原文传递
Conceptual Approach for Precise Relative Positioning with Miniaturized GPS Loggers and Experimental Results.
| 题名: | Conceptual Approach for Precise Relative Positioning with Miniaturized GPS Loggers and Experimental Results. |
| 作者: | Holzapfel, F.; Sachs, G.; Traugott, J. |
| 关键词: | Computation Science; Doppler Systems; Free Flight Trajectories; Global Positioning System; Kinematic Trajectory Measurements; Position Fixes; Time Differences |
| 摘要: | L1 phase measurements collected by a miniaturized and low cost GPS logging device are the basis for a navigation approach aiming to precisely measure (flight) trajectories independently from any auxiliary system. Forming single differences between two measurements taken by one moving receiver at two different times allows achieving relative precision in the low decimeter range over time intervals of up to several minutes. Neither space nor ground based augmentation systems, a second, nearby base receiver or any (static) initialization patterns are required by the method. This fact significantly reduces the complexity to be handled by the user often operating under adverse field conditions even at extremely remote locations. The approach is taking advantage of canceling ambiguities instead of striving for estimating these unknown quantities every phase measurement is biased with. The constitutive navigation equations are derived and theoretic aspects of various error sources restricting possible processing intervals are discussed in this paper. The method is validated by both static and dynamic reference data. Finally first results from a GPS campaign at Kerguelen Archipelago to measure the dynamic soaring of Albatrosses using the time-difference method are presented and exemplary data are processed using the time-difference method. |
| 报告类型: | 科技报告 |
相关文献
- ELIMINATION OF THE TRAVEL DIARY: EXPERIMENT TO DERIVE TRIP PURPOSE FROM GLOBAL POSITIONING SYSTEM TRAVEL DATA.
- Precise Absolute Navigation: An Evaluation of PPS Position Management.
- Using GPS to Determine an Astronomic-Geodetic Transformation for a Precise Azimuth Reference (PAR).
- GPS Results from State-Wide High Precision Networks in the United States.
- COMBINED STEREO VISION AND INERTIAL NAVIGATION FOR AUTOMATED AERIAL REFUELING.
- Common Time Reference Technology for Systems Inter-Operability
检索历史
应用推荐
