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Thermospheric Density and Wind Determination from Satellite Dynamics electronic resource by Eelco Doornbos.

By: Doornbos, Eelco [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: Springer ThesesPublication details: Berlin, Heidelberg : Springer Berlin Heidelberg, 2012Description: XVI, 184 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783642251290Subject(s): geography | Astronautics | earth sciences | Atmospheric Sciences | Aerospace Technology and Astronautics | Fluid- and AerodynamicsDDC classification: 551.5 LOC classification: QC851-999Online resources: Click here to access online
Contents:
Empirical modelling of the thermosphere -- Satellite dynamics and non-gravitational force modelling -- Producing density and crosswind from satellite dynamics observations -- Analysis and interpretation of density and wind data -- Empirical model calibration -- Conclusions and recommendations.
In: Springer eBooksSummary: The Earth's atmosphere is often portrayed as a thin and finite blanket covering our planet, separate from the emptiness of outer space. In reality, the transition is gradual and a tiny fraction of the atmophere gases is still present at the altitude of low orbiting satellites. The very high velocities of these satellites ensure that their orbital motion can still be considerably affected by air density and wind. This influence can be measured using accelerometers and satellite tracking techniques. The opening chapters of this thesis provide an excellent introduction to the various disciplines that are involved in the interpretation of these observations: orbital mechanics, satellite aerodynamics and upper atmospheric physics. A subsequent chapter, at the heart of this work, covers advances in the algorithms used for processing satellite accelerometry and Two-Line Element (TLE) orbit data. The closing chapters provide an elaborate analysis of the resulting density and wind products, which are generating many opportunities for further research, to improve the modelling and understanding of the thermosphere system and its interactions with the lower atmosphere, the ionosphere-magnetosphere system and the Sun.
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Empirical modelling of the thermosphere -- Satellite dynamics and non-gravitational force modelling -- Producing density and crosswind from satellite dynamics observations -- Analysis and interpretation of density and wind data -- Empirical model calibration -- Conclusions and recommendations.

The Earth's atmosphere is often portrayed as a thin and finite blanket covering our planet, separate from the emptiness of outer space. In reality, the transition is gradual and a tiny fraction of the atmophere gases is still present at the altitude of low orbiting satellites. The very high velocities of these satellites ensure that their orbital motion can still be considerably affected by air density and wind. This influence can be measured using accelerometers and satellite tracking techniques. The opening chapters of this thesis provide an excellent introduction to the various disciplines that are involved in the interpretation of these observations: orbital mechanics, satellite aerodynamics and upper atmospheric physics. A subsequent chapter, at the heart of this work, covers advances in the algorithms used for processing satellite accelerometry and Two-Line Element (TLE) orbit data. The closing chapters provide an elaborate analysis of the resulting density and wind products, which are generating many opportunities for further research, to improve the modelling and understanding of the thermosphere system and its interactions with the lower atmosphere, the ionosphere-magnetosphere system and the Sun.

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