Your search keyword '"Mouche, Alexis"' showing total 25 results

1. Assessment of Ocean Swell Height Observations from Sentinel-1A/B Wave Mode against Buoy In Situ and Modeling Hindcasts

Author

Wang, He, Mouche, Alexis, Husson, Romain, Grouazel, Antoine, Chapron, Bertrand, Yang, Jingsong, Wang, He, Mouche, Alexis, Husson, Romain, Grouazel, Antoine, Chapron, Bertrand, and Yang, Jingsong

Abstract

Synthetic Aperture Radar (SAR) in wave mode is a powerful tool for monitoring sea states in terms of long-period ocean swells of a specific wave directional partition. Since 2016, SARs aboard Sentinel-1A/B operating in wave mode have provided ocean swell spectra dataset as Level-2 Ocean products on a continuous and global basis over open oceans. Furthermore, Level-3 swell products are processed by Copernicus Marine Environment Monitoring Services (CMEMS) taking the benefit of the unique “fireworks” analysis. In this paper, swell wave heights from Sentinel-1A/B wave mode during the period from June 2016 to June 2020 are evaluated. The reference data include the collocated in situ measurements from directional wave buoys and WaveWatch III (WW3) hindcasts. Assessment results show systematic overestimation of approximately 0.2 m in terms of the partitioned swell heights for Sentinel-1A/B Level-2 products compared to the directional buoy observations in eastern Pacific and the western Atlantic. Based on the reliable SAR-WW3 collocations after quality-controls, empirical corrections have been proposed for Sentinel-1 Level-2 swell heights. Independent comparisons against WW3 hindcasts and buoy observations demonstrate the validity of our postprocessing correction for both Level-2 and Level-3 swell heights by eliminating the biases and reducing the root mean square errors. The consistency between CMEMS Level-3 swells and buoy in situ is also examined and discussed by case studies.

Published

2022

2. Semantic Segmentation of Metoceanic Processes Using SAR Observations and Deep Learning

Author

Colin, Aurélien, Fablet, Ronan, Tandeo, Pierre, Husson, Romain, Peureux, Charles, Longépé, Nicolas, Mouche, Alexis, Colin, Aurélien, Fablet, Ronan, Tandeo, Pierre, Husson, Romain, Peureux, Charles, Longépé, Nicolas, and Mouche, Alexis

Abstract

Through the Synthetic Aperture Radar (SAR) embarked on the satellites Sentinel-1A and Sentinel-1B of the Copernicus program, a large quantity of observations is routinely acquired over the oceans. A wide range of features from both oceanic (e.g., biological slicks, icebergs, etc.) and meteorologic origin (e.g., rain cells, wind streaks, etc.) are distinguishable on these acquisitions. This paper studies the semantic segmentation of ten metoceanic processes either in the context of a large quantity of image-level groundtruths (i.e., weakly-supervised framework) or of scarce pixel-level groundtruths (i.e., fully-supervised framework). Our main result is that a fully-supervised model outperforms any tested weakly-supervised algorithm. Adding more segmentation examples in the training set would further increase the precision of the predictions. Trained on 20 × 20 km imagettes acquired from the WV acquisition mode of the Sentinel-1 mission, the model is shown to generalize, under some assumptions, to wide-swath SAR data, which further extents its application domain to coastal areas.

Published

2022

3. Surface Wave Developments under Tropical Cyclone Goni (2020): Multi-Satellite Observations and Parametric Model Comparisons

Author

Yurovskaya, Maria, Kudryavtsev, Vladimir, Mironov, Alexey, Mouche, Alexis, Collard, Fabrice, Chapron, Bertrand, Yurovskaya, Maria, Kudryavtsev, Vladimir, Mironov, Alexey, Mouche, Alexis, Collard, Fabrice, and Chapron, Bertrand

