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Regime Shift of the Early 1980s in the Characteristics of the Tropical Cyclone Affecting Korea
최기선,김태룡 한국지구과학회 2011 韓國地球科學會誌 Vol.32 No.5
By performing a statistical change-point analysis of activities of the tropical cyclones (TCs) that have affected Korea (K-TCs), it was found that there was a significant change between 1983 and 1984. During the period of 1984-2004(P2), more TCs migrated toward the west, recurved in the southwest, and affected Korea, compared to the period of 1965-1983 (P1). These changes for P2 were related to the southwestward expansion of the subtropical western North Pacific high (SWNPH) and simultaneously elongation of its elliptical shape toward Korea. Because of these changes, the central pressure and lifetime of K-TC during P2 were deeper and longer, respectively, than figures for P1. This stronger K-TC intensity for P2 was related to the more southwestward genesis due to the southwestward expansion of the SWNPH. The weaker vertical wind shear environment during P2 was more favorable for K-TC to maintain a strong intensity in the mid-latitudes of East Asia.
최기선,김도우,김태룡,강기룡 한국지구과학회 2009 韓國地球科學會誌 Vol.30 No.3
A statistical prediction model for the typhoon intensity and track in the Northwestern Pacific area was developed based on the artificial neural network scheme. Specifically, this model is focused on the 5-day prediction after tropical cyclone genesis, and used the CLIPPER parameters (genesis location, intensity, and date), dynamic parameters (vertical wind shear between 200 and 850 hPa, upper-level divergence, and lower-level relative vorticity), and thermal parameters (upper-level equivalent potential temperature, ENSO, 200-hPa air temperature, mid-level relative humidity). Based on the characteristics of predictors, a total of seven artificial neural network models were developed. The best one was the case that combined the CLIPPER parameters and thermal parameters. This case showed higher predictability during the summer season than the winter season, and the forecast error also depended on the location: The intensity error rate increases when the genesis location moves to Southeastern area and the track error increases when it moves to Northwestern area. Comparing the predictability with the multiple linear regression model, the artificial neural network model showed better performance. 북서태평양에서 발생한 태풍에 대해 발생 후 5일 동안 12시간 간격으로 태풍의 강도 및 진로를 예측할 수 있는 인공신경망 모델을 개발하였다. 사용되어진 예측인자는 CLIPER(발생 위치ㆍ강도ㆍ일자), 운동학적 파라미터(연직바람시어, 상층발산, 하층상대와도), 열적 파라미터(상층 상당온위, ENSO, 상층온도, 중층 상대습도)로 구성되어졌다. 예측인자의 특성에 따라 일곱개의 인공신경망 모델들이 개발되었으며, CLIPER와 열적 파라미터가 조합된(CLIPER-THERM) 모델이 가장 좋은 예측성능을 보였다. 이 CLIPER-THERM 모델은 강도 및 진로 모두에서 동절기보다 하절기에 더 나은 예측성능을 나타내었다. 또한 태풍의 발생이 아열대 서태평양의 남동쪽에 위치할수록 강도예측에서는 큰 오차를 보였고, 진로예측에서는 아열대 서태평양의 북서쪽에서 발생할수록 큰 오차를 보였다. 이후 인공신경망 모델의 예측성능을 검증하기 위해 같은 예측인자들을 이용하여 다중선형회귀모델을 개발하였으며, 결과로서 비선형 통계기법인 인공신경망 모델이 다중선형회귀모형보다는 더 나은 예측성능을 보였다.
최기선,김백조,변희룡 한국지구과학회 2008 韓國地球科學會誌 Vol.29 No.5
The relationship between two interannual climate variabilities and the frequency of tropical cyclone (TC) that landed over the Korean Peninsula (KP) has investigated for the period of 1951-2004. In the analysis of the relationship between KP-landfall TC frequency and the ENSO phase, most TCs of C-14 (TCs that do not pass through mainland China before landing the KP) and C-23 (TCs that pass through mainland China before landing the KP) tended to more land in the warm phase than normal and cold phases. However, TC intensity at landfall was stronger in the cold and normal phases. In the analysis of the relationship between KP-landfall TC frequency and Arctic Oscillation (AO) phase, the TCs of C-14 tended to more land in the positive (POS) phase of AO and the negative (NEG) phase of AO for C-23. It was found that AO index was negatively correlated with the Niño-3.4 index. And then the TCs of C-14 landed more frequently over the KP in the AO POS - Niño-3.4 NEG phases and in the AO NEG - Niño-3.4 POS phases for the TCs of C-23.
우리나라 광주에서의 4월 평균 강수량에 대한 장기변동성 분석
최기선,김백조,김정윤,박기준,안숙희 건국대학교 기후연구소 2014 기후연구 Vol.9 No.3
We found that, in 1984, there was a climate regime shift in April mean precipitation in Gwangju of Jeollanam-do province, Korea using a statistical change-point analysis. During the period of post-1984(1985-2013), the April mean precipitation in the years post-1984 showed a distinct decrease, compared to the pre-1984 period(1954-1984). This regime shift was also observed in China and Japan, excluding southern China. One of the major causes for the decreasing April mean precipitation during the recent three decades was the increased snow depth in the mid-latitude regions of continental East Asia. The increased snow depth resulted in strengthened cold and dry anticyclone anomaly over continental East Asia and a relatively weakened subtropical anticyclone anomaly over the western North Pacific. The anomalous synoptic conditious supported a continuation of the typical winter pressure pattern of ‘high-West and low-East’ over East Asia in April. The intensified northerly winds from this zonal pressure pattern anomaly played a significant role in restricting the northern movement of the subtropical anticyclone and there by preventing the inflow of warm and humid air into Korea.