This study calculated wind speed at the height of 10 m using a disaster prediction model(Florida Public Hurricane Loss Model, FPHLM) that was developed and used in the United States. Using its distributions, a usable information of surface wind was produced for the purpose of disaster prevention when the typhoon attack. The advanced research version of the WRF (Weather Research and Forecasting) was used in this study, and two domains focusing on South Korea were determined through two-way nesting. A horizontal time series and vertical profile analysis were carried out to examine whether the model provided a resonable simulation, and the meteorological factors, including potential temperature, generally showed the similar distribution with observational data. We determined through comparison of observations that data taken at 700 hPa and used as input data to calculate wind speed at the height of 10 m for the actual terrain was suitable for the simulation. Using these results, the wind speed at the height of 10 m for the actual terrain was calculated and its distributions were shown. Thus, a stronger wind occurred in coastal areas compared to inland areas showing that coastal areas are more vulnerable to strong winds.

Abstract
 1. 서 론
 2. 자료 및 방법
  2.1. 모델 구성
  2.2. 수치모의 결과 검증
  2.3. FPHLM 모형을 이용한 10 m 풍속 산정
 3. 결과 및 고찰
  3.1. 수평 시계열 분석 결과
  3.2. 연직 프로파일 분석 결과
  3.3. 700 hPa 고도 자료 분석 결과
  3.4. FPHLM 모형에 의한 10 m 고도 풍속 분포
 4. 결 론
 참 고 문 헌

• 정우식(인제대학교 대기환경정보공학과/대기환경정보연구센터) | Woo-Sik Jung (Department of Atmospheric Environment Information Engineering, Atmospheric Environment Information Research Center, Inje University)
• 박종길(인제대학교 환경공학부/대기환경정보연구센터) | Jong-Kil Park (School of Environmental Sciences Engineering, Atmospheric Environment Information Research Center, Inje University) Corresponding author
• 김은별(인제대학교 대기환경정보공학과/대기환경정보연구센터) | Eun-Byul Kim (Department of Atmospheric Environment Information Engineering, Atmospheric Environment Information Research Center, Inje University)
• 이보람(인제대학교 대기환경정보공학과/대기환경정보연구센터) | Bo-Ram Lee (Department of Atmospheric Environment Information Engineering, Atmospheric Environment Information Research Center, Inje University)