Abstract

Simple Summary Multi-satellite observations to jointly analyze extreme surface wind and wave properties can now be readily obtained to study tropical cyclone (TC) events. Developing over the Philippine Sea, TC Goni was one of the most powerful TCs in 2020. Constrained by Sentinel-1/RadarSat-2 SAR and CFOSAT SCAT satellite data, wind field in the intense TC region is reconstructed. Significant wave height measurements are further obtained from altimeters on-board the CFOSAT, Jason-3, and Sentinel-3A, B satellites. The directional wave spectrum information can be derived from the CFOSAT SWIM off-nadir radar measurements. Using a simplified 2D parametric model and derived self-similar analytical solutions, the measured surface wave amplification in the right-hand TC sector, relative to its propagation direction, is well captured and interpreted. For TC Goni, observed and predicted waves reach 8 m and wavelengths larger than 200 m, leaving the TC inner region in the forward and forward-left direction. In the far TC zone, swell attenuates and superposes with wind waves, not necessarily aligned, to give observed significant wave height values. Multi-satellite data together with simplified parametric model outputs open new perspectives to more precisely study and predict surface waves generated by moving and rapidly evolving TCs for different scientific and practical purposes. Abstract Over the Philippine Sea, the tropical cyclone (TC) Goni reaches category 5 on 29–31 October 2020. Multi-satellite observations, including CFOSAT SWIM/SCAT and Sentinel-1 SAR data, are jointly analyzed to assess the performances of a parametric model. Recently developed to provide a fast estimation of surface wave developments under rapidly evolving TCs, this full 2D parametric model (KYCM) and its simplified self-similar solutions (TC-wave geophysical model function (TCW GMF)) are thoroughly compared with satellite observations. TCW GMF provides immediate first-guess estimates, at any locati

Published

2022

4. Surface Wave Developments under Tropical Cyclone Goni (2020): Multi-Satellite Observations and Parametric Model Comparisons

Author

Yurovskaya, Maria, primary, Kudryavtsev, Vladimir, additional, Mironov, Alexey, additional, Mouche, Alexis, additional, Collard, Fabrice, additional, and Chapron, Bertrand, additional

Published

2022

5. Assessment of Ocean Swell Height Observations from Sentinel-1A/B Wave Mode against Buoy In Situ and Modeling Hindcasts

Author

Wang, He, primary, Mouche, Alexis, additional, Husson, Romain, additional, Grouazel, Antoine, additional, Chapron, Bertrand, additional, and Yang, Jingsong, additional

Published

2022

6. Semantic Segmentation of Metoceanic Processes Using SAR Observations and Deep Learning

Author

Colin, Aurélien, primary, Fablet, Ronan, additional, Tandeo, Pierre, additional, Husson, Romain, additional, Peureux, Charles, additional, Longépé, Nicolas, additional, and Mouche, Alexis, additional

Published

2022

7. Automated Rain Detection by Dual-Polarization Sentinel-1 Data

Author

Zhao, Yuan, Longépé, Nicolas, Mouche, Alexis, and Husson, Romain

Subjects

sea surface winds, Computer Science::Graphics, rain signatures, Science, rain rate, Physics::Atmospheric and Oceanic Physics, Physics::Geophysics, SAR

Abstract

Rain Signatures on C-band Synthetic Aperture Radar (SAR) images acquired over ocean are common and can dominate the backscattered signal from the ocean surface. In many cases, the inability to decipher between ocean and rain signatures can disturb the analysis of SAR scenes for maritime applications. This study relies on Sentinel-1 SAR acquisitions in the Interferometric Wide swath mode and high-resolution measurements from ground-based weather radar to document the rain impact on the radar backscattered signal in both co- and cross-polarization channels. The dark and bright rain signatures are found in connection with the timeliness of the rain cells. In particular, the bright patches are demonstrated by the hydrometeors (graupels, hails) in the melting layer. In general, the radar backscatter under rain increases with rain rate for a given sea state and decreases when the sea state strengthens. The rain also has a stronger impact on the radar signal in both polarizations when the incidence angle increases. The complementary sensitivity of the SAR signal of rain in both channels is then used to derive a filter to locate the areas in SAR scenes where the signal is not dominated by rain. The filter optimized to match the rain observed by the ground-based weather radar is more efficient when both polarization channels are considered. Case studies are presented to discuss the advantages and limitations of such a filtering approach.

