| タイトル | Observations of Global and Regional Ionospheric Irregularities and Scintillation Using GNSS Tracking Networks |
| 著者(英) | Valant-Spaight, Bonnie; Bar-Sever, Yoaz; Mannucci, Anthony J.; Hall, G. Martin; Pi, Xiaoqing; Romans, Larry J.; Sparks, Lawrence; Skone, Susan |
| 発行日 | 2013-04-22 |
| 言語 | eng |
| 内容記述 | The rate of TEC index (ROTI) is a measurement that characterizes ionospheric irregularities. It can be obtained from standard GNSS dual-frequency phase data collected using a geodetic type of GNSS receiver. By processing GPS data from ground-based networks of International GNSS Service and Continuously Operating Reference Station (CORS), ROTI maps have been produced to observe global and regional scintillation activities. A major mid-latitude scintillation event in the contiguous United States is reported here that was captured in ROTI maps produced using CORS GPS data collected during a space weather storm. The analyses conducted in this work and previously by another group indicate that ROTI is a good occurrence indicator of both amplitude and phase scintillations of GPS L-band signals, even though the magnitudes of ROTI, S4, and sigma(sub phi) can be different. For example, our analysis indicates that prominent ROTI and the L1 phase scintillation (sigma(sub phi)) are well correlated temporally in the polar region while L1 amplitude scintillation rarely occurs. The differences are partially attributed to physics processes in different latitude regions, such as high-speed plasma convection in the polar region that can suppress the amplitude scintillation. An analysis of the impact of ionospheric scintillation on precise positioning, which requires use of dual-frequency phase data, is also conducted. The results indicate that significant (more than an order of magnitude) positioning errors can occur under phase scintillation conditions. |
| NASA分類 | Space Communications, Spacecraft Communications, Command and Tracking; Communications and Radar |
| 権利 | Copyright |
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