Abstract
Abstract. The possibility of extracting useful information about the state of the lower troposphere from the surface reflections that are often detected during GPS radio occultations (GPSRO) is explored. The clarity of the reflection is quantified, and can be related to properties of the surface and the low troposphere. The reflected signal is often clear enough to show good phase coherence, and can be tracked and processed as an extension of direct non-reflected GPSRO atmospheric profiles. A profile of bending angle vs. impact parameter can be obtained for these reflected signals, characterized by impact parameters that are below the apparent horizon, and that is a continuation at low altitude of the standard non-reflected bending angle profile. If there were no reflection, these would correspond to tangent altitudes below the local surface, and in particular below the local mean sea level. A forward operator is presented, for the evaluation of the bending angle of reflected GPSRO signals, given atmospheric properties as described by a numerical weather prediction system. The operator is an extension, at lower impact parameters, of standard bending angle operators, and reproduces both the direct and reflected sections of the measured profile. It can be applied to the assimilation of the reflected section of the profile as supplementary data to the direct section. Although the principle is also applicable over land, this paper is focused on ocean cases, where the topographic height of the reflecting surface, the sea level, is better known a priori.
Highlights
Signatures of the interaction of the GPS signal with the Earth’s surface have been recorded during satellite-based radio occultation (GPSRO) events (Beyerle and Hocke, 2001; Beyerle et al, 2002; Pavelyev et al, 2011)
In this work we focus on the C/A pseudo random noise (PRN), a 1.023 MHz binary modulation of the sinusoidal tone
If atmospheric information can be extracted from ocean reflected data in at least a significant fraction of the occultations, as indicated in this study, we may infer the existence of a significant pool of data that is sensitive to the properties of the lower troposphere, which could be useful for applications in numerical weather prediction (NWP) and is so far unused
Summary
Signatures of the interaction of the GPS signal with the Earth’s surface have been recorded during satellite-based radio occultation (GPSRO) events (Beyerle and Hocke, 2001; Beyerle et al, 2002; Pavelyev et al, 2011). GPS receivers are designed to separate in most cases the different signal components through hardware, either by polarization, through the Doppler shift, or by delay through PRN modulation, the specific case of the direct and reflected paths near the horizon is challenging. If atmospheric information can be extracted from ocean reflected data in at least a significant fraction of the occultations, as indicated in this study, we may infer the existence of a significant pool of data that is sensitive to the properties of the lower troposphere, which could be useful for applications in NWP and is so far unused These would be additional to, and well collocated with, the standard radio occultation profiles.
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