Published

2021

8. Impact of Tropical Cyclones on Inhabited Areas of the SWIO Basin at Present and Future Horizons. Part 1: Overview and Observing Component of the Research Project RENOVRISK-CYCLONE

Author

Bousquet, Olivier, Barruol, Guilhem, Cordier, Emmanuel, Barthe, Christelle, Bielli, Soline, Calmer, Radiance, Rindraharisaona, Elisa, Roberts, Gregory, Tulet, Pierre, Amelie, Vincent, Fleischer-dogley, Frauke, Mavume, Alberto, Zucule, Jonas, Zakariasy, Lova, Razafindradina, Bruno, Bonnardot, François, Singh, Manvendra, Lees, Edouard, Durand, Jonathan, Mekies, Dominique, Claeys, Marine, Pianezze, Joris, Thompson, Callum, Tsai, Chia-lun, Husson, Romain, Mouche, Alexis, Ciccione, Stephane, Cattiaux, Julien, Chauvin, Fabrice, Marquestaut, Nicolas, Bousquet, Olivier, Barruol, Guilhem, Cordier, Emmanuel, Barthe, Christelle, Bielli, Soline, Calmer, Radiance, Rindraharisaona, Elisa, Roberts, Gregory, Tulet, Pierre, Amelie, Vincent, Fleischer-dogley, Frauke, Mavume, Alberto, Zucule, Jonas, Zakariasy, Lova, Razafindradina, Bruno, Bonnardot, François, Singh, Manvendra, Lees, Edouard, Durand, Jonathan, Mekies, Dominique, Claeys, Marine, Pianezze, Joris, Thompson, Callum, Tsai, Chia-lun, Husson, Romain, Mouche, Alexis, Ciccione, Stephane, Cattiaux, Julien, Chauvin, Fabrice, and Marquestaut, Nicolas

Abstract

The international research program “ReNovRisk-CYCLONE” (RNR-CYC, 2017–2021) directly involves 20 partners from 5 countries of the south-west Indian-Ocean. It aims at improving the observation and modelling of tropical cyclones in the south-west Indian Ocean, as well as to foster regional cooperation and improve public policies adapted to present and future tropical cyclones risk in this cyclonic basin. This paper describes the structure and main objectives of this ambitious research project, with emphasis on its observing components, which allowed integrating numbers of innovative atmospheric and oceanic observations (sea-turtle borne and seismic data, unmanned airborne system, ocean gliders), as well as combining standard and original methods (radiosoundings and global navigation satellite system (GNSS) atmospheric soundings, seismic and in-situ swell sampling, drone and satellite imaging) to support research on tropical cyclones from the local to the basin-scale.

Published

2021

9. Indian Ocean Crossing Swells: New Insights from “Fireworks” Perspective Using Envisat Advanced Synthetic Aperture Radar

Author

Wang, He, Mouche, Alexis, Husson, Romain, Chapron, Bertrand, Wang, He, Mouche, Alexis, Husson, Romain, and Chapron, Bertrand

Abstract

Synthetic Aperture Radar (SAR) in wave mode is a powerful sensor for monitoring the swells propagating across ocean basins. Here, we investigate crossing swells in the Indian Ocean using 10-years Envisat SAR wave mode archive spanning from December 2003 to April 2012. Taking the benefit of the unique "fireworks" analysis on SAR observations, we reconstruct the origins and propagating routes that are associated with crossing swell pools in the Indian Ocean. Besides, three different crossing swell mechanisms are discriminated from space by the comparative analysis between results from "fireworks" and original SAR data: (1) in the mid-ocean basin of the Indian Ocean, two remote southern swells form the crossing swell; (2) wave-current interaction; and, (3) co-existence of remote Southern swell and shamal swell contribute to the crossing swells in the Agulhas Current region and the Arabian Sea.

Published

2021

10. Impact of Tropical Cyclones on Inhabited Areas of the SWIO Basin at Present and Future Horizons. Part 2: Modeling Component of the Research Program RENOVRISK-CYCLONE

