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호우 영향예보를 위한 머신러닝 기반의 수문학적 정량강우예측(HQPF) 최적화 방안 KCI 등재

Optimizing Hydrological Quantitative Precipitation Forecast (HQPF) based on Machine Learning for Rainfall Impact Forecasting

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한국환경과학회지 (Journal of Environmental Science International)
한국환경과학회 (The Korean Environmental Sciences Society)
초록

In this study, the prediction technology of Hydrological Quantitative Precipitation Forecast (HQPF) was improved by optimizing the weather predictors used as input data for machine learning. Results comparison was conducted using bias and Root Mean Square Error (RMSE), which are predictive accuracy verification indicators, based on the heavy rain case on August 21, 2021. By comparing the rainfall simulated using the improved HQPF and the observed accumulated rainfall, it was revealed that all HQPFs (conventional HQPF and improved HQPF 1 and HQPF 2) showed a decrease in rainfall as the lead time increased for the entire grid region. Hence, the difference from the observed rainfall increased. In the accumulated rainfall evaluation due to the reduction of input factors, compared to the existing HQPF, improved HQPF 1 and 2 predicted a larger accumulated rainfall. Furthermore, HQPF 2 used the lowest number of input factors and simulated more accumulated rainfall than that projected by conventional HQPF and HQPF 1. By improving the performance of conventional machine learning despite using lesser variables, the preprocessing period and model execution time can be reduced, thereby contributing to model optimization. As an additional advanced method of HQPF 1 and 2 mentioned above, a simulated analysis of the Local ENsemble prediction System (LENS) ensemble member and low pressure, one of the observed meteorological factors, was analyzed. Based on the results of this study, if we select for the positively performing ensemble members based on the heavy rain characteristics of Korea or apply additional weights differently for each ensemble member, the prediction accuracy is expected to increase.

목차
Abstract
1. 서 론
2. 연구자료 및 방법
    2.1. 연구자료
    2.2. 머신러닝
    2.3. 호우 사례 및 연구지역 선정
    2.4. 검증지표 및 방법
3. 결과 및 고찰
    3.1. 예측인자 변경에 따른 누적 강우량 및 통계적 오차분석
    3.2. LENS 앙상블별 기상특성 파악
4. 결 론
REFERENCES
저자
  • 이한수((주)에코브레인) | Han-Su Lee (ECOBRAIN Co. Ltd.)
  • 지용근((주)에코브레인) | Yongkeun Jee (ECOBRAIN Co. Ltd.) Corresponding author
  • 이영미((주)에코브레인) | Young-Mi Lee (ECOBRAIN Co. Ltd)
  • 김병식(강원대학교 도시 환경방재공학전공) | Byung-Sik Kim (Department of Urban & Environmental Disaster Prevention Engineering, Kangwon National University)