24.8.6.9.1 Wind Fields, Cyclone, Hurricane, Typhoon Wind Fields

Tang, R.H.[Ruo-Han], Liu, D.Y.[De-You], Han, G.Q.[Guo-Qi], Ma, Z.M.[Zhi-Min], de Young, B.[Brad],
Reconstructed Wind Fields from Multi-Satellite Observations,
RS(6), No. 4, 2014, pp. 2898-2911.
DOI Link 1405
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Duan, B.H.[Bo-Heng], Zhang, W.M.[Wei-Min], Yang, X.F.[Xiao-Feng], Dai, H.J.[Hai-Jin], Yu, Y.[Yi],
Assimilation of Typhoon Wind Field Retrieved from Scatterometer and SAR Based on the Huber Norm Quality Control,
RS(9), No. 10, 2017, pp. xx-yy.
DOI Link 1711
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Xie, J., Yao, G., Sun, M., Ji, Z.,
Measuring Ocean Surface Wind Field Using Shipborne High-Frequency Surface Wave Radar,
GeoRS(56), No. 6, June 2018, pp. 3383-3397.
IEEE DOI 1806
Doppler effect, Radar, Sea measurements, Sea surface, Surface waves, Wind speed, Doppler spectrum BibRef

Zhang, J.A.[Jun A.], Atlas, R.[Robert], Emmitt, G.D.[G. David], Bucci, L.[Lisa], Ryan, K.[Kelly],
Airborne Doppler Wind Lidar Observations of the Tropical Cyclone Boundary Layer,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
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Krien, Y.[Yann], Arnaud, G.[Gaël], Cécé, R.[Raphaël], Ruf, C.[Chris], Belmadani, A.[Ali], Khan, J.[Jamal], Bernard, D.[Didier], Islam, A.K.M.S., Durand, F.[Fabien], Testut, L.[Laurent], Palany, P.[Philippe], Zahibo, N.[Narcisse],
Can We Improve Parametric Cyclonic Wind Fields Using Recent Satellite Remote Sensing Data?,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
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Huang, F., Garrison, J.L., Rodriguez-Alvarez, N., O'Brien, A.J., Schoenfeldt, K.M., Ho, S.C., Zhang, H.,
Sequential Processing of GNSS-R Delay-Doppler Maps to Estimate the Ocean Surface Wind Field,
GeoRS(57), No. 12, December 2019, pp. 10202-10217.
IEEE DOI 1912
Sea surface, Covariance matrices, Surface treatment, Wind speed, Global navigation satellite system, Delays, reflectometry BibRef

Migliaccio, M., Huang, L., Buono, A.,
SAR Speckle Dependence on Ocean Surface Wind Field,
GeoRS(57), No. 8, August 2019, pp. 5447-5455.
IEEE DOI 1908
oceanographic techniques, synthetic aperture radar, wind, SAR speckle dependence, ocean surface wind field, wind speed BibRef

Xie, M.[Ming], Li, Y.[Ying], Cao, K.[Kai],
Global Cyclone and Anticyclone Detection Model Based on Remotely Sensed Wind Field and Deep Learning,
RS(12), No. 19, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Hu, T.[Tangao], Li, Y.[Yue], Li, Y.[Yao], Wu, Y.[Yiyue], Zhang, D.R.[Deng-Rong],
Retrieval of Sea Surface Wind Fields Using Multi-Source Remote Sensing Data,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
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Wan, Y.[Yong], Guo, S.[Sheng], Li, L.G.[Li-Gang], Qu, X.J.[Xiao-Jun], Dai, Y.S.[Yong-Shou],
Data Quality Evaluation of Sentinel-1 and GF-3 SAR for Wind Field Inversion,
RS(13), No. 18, 2021, pp. xx-yy.
DOI Link 2109
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Sun, Z.Y.[Zi-Yao], Zhang, B.[Biao], Tang, J.[Jie],
Estimating the Key Parameter of a Tropical Cyclone Wind Field Model over the Northwest Pacific Ocean: A Comparison between Neural Networks and Statistical Models,
RS(13), No. 14, 2021, pp. xx-yy.
DOI Link 2107
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Longépé, N.[Nicolas], Mouche, A.A.[Alexis A.], Ferro-Famil, L.[Laurent], Husson, R.[Romain],
Co-Cross-Polarization Coherence Over the Sea Surface From Sentinel-1 SAR Data: Perspectives for Mission Calibration and Wind Field Retrieval,
GeoRS(60), 2022, pp. 1-16.
IEEE DOI 2112
Wind, Synthetic aperture radar, Sea measurements, Spaceborne radar, Sea surface, Radar, Wind speed, Dual-polarization, wind field retrieval BibRef