Author

Barthe, Christelle, Bousquet, Olivier, Bielli, Soline, Tulet, Pierre, Pianezze, Joris, Claeys, Marine, Tsai, Chia-lun, Thompson, Callum, Bonnardot, François, Chauvin, Fabrice, Cattiaux, Julien, Bouin, Marie-noëlle, Amelie, Vincent, Barruol, Guilhem, Calmer, Radiance, Ciccione, Stéphane, Cordier, Emmanuel, Duong, Quoc-phi, Durand, Jonathan, Fleischer-dogley, Frauke, Husson, Romain, Lees, Edouard, Malardel, Sylvie, Marquestaut, Nicolas, Mavume, Alberto, Mékiès, Dominique, Mouche, Alexis, Ravoson, Navalona Manitriniana, Razafindradina, Bruno, Rindraharisaona, Elisa, Roberts, Gregory, Singh, Manvendra, Zakariasy, Lova, Zucule, Jonas, Barthe, Christelle, Bousquet, Olivier, Bielli, Soline, Tulet, Pierre, Pianezze, Joris, Claeys, Marine, Tsai, Chia-lun, Thompson, Callum, Bonnardot, François, Chauvin, Fabrice, Cattiaux, Julien, Bouin, Marie-noëlle, Amelie, Vincent, Barruol, Guilhem, Calmer, Radiance, Ciccione, Stéphane, Cordier, Emmanuel, Duong, Quoc-phi, Durand, Jonathan, Fleischer-dogley, Frauke, Husson, Romain, Lees, Edouard, Malardel, Sylvie, Marquestaut, Nicolas, Mavume, Alberto, Mékiès, Dominique, Mouche, Alexis, Ravoson, Navalona Manitriniana, Razafindradina, Bruno, Rindraharisaona, Elisa, Roberts, Gregory, Singh, Manvendra, Zakariasy, Lova, and Zucule, Jonas

Abstract

The ReNovRisk-Cyclone program aimed at developing an observation network in the south-west Indian ocean (SWIO) in close synergy with the implementation of numerical tools to model and analyze the impacts of tropical cyclones (TC) in the present and in a context of climate change. This paper addresses the modeling part of the program. First, a unique coupled system to simulate TCs in the SWIO is developed. The ocean–wave–atmosphere coupling is considered along with a coherent coupling between sea surface state, wind field, aerosol, microphysics, and radiation. This coupled system is illustrated through several simulations of TCs: the impact of air–sea flux parameterizations on the evolution of TC Fantala is examined, the full coupling developed during the program is illustrated on TC Idai, and the potential of novel observations like space-borne synthetic aperture radar and sea turtles to validate the atmosphere and ocean models is presented with TC Herold. Secondly, the evolution of cyclonic activity in the SWIO during the second half of the 21st century is assessed. It was addressed both using climate simulation and through the implementation of a pseudo global warming method in the high-resolution coupled modeling platform. Our results suggest that the Mascarene Archipelago should experience an increase of TC related hazards in the medium term.

Published

2021

11. C-Band SAR Winds for Tropical Cyclone Monitoring and Forecast in the South-West Indian Ocean

Author

Duong, Quoc-phi, Langlade, Sébastien, Payan, Christophe, Husson, Romain, Mouche, Alexis, Malardel, Sylvie, Duong, Quoc-phi, Langlade, Sébastien, Payan, Christophe, Husson, Romain, Mouche, Alexis, and Malardel, Sylvie

Abstract

Tropical cyclone (TC) monitoring and forecast in the South West Indian Ocean (SWIO) basin remain challenging, notably because of the lack of direct observations. During the 2018–2019 cyclone season, S-1 Sentinel SAR images were acquired, as part of the ReNovRisk-Cyclone research program, giving access to unprecedented detailed TC wind structure description without wind speed limitation. This paper assesses the quality of these data and the impact of their assimilation for TC forecasts. SAR observations are compared with analyses from a convection-permitting, limited area model AROME OI 3D-Var and with wind products used for operational TC monitoring. Their bias depends on the angle of incidence of the radar and the observation error is larger for extreme wind speed. The impact of SAR assimilation in AROME OI 3D-Var is assessed through two case studies. In the TC GELENA case, it leads to a better TC positioning and an improved representation of inner and outer vortex structures. The TC intensity reduction in the analysis propagates through subsequent analyses and it has an impact on forecasts for around 12 h. In the TC IDAI case, the 3D-Var does not manage to reproduce TC intensity captured by SAR. In both cases, the modification of the initial conditions has little influence on the intensification rate of the model forecasts. Sensitivity tests show that these results are robust to different observation errors and thinning.

