from 108 assessment categories in GBTool. It show the customization of GBTool in Taiwan is suitable. However, this study show that the assessment issue of Energy and Resource Consumption、Long-Term Performance、Social and Economic aspects are different in Taiwan. Those assessment issues should be revised and than manipulate in Taiwan.
author2 Che-Ming Chiang
author_facet Che-Ming Chiang
Po-Yu Shih
施柏宇
author Po-Yu Shih
施柏宇
spellingShingle Po-Yu Shih
施柏宇
Application of AHP method on Customization of GBTool in Taiwan
author_sort Po-Yu Shih
title Application of AHP method on Customization of GBTool in Taiwan
title_short Application of AHP method on Customization of GBTool in Taiwan
title_full Application of AHP method on Customization of GBTool in Taiwan
title_fullStr Application of AHP method on Customization of GBTool in Taiwan
title_full_unstemmed Application of AHP method on Customization of GBTool in Taiwan
title_sort application of ahp method on customization of gbtool in taiwan
publishDate 2005
url http://ndltd.ncl.edu.tw/handle/50011794204103489287
work_keys_str_mv AT poyushih applicationofahpmethodoncustomizationofgbtoolintaiwan
AT shībǎiyǔ applicationofahpmethodoncustomizationofgbtoolintaiwan
AT poyushih yīngyòngahpfǎtàntǎogbtoolyútáiwāndeqūshìyòngxìngzhīyánjiū
AT shībǎiyǔ yīngyòngahpfǎtàntǎogbtoolyútáiwāndeqūshìyòngxìngzhīyánjiū
_version_ 1718518438335348736