@article{ART002239554},
author={KIM JISOOK and KIM HOYONG},
title={A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -},
journal={Journal of Environmental Impact Assessment},
issn={1225-7184},
year={2017},
volume={26},
number={3},
pages={171-180},
doi={10.14249/eia.2017.26.3.171}
TY - JOUR
AU - KIM JISOOK
AU - KIM HOYONG
TI - A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -
JO - Journal of Environmental Impact Assessment
PY - 2017
VL - 26
IS - 3
PB - Korean Society Of Environmental Impact Assessment
SP - 171
EP - 180
SN - 1225-7184
AB - The vulnerability analysis of climate change driven disaster has been used as institutional framework for the urban policies of disaster prevention since 2012. However, some problems have occurred due to the structure of vulnerability analysis, such as overweighted variables and duplicated application of variables of similar meaning. The goal of this study is to examine the differences of results between the method of current guideline and the method of weight equalization. For this, we examines the current structural framework of the vulnerability analysis, and performs empirical analysis. As a result, the extent and magnitude of vulnerability showed different spatial patterns depending on the weighting methods. Standardized weighting method relatively represented wider vulnerable areas compared to the pre-existing method which follows the current instruction manual. To apply the results of vulnerability analysis to urban planning process for disaster prevention, this study suggests that the reliability of the results should be ensured by improving analytical framework and detailed review of the results.
KW - Vulnerability analysis;Sea-level rise;Weight equalization;Disaster prevention urban planning
DO - 10.14249/eia.2017.26.3.171
ER -
KIM JISOOK and KIM HOYONG. (2017). A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -. Journal of Environmental Impact Assessment, 26(3), 171-180.
KIM JISOOK and KIM HOYONG. 2017, "A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -", Journal of Environmental Impact Assessment, vol.26, no.3 pp.171-180. Available from: doi:10.14249/eia.2017.26.3.171
KIM JISOOK, KIM HOYONG "A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -" Journal of Environmental Impact Assessment 26.3 pp.171-180 (2017) : 171.
KIM JISOOK, KIM HOYONG. A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -. 2017; 26(3), 171-180. Available from: doi:10.14249/eia.2017.26.3.171
KIM JISOOK and KIM HOYONG. "A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -" Journal of Environmental Impact Assessment 26, no.3 (2017) : 171-180.doi: 10.14249/eia.2017.26.3.171
KIM JISOOK; KIM HOYONG. A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -. Journal of Environmental Impact Assessment, 26(3), 171-180. doi: 10.14249/eia.2017.26.3.171
KIM JISOOK; KIM HOYONG. A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -. Journal of Environmental Impact Assessment. 2017; 26(3) 171-180. doi: 10.14249/eia.2017.26.3.171
KIM JISOOK, KIM HOYONG. A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -. 2017; 26(3), 171-180. Available from: doi:10.14249/eia.2017.26.3.171
KIM JISOOK and KIM HOYONG. "A Review on the Results of Adjusting Weight in Vulnerability Analysis of Climate Change Driven Disaster - Focused on Sea-level Rise -" Journal of Environmental Impact Assessment 26, no.3 (2017) : 171-180.doi: 10.14249/eia.2017.26.3.171
