Advanced Machine Learning Methods for Major Hurricane Forecasting

被引：5

作者：

Martinez-Amaya, Javier ^{[1
]}

Radin, Cristina ^{[1
]}

Nieves, Veronica ^{[1
]}

机构：

[1] Univ Valencia, Image Proc Lab, Valencia 46980, Spain

来源：

REMOTE SENSING | 2023年 / 15卷 / 01期

关键词：

tropical cyclones; severe hurricanes; rapid intensification; machine learning; hybrid modeling; forecasting; remote sensing; TROPICAL CYCLONE SIZE; INTENSITY; INTENSIFICATION; PREDICTION; TRACK; CLIMATOLOGY; IMPACT; ERRORS; MODEL;

D O I：

10.3390/rs15010119

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

Hurricanes, rapidly increasing in complexity and strength in a warmer world, are one of the worst natural disasters in the 21st century. Further studies integrating the changing hurricane features are thus crucial to aid in the prediction of major hurricanes. With this in mind, we present a new framework based on automated decision tree analysis, which has the capability to identify the most important cloud structural parameters from GOES imagery as predictors for hurricane intensification potential in the Atlantic and Pacific oceans. The proposed framework has been proved effective for predicting major hurricanes with an overall accuracy of 73% from 6 to 54 h in advance (both regions combined).

引用

页数：15

共 55 条

[21] The Use of the Deviation Angle Variance Technique on Geostationary Satellite Imagery to Estimate Tropical Cyclone Size Parameters
Dolling, Klaus
Ritchie, Elizabeth A.
Tyo, J. Scott
[J]. WEATHER AND FORECASTING, 2016, 31 (05) : 1625 - 1642
[22] Scientific Prerequisites to Comprehension of the Tropical Cyclone Forecast: Intensity, Track, and Size
Drake, Lori
[J]. WEATHER AND FORECASTING, 2012, 27 (02) : 462 - 472
[23] Climatology of developing and nondeveloping disturbances for tropical cyclone genesis over the western North Pacific
Gu, Yaru
Wu, Liang
Zhan, Ruifen
Wen, Zhiping
[J]. TERRESTRIAL ATMOSPHERIC AND OCEANIC SCIENCES, 2022, 33 (01):
[24] Tropical cyclone fullness: A new concept for interpreting storm intensity
Guo, Xi
Tan, Zhe-Min
[J]. GEOPHYSICAL RESEARCH LETTERS, 2017, 44 (09) : 4324 - 4331
[25] Gupta U, 2016, 2016 IEEE INTERNATIONAL CONFERENCE ON BIG DATA (BIG DATA), P2646, DOI 10.1109/BigData.2016.7840907
[26] Predicting extreme events from data using deep machine learning: When and where
Jiang, Junjie
Huang, Zi-Gang
Grebogi, Celso
Lai, Ying-Cheng
[J]. PHYSICAL REVIEW RESEARCH, 2022, 4 (02):
[27] On the growth of intensity forecast errors in the operational hurricane weather research and forecasting (HWRF) model
Kieu, Chanh
Keshavamurthy, Kushal
Tallapragada, Vijay
Gopalakrishnan, Sundararaman
Trahan, Samuel
[J]. QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY, 2018, 144 (715) : 1803 - 1819
[28] Decision-Tree-Based Classification of Lifetime Maximum Intensity of Tropical Cyclones in the Tropical Western North Pacific
Kim, Sung-Hun
Moon, Il-Ju
Won, Seong-Hee
Kang, Hyoun-Woo
Kang, Sok Kuh
[J]. ATMOSPHERE, 2021, 12 (07)
[29] Tropical cyclone intensification trends during satellite era (1986-2010)
Kishtawal, C. M.
Jaiswal, Neeru
Singh, Randhir
Niyogi, D.
[J]. GEOPHYSICAL RESEARCH LETTERS, 2012, 39
[30] An Objective Satellite-Based Tropical Cyclone Size Climatology
Knaff, John A.
Longmore, Scott P.
Molenar, Debra A.
[J]. JOURNAL OF CLIMATE, 2014, 27 (01) : 455 - 476

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