Improving the Positioning Accuracy of Satellite-Borne GNSS-R Specular Reflection Point on Sea Surface Based on the Ocean Tidal Correction Positioning Method
Autor: | Li Zhaowei, Fan Wu, Zongqiang Liu, Wei Zheng |
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Jazyk: | angličtina |
Rok vydání: | 2019 |
Předmět: |
010504 meteorology & atmospheric sciences
Science offshore tidal height positioning correction gradient 0211 other engineering and technologies 02 engineering and technology 01 natural sciences Physics::Geophysics ocean tidal correction positioning method specular reflection point positioning accuracy GNSS-R satellite sea surface altimetry Geoid Specular reflection Altimeter Physics::Atmospheric and Oceanic Physics 021101 geological & geomatics engineering 0105 earth and related environmental sciences Elevation Geodetic datum Sea-surface height Geodesy Reflection (physics) Reference surface General Earth and Planetary Sciences Geology |
Zdroj: | Remote Sensing, Vol 11, Iss 13, p 1626 (2019) Remote Sensing; Volume 11; Issue 13; Pages: 1626 |
ISSN: | 2072-4292 |
Popis: | The positioning error of the specular reflection point is the main error source of Global Navigation Satellite System Reflectometry (GNSS-R) satellite sea surface altimetry. The existing specular reflection point geometric positioning methods do not consider the static-state elevation difference of tens of meters and the decimeter-level time-varying elevation difference between the reflection reference surface and the instantaneous sea surface. The resulting positioning error restricts the GNSS-R satellite sea surface altimetry from reaching cm-level high accuracy on the reference datum. Under the premise of the basic static-state elevation positioning error correction, reducing the time-varying elevation positioning error is the key to improving positioning accuracy. In this study, based on the principle of elevation correction of GNSS-R reflection reference surface, the main parameter that determines the real-time variation of sea surface height, ocean tide, is used to correct the specular reflection point from geoid to ocean tidal surface. The positioning error caused by the time-varying elevation error of the reflection reference surface is reduced, the positioning accuracy is improved, and the improvement is quantified. According to the research results, the ocean tidal correction positioning (OTCP) method improves the positioning accuracy by 0.31 m. The positioning accuracy improvement has a good correlation with the corresponding tidal height modulo, and the improvement is 1.07 times of the tidal height modulo. In the offshore, the tidal height gradient modulo is greater than the deep sea, the gradient of the tidal positioning correction has a good response to the tidal height gradient modulo, while the sensitivity of this response decreases in the deep sea. |
Databáze: | OpenAIRE |
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