Graßl, S.[Sandra], Ritter, C.[Christoph], Schulz, A.[Alexander],
The Nature of the Ny-Alesund Wind Field Analysed by High-Resolution Windlidar Data,
RS(14), No. 15, 2022, pp. xx-yy.
DOI Link 2208
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Wan, Y.[Yong], Zhang, X.N.[Xiao-Na], Fan, C.Q.[Chen-Qing], Qu, R.Z.[Ruo-Zhao], Ma, E.[Ennan],
A Joint Method for Wave and Wind Field Parameter Inversion Combining SAR with Wave Spectrometer Data,
RS(14), No. 15, 2022, pp. xx-yy.
DOI Link 2208
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Gao, Y.[Yuan], Zhang, J.[Jie], Sun, J.[Jian], Guan, C.L.[Chang-Long],
Application of SAR Data for Tropical Cyclone Intensity Parameters Retrieval and Symmetric Wind Field Model Development,
RS(13), No. 15, 2021, pp. xx-yy.
DOI Link 2108
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Li, X.H.[Xiao-Hui], Yang, J.S.[Jing-Song], Han, G.Q.[Guo-Qi], Ren, L.[Lin], Zheng, G.[Gang], Chen, P.[Peng], Zhang, H.[Han],
Tropical Cyclone Wind Field Reconstruction and Validation Using Measurements from SFMR and SMAP Radiometer,
RS(14), No. 16, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Shao, W.Z.[Wei-Zeng], Lai, Z.Z.[Zheng-Zhong], Nunziata, F.[Ferdinando], Buono, A.[Andrea], Jiang, X.W.[Xing-Wei], Zuo, J.C.[Jun-Cheng],
Wind Field Retrieval with Rain Correction from Dual-Polarized Sentinel-1 SAR Imagery Collected during Tropical Cyclones,
RS(14), No. 19, 2022, pp. xx-yy.
DOI Link 2210
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Zamparelli, V.[Virginia], de Santi, F.[Francesca], de Carolis, G.[Giacomo], Fornaro, G.[Gianfranco],
SAR Based Sea Surface Complex Wind Fields Estimation: An Analysis over the Northern Adriatic Sea,
RS(15), No. 8, 2023, pp. 2074.
DOI Link 2305
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Du, R.[Rong], Zhang, G.S.[Guo-Sheng], Huang, B.[Bin],
Observed Surface Wind Field Structure of Severe Tropical Cyclones and Associated Precipitation,
RS(15), No. 11, 2023, pp. 2808.
DOI Link 2306
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Liu, J.L.[Jie-Li], Shi, C.X.[Chun-Xiang], Ge, L.L.[Ling-Ling], Tie, R.[Ruian], Chen, X.J.[Xiao-Jian], Zhou, T.[Tao], Gu, X.[Xiang], Shen, Z.F.[Zhan-Fei],
Enhanced Wind Field Spatial Downscaling Method Using UNET Architecture and Dual Cross-Attention Mechanism,
RS(16), No. 11, 2024, pp. 1867.
DOI Link 2406
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Dussol, A.[Abïgaëlle], Chavanne, C.[Cédric],
Estimation of the Wind Field with a Single High-Frequency Radar,
RS(16), No. 13, 2024, pp. 2258.
DOI Link 2407
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Khachatrian, E.[Eduard], Asemann, P.[Patricia],
The Value of Sentinel-1 Ocean Wind Fields Component for the Study of Polar Lows,
RS(16), No. 20, 2024, pp. 3755.
DOI Link 2411
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Zhang, W.[Wei], Wu, Y.P.[Ya-Peng], Fan, K.[Kunkun], Song, X.J.[Xiao-Jiang], Pang, R.[Renbo], Guoan, B.[Boyu],
A Multi-Scale Fusion Deep Learning Approach for Wind Field Retrieval Based on Geostationary Satellite Imagery,
RS(17), No. 4, 2025, pp. 610.
DOI Link 2502
BibRef

Xu, Y.[Yulei], Zhang, K.[Kangyu], Jing, L.W.[Li-Wei], Zhang, B.[Biao], Fan, S.[Shengren], Fang, H.[He],
Ocean Surface Wind Field Retrieval Simultaneously Using SAR Backscatter and Doppler Shift Measurements,
RS(17), No. 10, 2025, pp. 1742.
DOI Link 2505

See also Comprehensive Assessment of Ocean Surface Current Retrievals Using SAR Doppler Shift and Drifting Buoy Observations. BibRef

Zhao, Z.X.[Zheng-Xuan], Pang, F.[Fang], Petropoulos, G.P.[George P.], Bao, Y.S.[Yan-Song], Xiao, Q.[Qing], Wang, Y.Y.[Yuan-Yuan], Li, S.Q.[Shi-Qi], Gao, W.[Wanyue], Wang, T.H.[Tian-Hao],
Wind Field Retrieval from Fengyun-3E Radar Based on a Backpropagation Neural Network,
RS(17), No. 16, 2025, pp. 2813.
DOI Link 2509
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Bian, H.M.[Hui-Min], Fei, H.Y.[Hai-Yan], Mao, Y.Q.[Yu-Qing], Li, C.[Cong], Shu, A.[Aiqing], Chen, J.J.[Jia-Jun],
Improving the Assimilation of T-TREC-Retrieved Wind Fields with Iterative Smoothing Constraints During Typhoon Linfa,
RS(17), No. 16, 2025, pp. 2821.
DOI Link 2509
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Hu, Y.X.[Yu-Xiang], Deng, K.F.[Ke-Feng], Su, Q.G.[Qing-Guo], Zhang, D.[Di], Shi, X.J.[Xin-Jie], Ren, K.J.[Kai-Jun],
CycloneWind: A Dynamics-Constrained Deep Learning Model for Tropical Cyclone Wind Field Downscaling Using Satellite Observations,
RS(17), No. 18, 2025, pp. 3134.
DOI Link 2510
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Chapter on Cartography, Aerial Images, Buildings, Roads, Terrain, Forests, Trees, ATR continues in
Wind Farms, Wind Power Generation, Impacts, Analysis .