• Abstract
• 1. 서론
• 2. 연구방법
• 3. 결과
• 4. 요약 및 결론
• REFERENCES

1 김선영, "한반도 호우유형의 중규모 특성 및 예보 가이던스" 한국기상학회 29 (29): 463-480, 2019

2 변재영, "중규모 모델 WRF로부터 모의된 한반도 풍력-기상자원 특성 Characteristics of a Wind Map over the Korean Peninsula Based on Mesoscale Model WRF" 한국기상학회 20 (20): 195-210, 2010

3 안중배, "수치예보모형을 이용한 역학적 규모축소 기법을 통한 농업기후지수 모사" 한국농림기상학회 12 (12): 1-10, 2010

4 허복행, "도플러 레이더의 스펙트럼으로부터 물방울 크기 분포를 추정하기 위한 종단속도-물방울 크기 관계식의 비교" 한국기상학회 37 (37): 143-168, 2001

5 안중배, "대기-해양-지면-해빙 접합 대순환 모형으로 모의된 이산화탄소 배증시 한반도 농업기후지수 변화 분석" 한국농림기상학회 12 (12): 11-22, 2010

6 임교선, "대기 모형에서의 벌크형 미세구름물리 모수화 방안" 한국기상학회 29 (29): 227-239, 2019

7 임교선, "눈송이의 크기와 질량 관계가 지표 강수 모의에 미치는 영향" 한국지구과학회 41 (41): 1-18, 2020

8 Boo, K. -O., "Vegetation change in the regional surface climate over East Asia due to global warming using BIOME4" 27 : 317-327, 2004

9 Gunn, R., "The terminal velocity of fall for water d rop lets in stagnant a ir" 6 : 243-248, 1949

10 Marshall, J. S., "The distribution of raindrops with size" 5 : 165-166, 1948

11 홍성유, "The WRF Single-Moment 6-Class Microphysics Scheme (WSM6)" 한국기상학회 42 (42): 129-151, 2006

12 Kain, J. S., "The Kain-Fritsch convective parameterization : An update" 43 : 170-181, 2004

13 Dee, D. P., "The ERA-Interim reanalysis : Configuration and performance of the data assimilation system" 137 : 553-597, 2011

14 Hong, S. -Y., "Sensitivity study of cloud-resolving convective simulations with WRF using two bulk microphysical parameterizations: Ice-phase microphysics versus sedimentation effects" 48 : 61-76, 2009

15 Im, E. -S., "Sensitivity of the regional climate of East/Southeast Asia to convective parameterizations in the RegCM3 modelling system. Part 1: Focus on the Korean peninsula" 28 : 1861-1877, 2008

16 Layeghi, B., "Sensitivity of WRF model simulations to physical parameterization over the Persian Gulf and Oman Sea during summer monsoon" 11 : 1-19, 2017

17 Im, E. -S., "Robust intensification of hydroclimatic intensity over East Asia from multi-model ensemble regional projections" 129 : 1241-1254, 2016

18 Spilhaus, A. F., "Raindrop size, shape and falling speed" 5 : 108-110, 1948

19 Iacono, M. J., "Radiative forcing by long-lived greenhouse gases: Calculations with the AER radiative transfer models" 113 : D13103-, 2008

20 Lhermitte, R. M., "Precipitation motion by pulse Doppler radar" 218-223, 1961

21 안중배, "PNU CGCM과 WRF를 이용한 남한 지역 기온 예측성 검증" 한국기상학회 28 (28): 479-490, 2018

22 Liu, J. Y., "Numerical modeling of precipitation and cloud shadow effects on mountaininduced cumuli" 26 : 1283-1298, 1969

23 Huffman, G. J., "NASA Global Precipitation Measurement (GPM) Integrated Multi-satellitE Retrievals for GPM (IMERG). NASA, ATBD Version 4.5"

24 Laws, J. O., "Measurements of the fall-velocity of water-drops and raindrops" 22 : 709-721, 1941

25 Kyo-Sun Sunny Lim, "Investigation of aerosol indirect effects on simulated flash-flood heavy rainfall over Korea" Springer Science and Business Media LLC 118 (118): 199-214, 2012

26 Giorgi, F., "Introduction to special section : Regional climate modeling revisited" 104 : 6335-6532, 1999

27 Lee, G., "International Collaborative Experiments for Pyeongchang 2018 Olympic and Paralympic winter games" 2018

28 Morcrette, J. -J., "Impact of a new radiation package, McRad, in the ECMWF integrated forecasting system" 136 : 4773-4798, 2008

29 Thompson, G., "Explicit forecasts of winter precipitation using an improved bulk microphysics scheme. Part II:Implementation of a new snow parameterization" 136 : 5095-5115, 2008

30 Qian, T., "Diurnal characteristics of gravity waves over the Tibetan Plateau in 2015 summer using 10-km downscaled simulations from WRF-EnKF regional reanalysis" 11 : 631-, 2020

31 Niu, S., "Distributions of raindrop sizes and fall velocities in a semiarid plateau climate : Convective versus stratiform rains" 49 : 632-645, 2010

32 Lim, K. -S. S., "Development of an effective double-moment cloud microphysics scheme with prognostic Cloud Condensation Nuclei(CCN)for weather and climate models" 138 : 1587-1612, 2010

33 Lee, G., "Development and kinematic properties of tropical stratiform clouds retrieved by single Doppler radar" 34 : 570-585, 1998

34 Chen, F., "Coupling an advanced land surface-hydrology model with the Penn State-NCAR MM5 modeling system. Part I: Model implementation and sensitivity" 129 : 569-585, 2001

35 Tang, Q., "Characteristics of the raindrop size distributions and their retrieved polarimetric radar parameters in northern and southern China" 135 : 59-75, 2014

36 Hong, J. -Y., "Changes of early summer precipitation in the Korean Peninsula and nearby regions based on RCP simulations" 28 : 3557-3578, 2015

37 Kim, K. -E., "Analysis of fall velocities of precipitation particles and wind fields by a single Doppler radar" 32 : 51-70, 1996

38 Barthazy, E., "An optical array instrument for shape and fall velocity measurements of hydrometeors" 21 : 1400-1416, 2004

39 Rogers, R. R., "An extension of the Z-R relationship for Doppler radar" 158-161, 1964

40 Hong, S. -Y., "A revised approach to ice microphysical processes for the bulk parameterization of clouds and precipitation" 132 : 103-120, 2004

41 Kain, J. S., "A one-dimensional entraining/detraining plume model and its application in convective parameterization" 47 : 2784-2802, 1990

42 Hong, S. -Y., "A new vertical diffusion package with an explicit treatment of entrainment processes" 134 : 2318-2341, 2006

43 Uplinger, W. G., "A new formula for raindrop terminal velocity" 389-391, 1981

44 Morrison, H., "A new double-moment microphysics parameterization for application in cloud and climate models. Part I: Description" 62 : 1665-1677, 2005

45 Joss, J., "A method to improve the accuracy of radar-measured amounts of precipitation" 237-238, 1970

46 Beard, K. V., "A determination of the terminal velocity and drag of small water drops by means of a wind tunnel" 26 : 1066-1072, 1969

47 Skamarock, W. C, "A description of the Advanced Research WRF version 3"