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Abel inversion for deriving refractivity profile from down-looking GPS radio occultation: simulation analysis |
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| Authors: | Ashraf Mousa T Tsuda |
| Institution: | 1. National Research Institute of Astronomy and Geophysics, Helwan, Cairo, Egypt 3. Maritime Studies Department, Faculty of Marine Science, King Abdul Aziz University, Jeddah, Saudi Arabia 2. Research Institute of Sustainable Humanosphere, Kyoto University, Uji, Japan |
| Abstract: | Down-looking (DL) Global Positioning System (GPS) radio occultation can produce an estimate of the atmospheric refractivity profile. The main observations are the bending angle as a function of the impact parameter. DL provides both negative as well as positive elevation angle measurements. Abel inversion can be operated on a profile of partial bending angle found by subtracting the positive elevation measurement from the negative one with the same impact parameter. Abel inversion requires the spherical symmetrical assumption. Basically, partial bending calculation removes the ionospheric bending and hence it is possible to use a single frequency GPS receiver. The current paper introduces a simulation data for the case of a receiver on mountain top. The simulation uses model refractivity from MSISE-90 model as well as radiosonde data. Random noises are added to the bending angle profile before inversion. The result shows that it is possible to produce accurate vertical refractivity profile below the receiver altitude. The calculation of the water vapor profile is also made using temperature profile information from the MSISE-90 model as well as radiosonde. The errors in the retrieved vapor profile are always less than 0.1?mbar. |
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