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Dual Frequency GPS Receiver Measuring Ionospheric Effects Without Code Demodulation and Its Application to Time Comparisons

机译：双频Gps接收机无代码解调测量电离层效应及其在时间比较中的应用

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The GPS (Global Positioning System) satellites have become widely used for daily time comparisons between the major time and frequency laboratories. The precision of time comparison by GPS satellites is now between one and a few tens of nanoseconds depending upon the distance between the laboratories. In the case of long-distance time comparisons, the ionospheric effect is one of the largest sources of uncertainty. To compensate for the ionospheric effect, we have developed a novel GPS receiver which measures the total electron content (TEC) along the signal path to the GPS satellite. It uses the property of cross-correlation between the P-code (Precise-code) signals which are transmitted Erom GPS satellites by L1 (1575.42 MHz) and 4, (1227.6 MHz), without demodulating P-code signal. Preliminary results using the prototype receiver give, for about 3 minutes observation time, an uncertainty in the measurement of TEC of 2 x 1016/m2, equivalent to an uncertainty in the delay of L1 signal of 1 ns. We have begun to apply the results of this receiver to the time comparisons between USA and Europe.

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作者
Imae, M.; Lewandowski, W.; Thomas, C.; Miki, C.;
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年度 1988
页码 p.1-10
总页数 10
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Global positioning system ; Radio receivers ; Electrons ; Cross correlation ; France ; Dual mode ; Demodulation ; Daily occurrence ; Prototypes ; Ionosphere ; Artificial satellites;

机译：全球定位系统;无线电接收机;电子;互相关;法国;双模;解调;日常事件;原型;电离层;人造卫星;

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1. A method for dual-frequency ionospheric time-delay correcting using a c/a code gps receiver [J] . Zhang Mengyang, Lu Baowei, Song Wenmiao Journal of Electronics (CHINA) . 1999,第1期

机译：一种使用c / a码gps接收机的双频电离层时延校正方法
2. A METHOD FOR DUAL-FREQUENCY IONOSPHERIC TIME-DELAY CORRECTING USING A C/A CODE GPS RECEIVER [J] . 电子科学学刊：英文版 . 1999,第001期

机译：一种使用C / A代码GPS接收器进行双频电离层时间延迟校正的方法
3. Comparison of 4D tomographic mapping versus thin-shell approximation for ionospheric delay corrections for single-frequency GPS receivers over North America [J] . Allain D.J., Mitchell C.N. GPS Solutions . 2010,第3期

机译：北美单频GPS接收机电离层延迟校正的4D层析成像映射与薄壳近似的比较
4. An application of GPS dual frequency codeless receiver for ionospheric delay to single frequency VLBI observation [C] . Imae, M., Kondo, . 1990

机译：GPS双频无电离层电离接收机在单频VLBI观测中的应用
5. Mutlichannel dual frequency GLONASS software receiver in combination with GPS L1 C/A (URL: http://www.geomatics.ucalgary.ca/research/publications). [D] . Abbasiannik, Saloomeh. 2009

机译：多通道双频GLONASS软件接收器与GPS L1 C / A组合（URL：http://www.geomatics.ucalgary.ca/research/publications）。
6. A New Real-Time Cycle Slip Detection and Repair Method under High Ionospheric Activity for a Triple-Frequency GPS/BDS Receiver [O] . Wanke Liu, Xueyuan Jin, Mingkui Wu, 2018

机译：高频率电离层活动的三频GPS / BDS接收机实时周期滑移检测和修复新方法
7. Topside Ionosphere/Plasmasphere Tomography Using Space-Borne Dual Frequency Gps Receivers [O] . Pinto Jayawardena Talini 2015

机译：使用空间双频Gps接收器的顶侧电离层/等离子层层析成像

Dual Frequency GPS Receiver Measuring Ionospheric Effects Without Code Demodulation and Its Application to Time Comparisons

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