Published

2021

12. Impact of Tropical Cyclones on Inhabited Areas of the SWIO Basin at Present and Future Horizons. Part 2: Modeling Component of the Research Program RENOVRISK-CYCLONE

Author

Barthe, Christelle, primary, Bousquet, Olivier, additional, Bielli, Soline, additional, Tulet, Pierre, additional, Pianezze, Joris, additional, Claeys, Marine, additional, Tsai, Chia-Lun, additional, Thompson, Callum, additional, Bonnardot, François, additional, Chauvin, Fabrice, additional, Cattiaux, Julien, additional, Bouin, Marie-Noëlle, additional, Amelie, Vincent, additional, Barruol, Guilhem, additional, Calmer, Radiance, additional, Ciccione, Stéphane, additional, Cordier, Emmanuel, additional, Duong, Quoc-Phi, additional, Durand, Jonathan, additional, Fleischer-Dogley, Frauke, additional, Husson, Romain, additional, Lees, Edouard, additional, Malardel, Sylvie, additional, Marquestaut, Nicolas, additional, Mavume, Alberto, additional, Mékiès, Dominique, additional, Mouche, Alexis, additional, Ravoson, Navalona Manitriniana, additional, Razafindradina, Bruno, additional, Rindraharisaona, Elisa, additional, Roberts, Gregory, additional, Singh, Manvendra, additional, Zakariasy, Lova, additional, and Zucule, Jonas, additional

Published

2021

13. C-Band SAR Winds for Tropical Cyclone Monitoring and Forecast in the South-West Indian Ocean

Author

Duong, Quoc-Phi, primary, Langlade, Sébastien, additional, Payan, Christophe, additional, Husson, Romain, additional, Mouche, Alexis, additional, and Malardel, Sylvie, additional

Published

2021

14. Impact of Tropical Cyclones on Inhabited Areas of the SWIO Basin at Present and Future Horizons. Part 1: Overview and Observing Component of the Research Project RENOVRISK-CYCLONE

Author

Bousquet, Olivier, primary, Barruol, Guilhem, additional, Cordier, Emmanuel, additional, Barthe, Christelle, additional, Bielli, Soline, additional, Calmer, Radiance, additional, Rindraharisaona, Elisa, additional, Roberts, Gregory, additional, Tulet, Pierre, additional, Amelie, Vincent, additional, Fleischer-Dogley, Frauke, additional, Mavume, Alberto, additional, Zucule, Jonas, additional, Zakariasy, Lova, additional, Razafindradina, Bruno, additional, Bonnardot, François, additional, Singh, Manvendra, additional, Lees, Edouard, additional, Durand, Jonathan, additional, Mekies, Dominique, additional, Claeys, Marine, additional, Pianezze, Joris, additional, Thompson, Callum, additional, Tsai, Chia-Lun, additional, Husson, Romain, additional, Mouche, Alexis, additional, Ciccione, Stephane, additional, Cattiaux, Julien, additional, Chauvin, Fabrice, additional, and Marquestaut, Nicolas, additional

Published

2021

15. Indian Ocean Crossing Swells: New Insights from “Fireworks” Perspective Using Envisat Advanced Synthetic Aperture Radar

Author

Wang, He, primary, Mouche, Alexis, additional, Husson, Romain, additional, and Chapron, Bertrand, additional

Published

2021

16. On C-Band Quad-Polarized Synthetic Aperture Radar Properties of Ocean Surface Currents

Author

Fan, Shengren, Kudryavtsev, Vladimir, Zhang, Biao, Perrie, William, Chapron, Bertrand, Mouche, Alexis, Fan, Shengren, Kudryavtsev, Vladimir, Zhang, Biao, Perrie, William, Chapron, Bertrand, and Mouche, Alexis

Abstract

We present new results for ocean surface current signatures in dual co- and cross-polarized synthetic aperture radar (SAR) images. C-band RADARSAT-2 quad-polarized SAR ocean scenes are decomposed into resonant Bragg scattering from regular (non-breaking) surface waves and scattering from breaking waves. Surface current signatures in dual co- and cross-polarized SAR images are confirmed to be governed by the modulations due to wave breaking. Due to their small relaxation scale, short Bragg waves are almost insensitive to surface currents. Remarkably, the contrast in sensitivity of the non-polarized contribution to dual co-polarized signals is found to largely exceed, by a factor of about 3, the contrast in sensitivity of the corresponding cross-polarized signals. A possible reason for this result is the co- and cross-polarized distinct scattering mechanisms from breaking waves: for the former, quasi-specular radar returns are dominant, whereas for the latter, quasi-resonant scattering from the rough breaking crests governs the backscatter intensity. Thus, the differing sensitivity can be related to distinct spectral intervals of breaking waves contributing to co- and cross-polarized scattering in the presence of surface currents. Accordingly, routinely observed current signatures in quad-polarized SAR images essentially originate from wave breaking modulations, and polarized contrasts can therefore help quantitatively retrieve the strength of surface current gradients

