Influence of Swell Wave on Wind Speed Retrieval Using ENVISAT ASAR Wave Mode Imagery

Preliminary Analysis of Wind Retrieval Based on GF-3 Wave Mode Images

10.20944/preprints201804.0223.v2 ◽

2018 ◽

Author(s):

Lei Wang ◽

Bing Han ◽

Xinzhe Yuan ◽

Bin Lei ◽

Chibiao Ding ◽

...

Keyword(s):

Wind Speed ◽

Incidence Angle ◽

Surface Wind ◽

Wave Mode ◽

Azimuth Angle ◽

Calibration Constant ◽

Wind Fields ◽

Wind Retrieval ◽

Geophysical Model ◽

The Cross

In this paper, we analyze the measurements of the normalized radar cross-section(NRCS) in Wave Mode for Chinese C-band Gaofen-3(GF-3) synthetic aperture radar (SAR). Based on 2779 images from GF-3 quad-polarization SAR in Wave Mode and collocated wind vectors from ERA-Interim, we verify the feasibility of using ocean surface wind fields and VV-polarized NRCS to perform normalized calibration. The method uses well-validated empirical C-band geophysical model function (CMOD4) to estimate the calibration constant for each beam. The Amazon rainforest experiment results show that the accuracy of obtained calibration constant meets the requirements. In addition, the relationship between cross-pol NRCS and wind vectors is discussed. The cross-pol NRCS increases linearly with wind speed and it has an approximate cosine modulation with the wind direction when the wind speed is greater than 8m/s. The cross-polarized system noise floor is low enough to ignore it in wind retrieval. Furthermore, we also investigate the properties of the polarization ratio, denoted PR, and show that it is dependent on incidence angle and azimuth angle. Two empirical models of the PR are fitted, one as a function of incidence angle only, the other with additional dependence on azimuth angle. Assessments show that the σ_VV^0 retrieved from new PR models as well as σ_HH^0 is in good agreement with σ_VV^0 extracted from SAR images directly. And it is also shown that considering the azimuth angle can improve polarization conversion accuracy.

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Latent Heat Flux in the Agulhas Current

Remote Sensing ◽

10.3390/rs11131576 ◽

2019 ◽

Vol 11 (13) ◽

pp. 1576 ◽

Cited By ~ 1

Author(s):

Arielle Stela Imbol Nkwinkwa N. ◽

Mathieu Rouault ◽

Johnny A. Johannessen

Keyword(s):

Heat Flux ◽

Wind Speed ◽

Annual Cycle ◽

Current System ◽

Surface Wind ◽

Weather Forecast ◽

Specific Humidity ◽

Medium Range Weather Forecast ◽

Agulhas Current ◽

Medium Range

In-situ observation, climate reanalyses, and satellite remote sensing are used to study the annual cycle of turbulent latent heat flux (LHF) in the Agulhas Current system. We assess if the datasets do represent the intense exchange of moisture that occurs above the Agulhas Current and the Retroflection region, especially the new reanalyses as the former, the National Centers for Environmental Prediction Reanalysis 2 (NCEP2) and the European Centre for Medium-Range Weather Forecast (ECMWF) reanalysis second-generation reanalysis (ERA-40) have lower sea and less distinct surface temperature (SST) in the Agulhas Current system due to their low spatial resolution thus do not adequately represent the Agulhas Current LHF. We use monthly fields of LHF, SST, surface wind speed, saturated specific humidity at the sea surface (Qss), and specific humidity at 10 m (Qa). The Climate Forecast System Reanalysis (CFSR), the European Centre for Medium-Range Weather Forecast fifth generation (ERA-5), and the Modern-Era Retrospective analysis for Research and Applications version-2 (MERRA-2) are similar to the air–sea turbulent fluxes (SEAFLUX) and do represent the signature of the Agulhas Current. ERA-Interim underestimates the LHF due to lower surface wind speeds than other datasets. The observation-based National Oceanography Center Southampton (NOCS) dataset is different from all other datasets. The highest LHF of 250 W/m2 is found in the Retroflection in winter. The lowest LHF (~100 W/m2) is off Port Elizabeth in summer. East of the Agulhas Current, Qss-Qa is the main driver of the amplitude of the annual cycle of LHF, while it is the wind speed in the Retroflection and both Qss-Qa and wind speed in between. The difference in LHF between product are due to differences in Qss-Qa wind speed and resolution of datasets.

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Preliminary Analysis of Wind Retrieval Based on GF-3 Wave Mode Images

10.20944/preprints201804.0223.v4 ◽

2018 ◽

Author(s):

Lei Wang ◽

Bing Han ◽

xinzhe yuan ◽

Bin Lei ◽

Chibiao Ding ◽

...

