Tropospheric refraction in phase observation /
Baselines are routinely measured using Global Positioning System (GPS) which are more precise and economical than terrestrial techniques over distances greater than a few kilometers. In relative positioning, the propagation effects due to the ionosphere and troposhere contribute errors in the accura...
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| Language: | eng |
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United States : Ohio State University,
1987
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| author | Md. Nor Kamarudin Ohio State University |
| author_facet | Md. Nor Kamarudin Ohio State University |
| author_sort | Md. Nor Kamarudin |
| collection | OCEAN |
| description | Baselines are routinely measured using Global Positioning System (GPS) which are more precise and economical than terrestrial techniques over distances greater than a few kilometers. In relative positioning, the propagation effects due to the ionosphere and troposhere contribute errors in the accuracy of baseline measurement. The main objective of this papaer is to study the effect of the satellite elevation on the troposheric refraction error. It is not the purpose of the writing to discuss in detail the satellite, receiver adn other sources of errors such as orbital, clock and ephemeris ut rather tofocus on the computation of several models of troposheric refraction using simulated data. |
| first_indexed | 2024-03-05T05:22:29Z |
| format | |
| id | KOHA-OAI-TEST:337610 |
| institution | Universiti Teknologi Malaysia - OCEAN |
| language | eng |
| last_indexed | 2024-03-05T05:22:29Z |
| publishDate | 1987 |
| publisher | United States : Ohio State University, |
| record_format | dspace |
| spelling | KOHA-OAI-TEST:3376102020-12-19T17:11:27ZTropospheric refraction in phase observation / Md. Nor Kamarudin Ohio State University United States : Ohio State University,1987engBaselines are routinely measured using Global Positioning System (GPS) which are more precise and economical than terrestrial techniques over distances greater than a few kilometers. In relative positioning, the propagation effects due to the ionosphere and troposhere contribute errors in the accuracy of baseline measurement. The main objective of this papaer is to study the effect of the satellite elevation on the troposheric refraction error. It is not the purpose of the writing to discuss in detail the satellite, receiver adn other sources of errors such as orbital, clock and ephemeris ut rather tofocus on the computation of several models of troposheric refraction using simulated data.Thesis (MSc) - Ohio State University, 1987Includes bibliographical referencesBaselines are routinely measured using Global Positioning System (GPS) which are more precise and economical than terrestrial techniques over distances greater than a few kilometers. In relative positioning, the propagation effects due to the ionosphere and troposhere contribute errors in the accuracy of baseline measurement. The main objective of this papaer is to study the effect of the satellite elevation on the troposheric refraction error. It is not the purpose of the writing to discuss in detail the satellite, receiver adn other sources of errors such as orbital, clock and ephemeris ut rather tofocus on the computation of several models of troposheric refraction using simulated data.26PRZSLRefraction, TerrestrialTropospheric radio wave propagation |
| spellingShingle | Refraction, Terrestrial Tropospheric radio wave propagation Md. Nor Kamarudin Ohio State University Tropospheric refraction in phase observation / |
| title | Tropospheric refraction in phase observation / |
| title_full | Tropospheric refraction in phase observation / |
| title_fullStr | Tropospheric refraction in phase observation / |
| title_full_unstemmed | Tropospheric refraction in phase observation / |
| title_short | Tropospheric refraction in phase observation / |
| title_sort | tropospheric refraction in phase observation |
| topic | Refraction, Terrestrial Tropospheric radio wave propagation |
| work_keys_str_mv | AT mdnorkamarudin troposphericrefractioninphaseobservation AT ohiostateuniversity troposphericrefractioninphaseobservation |