Published

2019

17. On C-Band Quad-Polarized Synthetic Aperture Radar Properties of Ocean Surface Currents

Author

Fan, Shengren, primary, Kudryavtsev, Vladimir, additional, Zhang, Biao, additional, Perrie, William, additional, Chapron, Bertrand, additional, and Mouche, Alexis, additional

Published

2019

18. Preliminary Analysis of Chinese GF-3 SAR Quad-Polarization Measurements to Extract Winds in Each Polarization

Author

Ren, Lin, Yang, Jingsong, Mouche, Alexis, Wang, He, Wang, Juan, Zheng, Gang, Zhang, Huaguo, Ren, Lin, Yang, Jingsong, Mouche, Alexis, Wang, He, Wang, Juan, Zheng, Gang, and Zhang, Huaguo

Abstract

This study analyzed the noise equivalent sigma zero (NESZ) and ocean wind sensitivity for Chinese C-band Gaofen-3 (GF-3) quad-polarization synthetic aperture radar (SAR) measurements to facilitate further operational wind extraction from GF-3 data. Data from the GF-3 quad-polarization SAR and collocated winds from both NOAA/NCEP Global Forecast System (GFS) atmospheric model and National Data Buoy Center (NDBC) buoys were used in the analysis. For NESZ, the co-polarization was slightly higher compared to the cross-polarization. Regarding co-polarization and cross-polarization, NESZ was close to RadarSAT-2 and Sentinel-1 A. Wind sensitivity was analyzed by evaluating the dependence on winds in terms of normalized radar cross-sections (NRCS) and polarization combinations. The closest geophysical model function (GMF) and the polarization ratio (PR) model to GF-3 data were determined by comparing data and the model results. The dependence of co-polarized NRCS on wind speed and azimuth angle was consistent with the proposed GMF models. The combination of CMOD5 and CMOD5.N was considered to be the closest GMF in co-polarization. The cross-polarized NRCS exhibited a strong linear relationship with moderate wind speeds higher than 4 ms-1, but a weak correlation with the azimuth angle. The proposed model was considered as the closest GMF in cross-polarization. For polarization combinations, PR and polarization difference (PD) were considered. PR increased only with the incidence angle, whereas PD increased with wind speed and varied with azimuth angle. There were three very close PR models and each can be considered as the closest. Preliminary results indicate that GF-3 quad-polarization data are valid and have the ability to extract winds in each polarization.

Published

2017

19. GF-3 SAR Ocean Wind Retrieval: The First View and Preliminary Assessment

Author

Wang, He, Yang, Jingsong, Mouche, Alexis, Shao, Weizeng, Zhu, Jianhua, Ren, Lin, Xie, Chunhua, Wang, He, Yang, Jingsong, Mouche, Alexis, Shao, Weizeng, Zhu, Jianhua, Ren, Lin, and Xie, Chunhua

Abstract

Gaofen-3 (GF-3) is the first Chinese civil C-band synthetic aperture radar (SAR) launched on 10 August 2016 by the China Academy of Space Technology (CAST), which operates in 12 imaging modes with a fine spatial resolution up to 1 m. As one of the primary users, the State Oceanic Administration (SOA) operationally processes GF-3 SAR Level-1 products into ocean surface wind vector and plans to officially release the near real-time SAR wind products in the near future. In this paper, the methodology of wind retrieval at C-band SAR is introduced and the first results of GF-3 SAR-derived winds are presented. In particular, the case of the coastal katabatic wind off the west coast of the U.S. captured by GF-3 is discussed. The preliminary accuracy assessment of wind speed and direction retrievals from GF-3 SAR is carried out against in situ measurements from National Data Buoy Center (NDBC) buoy measurements of National Oceanic and Atmospheric Administration (NOAA). Only the buoys located inside the GF-3 SAR wind cell (1 km) were considered as co-located in space, while the time interval between observations of SAR and buoy was limited to less the 30 min. These criteria yielded 56 co-locations during the period from January to April 2017, showing the Root Mean Square Error (RMSE) of 2.46 m/s and 22.22 degrees for wind speed and direction, respectively. Different performances due to geophysical model function (GMF) and Polarization Ratio (PR) are discussed. The preliminary results indicate that GF-3 wind retrievals are encouraging for operational implementation.