Keyword(s):

Wind Speed ◽

Incidence Angle ◽

Surface Wind ◽

Wave Mode ◽

Azimuth Angle ◽

Calibration Constant ◽

Wind Fields ◽

Wind Retrieval ◽

Geophysical Model ◽

The Cross

In this paper, we analyze the measurements of the normalized radar cross-section(NRCS) in Wave Mode for Chinese C-band Gaofen-3(GF-3) synthetic aperture radar (SAR). Based on 2779 images from GF-3 quad-polarization SAR in Wave Mode and collocated wind vectors from ERA-Interim, we verify the feasibility of using ocean surface wind fields and VV-polarized NRCS to perform normalized calibration. The method uses well-validated empirical C-band geophysical model function (CMOD4) to estimate the calibration constant for each beam. The Amazon rainforest experiment results show that the accuracy of obtained calibration constant meets the requirements. In addition, the relationship between cross-pol NRCS and wind vectors is discussed. The cross-pol NRCS increases linearly with wind speed and it has an approximate cosine modulation with the wind direction when the wind speed is greater than 8m/s. The cross-polarized system noise floor is low enough to ignore it in wind retrieval. Furthermore, we also investigate the properties of the polarization ratio, denoted PR, and show that it is dependent on incidence angle and azimuth angle. Two empirical models of the PR are fitted, one as a function of incidence angle only, the other with additional dependence on azimuth angle. Assessments show that the σ_VV^0 retrieved from new PR models as well as σ_HH^0 is in good agreement with σ_VV^0 extracted from SAR images directly. And it is also shown that considering the azimuth angle can improve polarization conversion accuracy.

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Preliminary Analysis of Wind Retrieval Based on GF-3 Wave Mode Images

10.20944/preprints201804.0223.v1 ◽

2018 ◽

Author(s):

Lei Wang ◽

Bin Han ◽

Xinzhe Yuan ◽

Bin Lei ◽

Chibiao Ding ◽

...

Keyword(s):

Wind Speed ◽

Incidence Angle ◽

Surface Wind ◽

Wave Mode ◽

Azimuth Angle ◽

Calibration Constant ◽

Wind Fields ◽

Wind Retrieval ◽

Geophysical Model ◽

The Cross

In this paper, we analyze the measurements of the normalized radar cross-section(NRCS) in Wave Mode for Chinese C-band Gaofen-3(GF-3) synthetic aperture radar (SAR). Based on 2779 images from GF-3 quad-polarization SAR in Wave Mode and collocated wind vectors from ERA-Interim, we verify the feasibility of using ocean surface wind fields and VV-polarized NRCS to perform normalized calibration. The method uses well-validated empirical C-band geophysical model function (CMOD4) to estimate the calibration constant for each beam. The Amazon rainforest experiment results show that the accuracy of obtained calibration constant meets the requirements. In addition, the relationship between cross-pol NRCS and wind vectors is discussed. The cross-pol NRCS increases linearly with wind speed and it has an approximate cosine modulation with the wind direction when the wind speed is greater than 8m/s. The cross-polarized system noise floor is low enough to ignore it in wind retrieval. Furthermore, we also investigate the properties of the polarization ratio, denoted PR, and show that it is dependent on incidence angle and azimuth angle. Two empirical models of the PR are fitted, one as a function of incidence angle only, the other with additional dependence on azimuth angle. Assessments show that the σ_VV^0 retrieved from new PR models as well as σ_HH^0 is in good agreement with σ_VV^0 extracted from SAR images directly. And it is also shown that considering the azimuth angle can improve polarization conversion accuracy.

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Typhoon/Hurricane–Generated Wind Waves Inferred from SAR Imagery

Remote Sensing ◽

10.3390/rs10101605 ◽

2018 ◽

Vol 10 (10) ◽

pp. 1605 ◽

Cited By ~ 2

Author(s):

Lei Zhang ◽

Guoqiang Liu ◽

William Perrie ◽

Yijun He ◽

Guosheng Zhang

Keyword(s):

