Planning GPS Measurements of a Linear Object for a Specified Time Interval

Planning GPS Measurements of a Linear Object for a Specified Time Interval AbstractThe previous measurement campaigns planning used in geodesy is conducted exclusively for individual points. For the natural process aimed at the adoption of the introduction of the planning (prediction of constellation state) in navigation, which is characterized by the movement, one should adopt measurement campaigns planning for linear objects. In contrast to the existing planning solutions, focused on point presentation of the state of the constellation of navigation system, the author of this article rearranges the proposal of determination of geometrical factors, and their summation. In the presented simulation, one has specified the route of passing at certain times and it was assumed that the receiver will move with variable motion. One has defined the geometric ratios (PDOP), which allow to distinguish the results corresponding to the adopted criteria for the measurement of linear object to be conducted with the best possible accuracy. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Annual of Navigation de Gruyter

Planning GPS Measurements of a Linear Object for a Specified Time Interval

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Publisher
De Gruyter Open
Copyright
© 2017 Cezary Specht et al., published by De Gruyter Open
ISSN
1640-8632
eISSN
2300-6633
D.O.I.
10.1515/aon-2017-0006
Publisher site
See Article on Publisher Site

Abstract

AbstractThe previous measurement campaigns planning used in geodesy is conducted exclusively for individual points. For the natural process aimed at the adoption of the introduction of the planning (prediction of constellation state) in navigation, which is characterized by the movement, one should adopt measurement campaigns planning for linear objects. In contrast to the existing planning solutions, focused on point presentation of the state of the constellation of navigation system, the author of this article rearranges the proposal of determination of geometrical factors, and their summation. In the presented simulation, one has specified the route of passing at certain times and it was assumed that the receiver will move with variable motion. One has defined the geometric ratios (PDOP), which allow to distinguish the results corresponding to the adopted criteria for the measurement of linear object to be conducted with the best possible accuracy.

Journal

Annual of Navigationde Gruyter

Published: Dec 1, 2017

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