Published

2017

20. Ku-Band Sea Surface Radar Backscatter at Low Incidence Angles under Extreme Wind Conditions

Author

Li, Xiuzhong, Zhang, Biao, Mouche, Alexis, He, Yijun, Perrie, William, Li, Xiuzhong, Zhang, Biao, Mouche, Alexis, He, Yijun, and Perrie, William

Abstract

This paper reports Ku-band normalized radar cross section (NRCS) at low incidence angles ranging from 0° to 18° and in the wind speed range from 6 to 70 m/s. The precipitation radar onboard the tropical rainfall measuring mission and Jason-1 and 2 have provided 152 hurricanes observations between 2008 and 2013 that were collocated with stepped-frequency microwave radiometer measurements. It is found that the NRCS decreases with increasing incidence angle. The decrease is more dramatic in the 40–70 m/s range of wind speeds than in the 6–20 m/s range, indicating that the NRCS is very sensitive to low incidence angles under extreme wind conditions and insensitive to the extreme wind speed. Consequently, the sea surface appears relatively “smooth” to Ku-band electromagnetic microwaves. This phenomenon validates the observed drag coefficient reduction under extreme wind conditions, from a remote sensing viewpoint. Using the NRCS dependence on incidence angle under extreme wind conditions, we also present an empirical linear relationship between NRCS and incidence angles, which may assist future-satellites missions operating at small incidence angles to measure sea surface wind and wave field.

Published

2017

21. Limitation of SAR Quasi-Linear Inversion Data on Swell Climate: An Example of Global Crossing Swells

Author

Jiang, Haoyu, Mouche, Alexis, Wang, He, Babanin, Alexander V., Chapron, Bertrand, Chen, Ge, Jiang, Haoyu, Mouche, Alexis, Wang, He, Babanin, Alexander V., Chapron, Bertrand, and Chen, Ge

Abstract

Numerical wave models are powerful tools for investigating global wave climate. Here a global wave hindcast is employed to estimate the global pattern of crossing swells. However, the global patterns of crossing swells derived from the model are different from those derived from the synthetic aperture radar (SAR) wave mode products of quasi-linear inversion, indicating one of them is questionable. The comparison shows that the first two most energetic swells inversed by SAR are often not in accordance with the first two most energetic swells in the model, and this will have a large impact on the statistics of the data. Before this problem is solved, SAR wave products of quasi-linear inversion should be treated with care in wave climate studies.

Published

2017

22. Preliminary Analysis of Chinese GF-3 SAR Quad-Polarization Measurements to Extract Winds in Each Polarization

Author

Ren, Lin, primary, Yang, Jingsong, additional, Mouche, Alexis, additional, Wang, He, additional, Wang, Juan, additional, Zheng, Gang, additional, and Zhang, Huaguo, additional

Published

2017

23. GF-3 SAR Ocean Wind Retrieval: The First View and Preliminary Assessment

Author

Wang, He, primary, Yang, Jingsong, additional, Mouche, Alexis, additional, Shao, Weizeng, additional, Zhu, Jianhua, additional, Ren, Lin, additional, and Xie, Chunhua, additional

Published

2017

24. Ku-Band Sea Surface Radar Backscatter at Low Incidence Angles under Extreme Wind Conditions

Author

Li, Xiuzhong, primary, Zhang, Biao, additional, Mouche, Alexis, additional, He, Yijun, additional, and Perrie, William, additional

Published

2017

25. Limitation of SAR Quasi-Linear Inversion Data on Swell Climate: An Example of Global Crossing Swells

Author

Jiang, Haoyu, primary, Mouche, Alexis, additional, Wang, He, additional, Babanin, Alexander, additional, Chapron, Bertrand, additional, and Chen, Ge, additional

Published

2017