Wind Speed ◽

Wind Wave ◽

Wind Waves ◽

Wave Mode ◽

Parametric Models ◽

Data Sets ◽

Wave Parameters ◽

Limited Function ◽

Sar Imagery ◽

Mean Square Errors

The wide-swath mode of synthetic aperture radar (SAR) is a good way of detecting typhoon/hurricane winds with a cross-polarization mode. However, its ability to detect wind waves is restricted because of its spatial resolution and nonlinear imaging mechanisms. In this study, we use the SAR-retrieved wind speed, Sentinel-1 SAR wave mode and buoy data to examine fetch- and duration-limited parametric models (denoted H-models), to estimate the wave parameters (significant wave height Hs, dominant wave period Tp) generated by hurricanes or typhoons. Three sets of H-models, in total 6 models, are involved: The H-3Sec model simulates the wave parameters in 3 sections of a given storm (right, left and back); H-LUT models, including the H-LUTI model and H-LUTB model, provide a better resolution of the azimuthal estimation of wind waves inside the storm by analyzing the dataset from Bonnie 1998 and Ivan 2004; and the third set of models is called the H-Harm models, which consider the effects of the radius of the maximum wind speed rm on the wave simulation. In the case of typhoon Krovanh, the comparison with wave-mode measurements shows that the duration-limited models underestimate the high values for the wind-wave Hs, while the fetch models’ results are more accurate, especially for the H-LUTI model. By analyzing 86 SAR wave mode images, it is found that the H-LUTI model is the best among the 6 H-models, and can effectively simulate the wind-wave Hs, except in the center area of the typhoon; root mean square errors (rmse) can reach 0.88 m, and the coefficient correlation (R2) is 0.86. The H-Harm models add rm as an additional factor to be considered, but this does not add significant improvement in performance compared to the others. This limitation is probably due to the fact that the data sets used to develop the H-Harm models have only a limited coverage range, with respect to rm. Applying H-models to RADARSAT-2 ScanSAR mode data, we compare the retrieved wave parameters to collected buoy measurements, showing good consistency. The H-LUTI model, using a fetch-limited function, does the best among these 6 H-models, whose rmse and R2 are 0.86 m and 0.77 for Hs, and 1.06 s and 0.76 for Tp, respectively. Results indicate the potential for H-models to simulate waves generated by typhoons/hurricanes.

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VERIFICATION OF MEDIUM RANGE WEATHER FORECAST IN NORTH GUJARAT

International Journal of Research -GRANTHAALAYAH ◽

10.29121/granthaalayah.v6.i1.2018.1598 ◽

2018 ◽

Vol 6 (1) ◽

pp. 102-106

Author(s):

Sevak Das ◽

A. I. Desai

Keyword(s):

Wind Speed ◽

Minimum Temperature ◽

Monsoon Season ◽

Winter Season ◽

Weather Forecast ◽

Maximum Temperature ◽

Medium Range Weather Forecast ◽

Temperature Forecast ◽

Lower Accuracy ◽

Medium Range

The medium range weather forecast issued from NCMRWF, Noida on rainfall, maximum temperature, minimum temperature and wind speed for the last 18 years (1999-2016) has been verified with observed weather parameters recorded at agrometeorological observatory, Sardarkrushinagar to known its accuracy. The results revealed that the usability of rainfall was higher in pre monsoon, post monsoon and winter seasons. However, during monsoon, the accuracy of rainfall forecast was 78 percent with RMSE value of 15.3 that indicated the lower accuracy. The maximum temperature forecast accuracy was very good varied from 76 to 88% in different seasons. Similarly, minimum temperature forecast was excellent in monsoon season (88%), and poor in winter season (57%). The wind speed forecast was excellent in all the seasons.

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Calculating the aerodynamics of vertical axis wind turbines

Vietnam Journal of Mechanics ◽

10.15625/0866-7136/34/3/2358 ◽

2012 ◽

Vol 34 (3) ◽

pp. 169-184 ◽

Cited By ~ 1

Author(s):

Hoang Thi Bich Ngoc

Keyword(s):

Wind Turbine ◽

Incidence Angle ◽

Vertical Axis ◽

Rotor Blades ◽

Vertical Axis Wind Turbine ◽

Horizontal Axis Wind Turbine ◽

Velocity Triangle ◽

Relationship Of ◽

The Relationship

Vertical axis wind turbine technology has been applied last years, very long after horizontal axis wind turbine technology. Aerodynamic problems of vertical axis wind machines are discussible. An important problem is the determination of the incidence law in the interaction between wind and rotor blades. The focus of the work is to establish equations of the incidence depending on the blade azimuth, and to solve them. From these results, aerodynamic torques and power can be calculated. The incidence angle is a parameter of velocity triangle, and both the factors depend not only on the blade azimuth but also on the ratio of rotational speed and horizontal speed. The built computational program allows theoretically selecting the relationship of geometric parameters of wind turbine in accordance with requirements on power, wind speed and installation conditions.

