Abstract | ||
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A sensor aboard an unmanned aerial vehicle (UAV) is vulnerable to vibration and natural conditions such as erratic winds. Considering the difference between laboratory and vicarious environments of calibration, a vicarious calibration is closer to the real environment and is a complement to laboratory calibrations for remote sensors. The existing vicarious calibration of UAVs only uses a reflectance-based method, rather than irradiance-based method. Therefore, the error caused by aerosol-type assumptions, which is the largest uncertainty for reflectance-based method, is not considered sufficiently during vicarious calibration of UAVs. Considering the difference in the upward radiative transfer path between satellites and UAVs, we propose an improved irradiance-based method. A simulation experiment was designed to compare the relative differences between two aerosol types under different aerosol optical thicknesses (AOTs) and heights for both the reflectance-based and the improved methods. Additionally, two field-calibration campaigns, under different weather conditions, were performed to calibrate a Headwall hyperspectral imager payload on a UAV, with the help of calibration tarps and MODTRAN5 radiative transfer code. When weather conditions were unsatisfactory, the total uncertainties of the original and improved methods were c. 5.9%–6.7% and c. 2.3%–3.5%, respectively, and the uncertainties caused by aerosol-type assumption were c. 15.8%–18.7% and c. 3.5%–8.0%, respectively. The results of the simulation and field experiments verified that the improved method has higher accuracy and lower uncertainty and is more suitable for the vicarious calibration of UAV hyperspectral remote sensors. |
Year | DOI | Venue |
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2015 | 10.1109/JSTARS.2015.2416213 | Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of |
Keywords | Field | DocType |
calibration tarps,headwall,irradiance-based method,reflectance-based method,vicarious calibration,atmospheric optics,wind,calibration,meteorology,remote sensing,hyperspectral imaging,uncertainty,hyperspectral sensors,radiative transfer | Meteorology,Satellite,Remote sensing,Aerosol,Hyperspectral imaging,Irradiance,Vibration,Radiative transfer,Mathematics,Calibration,Payload | Journal |
Volume | Issue | ISSN |
PP | 99 | 1939-1404 |
Citations | PageRank | References |
3 | 0.53 | 7 |
Authors | ||
6 |
Name | Order | Citations | PageRank |
---|---|---|---|
haiwei li | 1 | 3 | 0.86 |
Hao Zhang | 2 | 9 | 3.20 |
Bing Zhang | 3 | 422 | 74.10 |
Zhengchao Chen | 4 | 22 | 10.85 |
minhua yang | 5 | 3 | 0.53 |
Yaqiong Zhang | 6 | 6 | 2.30 |