Gravity satellite missions measurement data for atmospheric density estimation
Abstract
Gravity satellite missions measurement data are primarily intended for use in
the estimation of an accurate model of Earth’s gravity field. The satellites’ almost
circular orbits with polar or near-polar inclination of the orbital planes, and low
altitude (between 250 and 500 km), enable almost full coverage of the globe. Orbit
tracking by precise high orbiting navigation satellite system provides the data about
three-dimensional satellite position and its deviations. Precision accelerometers on
the satellites extend the ability to monitor non-gravitational forces acting on them
continuously. One of these forces, atmospheric drag along orbits, can be derived
from the orbit track positions and their derivatives, and also from the precise
accelerometer measurements, so it can be used for atmospheric mass density
determination. On the other hand, the density of the atmosphere and its main
constituents can be derived from the spectroscopic measurements. One of the
e...xamples is thermospheric mass density determination using neutral mass
spectrometers on earlier satellite missions. Measurement of the Earth’s far
ultraviolet (FUV) dayglow is used to infer number density profiles of N2, O, and
O2. Combination of accelerometers measurements and spectroscopic data is the
foundation of two widely used empirical models of thermospheric mass density.
This contribution describes the basic measurements on gravity satellite missions
and atmospheric drag estimation, gives the comparison and combination of
obtained data with spectrometric measurements of atmospheric density, and lists
potential improvements using the data from the recently launched satellite gravity
missions.
Source:
IV Meeting on Astrophysical Spectroscopy - A&M DATA - Atmosphere, Book of Abstracts and Contributed Papers, 2022, 68-69Publisher:
- Institute of Physics Belgrade, Serbia
Institution/Community
Inovacioni centarTY - CONF AU - Brajović, Ljiljana M. AU - Malović, Miodrag PY - 2022 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/6000 AB - Gravity satellite missions measurement data are primarily intended for use in the estimation of an accurate model of Earth’s gravity field. The satellites’ almost circular orbits with polar or near-polar inclination of the orbital planes, and low altitude (between 250 and 500 km), enable almost full coverage of the globe. Orbit tracking by precise high orbiting navigation satellite system provides the data about three-dimensional satellite position and its deviations. Precision accelerometers on the satellites extend the ability to monitor non-gravitational forces acting on them continuously. One of these forces, atmospheric drag along orbits, can be derived from the orbit track positions and their derivatives, and also from the precise accelerometer measurements, so it can be used for atmospheric mass density determination. On the other hand, the density of the atmosphere and its main constituents can be derived from the spectroscopic measurements. One of the examples is thermospheric mass density determination using neutral mass spectrometers on earlier satellite missions. Measurement of the Earth’s far ultraviolet (FUV) dayglow is used to infer number density profiles of N2, O, and O2. Combination of accelerometers measurements and spectroscopic data is the foundation of two widely used empirical models of thermospheric mass density. This contribution describes the basic measurements on gravity satellite missions and atmospheric drag estimation, gives the comparison and combination of obtained data with spectrometric measurements of atmospheric density, and lists potential improvements using the data from the recently launched satellite gravity missions. PB - Institute of Physics Belgrade, Serbia C3 - IV Meeting on Astrophysical Spectroscopy - A&M DATA - Atmosphere, Book of Abstracts and Contributed Papers T1 - Gravity satellite missions measurement data for atmospheric density estimation EP - 69 SP - 68 UR - https://hdl.handle.net/21.15107/rcub_technorep_6000 ER -
@conference{ author = "Brajović, Ljiljana M. and Malović, Miodrag", year = "2022", abstract = "Gravity satellite missions measurement data are primarily intended for use in the estimation of an accurate model of Earth’s gravity field. The satellites’ almost circular orbits with polar or near-polar inclination of the orbital planes, and low altitude (between 250 and 500 km), enable almost full coverage of the globe. Orbit tracking by precise high orbiting navigation satellite system provides the data about three-dimensional satellite position and its deviations. Precision accelerometers on the satellites extend the ability to monitor non-gravitational forces acting on them continuously. One of these forces, atmospheric drag along orbits, can be derived from the orbit track positions and their derivatives, and also from the precise accelerometer measurements, so it can be used for atmospheric mass density determination. On the other hand, the density of the atmosphere and its main constituents can be derived from the spectroscopic measurements. One of the examples is thermospheric mass density determination using neutral mass spectrometers on earlier satellite missions. Measurement of the Earth’s far ultraviolet (FUV) dayglow is used to infer number density profiles of N2, O, and O2. Combination of accelerometers measurements and spectroscopic data is the foundation of two widely used empirical models of thermospheric mass density. This contribution describes the basic measurements on gravity satellite missions and atmospheric drag estimation, gives the comparison and combination of obtained data with spectrometric measurements of atmospheric density, and lists potential improvements using the data from the recently launched satellite gravity missions.", publisher = "Institute of Physics Belgrade, Serbia", journal = "IV Meeting on Astrophysical Spectroscopy - A&M DATA - Atmosphere, Book of Abstracts and Contributed Papers", title = "Gravity satellite missions measurement data for atmospheric density estimation", pages = "69-68", url = "https://hdl.handle.net/21.15107/rcub_technorep_6000" }
Brajović, L. M.,& Malović, M.. (2022). Gravity satellite missions measurement data for atmospheric density estimation. in IV Meeting on Astrophysical Spectroscopy - A&M DATA - Atmosphere, Book of Abstracts and Contributed Papers Institute of Physics Belgrade, Serbia., 68-69. https://hdl.handle.net/21.15107/rcub_technorep_6000
Brajović LM, Malović M. Gravity satellite missions measurement data for atmospheric density estimation. in IV Meeting on Astrophysical Spectroscopy - A&M DATA - Atmosphere, Book of Abstracts and Contributed Papers. 2022;:68-69. https://hdl.handle.net/21.15107/rcub_technorep_6000 .
Brajović, Ljiljana M., Malović, Miodrag, "Gravity satellite missions measurement data for atmospheric density estimation" in IV Meeting on Astrophysical Spectroscopy - A&M DATA - Atmosphere, Book of Abstracts and Contributed Papers (2022):68-69, https://hdl.handle.net/21.15107/rcub_technorep_6000 .