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A Religion of Reason

10.1093/oso/9780198828167.003.0019 ◽

2018 ◽

Author(s):

Frederick C. Beiser

Keyword(s):

Final Section ◽

Philosophy Of Religion ◽

Concept Of God ◽

Main Work ◽

Religion And Ethics ◽

Religion Of Reason ◽

The Relationship

This chapter is an examination of Cohen’s main work on the philosophy of religion, his Religion der Vernunft aus den Quellen des Judentums. Cohen’s religion of reason was an attempt to respond to two opposing conceptions of religion: that of the romantics (Schleiermacher, Fries) and that of the Tübingen school (Baur, Strauβ‎). The romantics saw the essence of religion in feeling, the Tübingen school saw it in myth. Cohen tried to rescue the rational content of religion by interpreting it mainly in ethical terms, which he believed to consist in rational imperatives. Cohen’s concept of God is interpreted in terms of the validity of these ethical imperatives and not in terms of the existence of any entity. One section considers Cohen’s re-examination of the relationship between religion and ethics, which now stresses the distinctive characteristics of religion within ethics. The final section criticizes Rosenzweig’s interpretation of Cohen as a proto-existentialist.

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A Comparison between One-Step and Two-Step Nesting Strategy in the Dynamical Downscaling of Regional Climate Model COSMO-CLM at 2.2 km Driven by ERA5 Reanalysis

Atmosphere ◽

10.3390/atmos12020260 ◽

2021 ◽

Vol 12 (2) ◽

pp. 260

Author(s):

Mario Raffa ◽

Alfredo Reder ◽

Marianna Adinolfi ◽

Paola Mercogliano

Keyword(s):

Regional Climate Model ◽

Climate Model ◽

Dynamical Downscaling ◽

Spatial Scales ◽

Regional Climate ◽

Weather Forecast ◽

Medium Range Weather Forecast ◽

Spatial And Temporal Scales ◽

Starting Point ◽

One Step

Recently, the European Centre for Medium Range Weather Forecast (ECMWF) has released a new generation of reanalysis, acknowledged as ERA5, representing at the present the most plausible picture for the current climate. Although ERA5 enhancements, in some cases, its coarse spatial resolution (~31 km) could still discourage a direct use of precipitation fields. Such a gap could be faced dynamically downscaling ERA5 at convection permitting scale (resolution < 4 km). On this regard, the selection of the most appropriate nesting strategy (direct one-step against nested two-step) represents a pivotal issue for saving time and computational resources. Two questions may be raised within this context: (i) may the dynamical downscaling of ERA5 accurately represents past precipitation patterns? and (ii) at what extent may the direct nesting strategy performances be adequately for this scope? This work addresses these questions evaluating two ERA5-driven experiments at ~2.2 km grid spacing over part of the central Europe, run using the regional climate model COSMO-CLM with different nesting strategies, for the period 2007–2011. Precipitation data are analysed at different temporal and spatial scales with respect to gridded observational datasets (i.e., E-OBS and RADKLIM-RW) and existing reanalysis products (i.e., ERA5-Land and UERRA). The present work demonstrates that the one-step experiment tendentially outperforms the two-step one when there is no spectral nudging, providing results at different spatial and temporal scales in line with the other existing reanalysis products. However, the results can be highly model and event dependent as some different aspects might need to be considered (i.e., the nesting strategies) during the configuration phase of the climate experiments. For this reason, a clear and consolidated recommendation on this topic cannot be stated. Such a level of confidence could be achieved in future works by increasing the number of cities and events analysed. Nevertheless, these promising results represent a starting point for the optimal experimental configuration assessment, in the frame of future climate studies.

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Mass Balance Sensitivity and Future Projections of Rabots Glaciär, Sweden

Climate ◽

10.3390/cli9080126 ◽

2021 ◽

Vol 9 (8) ◽

pp. 126

Author(s):

Moon Taveirne ◽

Laura Ekemar ◽

Berta González Sánchez ◽

Josefine Axelsson ◽

Qiong Zhang

Keyword(s):

Wind Speed ◽

Mass Balance ◽

Climate Scenario ◽

Summer Temperature ◽

Glacier Mass Balance ◽

Northern Sweden ◽

Dramatic Decrease ◽

Future Projections ◽

Modelling Studies ◽

The Relationship

Glacier mass balance is heavily influenced by climate, with responses of individual glaciers to various climate parameters varying greatly. In northern Sweden, Rabots Glaciär’s mass balance has decreased since it started being monitored in 1982. To relate Rabots Glaciär’s mass balance to changes in climate, the sensitivity to a range of parameters is computed. Through linear regression of mass balance with temperature, precipitation, humidity, wind speed and incoming radiation the climate sensitivity is established and projections for future summer mass balance are made. Summer mass balance is primarily sensitive to temperature at −0.31 m w.e. per °C change, while winter mass balance is mainly sensitive to precipitation at 0.94 m w.e. per % change. An estimate using summer temperature sensitivity projects a dramatic decrease in summer mass balance to −3.89 m w.e. for the 2091–2100 period under climate scenario RCP8.5. With large increases in temperature anticipated for the next century, more complex modelling studies of the relationship between climate and glacier mass balance is key to understanding the future development of Rabots Glaciär.

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