Comparison between conventional wind measurement systems and SODAR systems for remote sensing including examination of real wind data

2017 ◽  
Author(s):  
Dmitriy Dubov ◽  
Bohos Aprahamian ◽  
Meline Aprahamian
Keyword(s):  
Remote Sensing ◽  
Wind Data ◽  
Wind Measurement ◽  
Measurement Systems

scholarly journals Improving Accuracy of Wind Analysis with Multiple Sampling Rates of Wind Measurement

2019 ◽  
Vol 95 ◽  
pp. 02002
Author(s):  
Natapol Korprasertsak ◽  
Thananchai Leephakpreeda
Keyword(s):  
Sampling Rate ◽  
Sampling Theorem ◽  
Wind Data ◽  
Optimal Sampling ◽  
Wind Measurement ◽  
Multiple Sampling ◽  
Wind Analysis ◽  
Data Problem ◽  
Improving Accuracy ◽  
Statistical Results

The sampling rate in wind measurement has influences on accuracy of wind analysis. Missing wind data problem can be prevented with high sampling rates. However, a lot of data are unnecessarily required in wind analysis. In this work, optimal sampling rates are determined in real time by the Nyquist sampling theorem according to varying wind conditions. It is found that all statistical results in wind analysis are obtained with percentage errors of less than 1% while the amount of wind data is decreased significantly from the benchmark at fixed sampling rate of 10 Hz.

scholarly journals Wind reconstruction algorithm for Viking Lander 1

2017 ◽  
Vol 6 (1) ◽  
pp. 217-229 ◽  
Author(s):  
Tuomas Kynkäänniemi ◽  
Osku Kemppinen ◽  
Ari-Matti Harri ◽  
Walter Schmidt
Keyword(s):  
Wind Direction ◽  
Measurement Data ◽  
Reconstruction Algorithm ◽  
Wind Data ◽  
Wind Measurement ◽  
Heater Element ◽  
Measurement Sensor ◽  
Sensor Failures ◽  
Wind Measurements

Abstract. The wind measurement sensors of Viking Lander 1 (VL1) were only fully operational for the first 45 sols of the mission. We have developed an algorithm for reconstructing the wind measurement data after the wind measurement sensor failures. The algorithm for wind reconstruction enables the processing of wind data during the complete VL1 mission. The heater element of the quadrant sensor, which provided auxiliary measurement for wind direction, failed during the 45th sol of the VL1 mission. Additionally, one of the wind sensors of VL1 broke down during sol 378. Regardless of the failures, it was still possible to reconstruct the wind measurement data, because the failed components of the sensors did not prevent the determination of the wind direction and speed, as some of the components of the wind measurement setup remained intact for the complete mission. This article concentrates on presenting the wind reconstruction algorithm and methods for validating the operation of the algorithm. The algorithm enables the reconstruction of wind measurements for the complete VL1 mission. The amount of available sols is extended from 350 to 2245 sols.

scholarly journals Towards the Sea Wind Measurement with the Airborne Scatterometer Having the Rotating-Beam Antenna Mounted over Fuselage

2021 ◽  
Vol 13 (24) ◽  
pp. 5165
Author(s):  
Alexey Nekrasov ◽  
Alena Khachaturian
Keyword(s):  
Remote Sensing ◽  
Surface Wind ◽  
Rotating Beam ◽  
Partial Shading ◽  
Wind Measurement ◽  
Wind Retrieval ◽  
Sea Surface Wind ◽  
Geophysical Model ◽  
Geophysical Model Function ◽  
Sea Wind

Extension of the existing airborne radars’ applicability is a perspective approach to the remote sensing of the environment. Here we investigate the capability of the rotating-beam radar installed over the fuselage for the sea surface wind measurement based on the comparison of the backscatter with the respective geophysical model function (GMF). We also consider the robustness of the proposed approach to the partial shading of the underlying water surface by the aircraft nose, tail, and wings. The wind retrieval algorithms have been developed and evaluated using Monte-Carlo simulations. We find our results promising both for the development of new remote sensing systems as well as the functional enhancement of existing airborne radars.

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