Progress in accurate frequency transfer by GPS and GEO carrier phase at CNES

机译：GPS和GEO载波相位在CNES进行准确的频率传输方面的进展

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This paper presents the recent improvements in accurate frequency transfer by GPS and GEO (SBAS) carrier phase at CNES. In a previous paper we described the software used at CNES for GPS frequency transfer using carrier phase and we reviewed the performances obtained with two different clock resolution algorithms. In the best case, we obtained a stability of /spl sigma//sub y/(/spl tau/)=4.10/sup -15/ for /spl tau/=10/sup 4/ s between ALGO and NRC1, both stations being driven by a hydrogen maser. In this paper, we present the improvements performed on this software to process GEO measurements. The GEO satellites provide some advantages and drawbacks that are discussed. For the time being, in our configuration, the GEO carrier phase frequency transfer is limited by code noise and ionosphere correction.

机译：本文介绍了在CNES上GPS和GEO（SBAS）载波相位在精确频率传输方面的最新改进。在之前的论文中，我们描述了CNES用于载波相位GPS频率传输的软件，并回顾了使用两种不同的时钟分辨率算法获得的性能。在最佳情况下，两个站点在ALGO和NRC1之间获得的/ spl tau / = 10 / sup 4 / s的稳定性为/ spl sigma // sub y /（// spl tau /）= 4.10 / sup -15 /由氢激射器驱动。在本文中，我们介绍了在此软件上执行的改进以处理GEO测量。 GEO卫星提供了一些已讨论的优缺点。目前，在我们的配置中，GEO载波相位的频率传输受到代码噪声和电离层校正的限制。

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《Frequency Control Symposium and PDA Exhibition Jointly with the 17th European Frequency and Time Forum, 2003. Proceedings of the 2003 IEEE International 》|2003年|p.280-284|共5页
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Delporte J.; Mercier F.;
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中图分类无线电电子学、电信技术 ;
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masers; telesoftware; atomic clocks; Global Positioning System; accurate frequency transfer; GPS; GEO; carrier phase; clock resolution algorithm; hydrogen maser; ionosphere correction; code noise; geostationary orbit; Global Positioning System; satellite based augmentation system;

机译：masers;远程软件;原子钟;全球定位系统;准确的频率传输; GPS; GEO;载波相位;时钟分辨率算法;氢气maser;电离层校正;代码噪声;对地静止轨道;全球定位系统;基于卫星的增强系统;

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1. The performance of GPS time and frequency transfer: comment on 'A detailed comparison of two continuous GPS carrier-phase time transfer techniques' [J] . Petit Gerard, Defraigne Pascale Metrologia: International Journal of Scientific Metrology: = Internationale Zeitschrift fur Wissenschaftliche Metrologie: = Journal International de Metrologie Scientifique . 2016 ,第3期

机译：GPS时间和频率传输的性能：评论“两种连续GPS载波相位时间传输技术的详细比较”
2. Frequency transfer using GPS carrier phases: influence of temperature variations near the receiver [J] . Bruyninx C., Defraigne P. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2000 ,第2期

机译：使用GPS载波相位进行频率传输：接收机附近温度变化的影响
3. Frequency transfer using GPS carrier phases: influence oftemperature variations near the receiver [J] . Bruyninx C., Defraigne P., Dehant V., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2000 ,第2期

机译：使用GPS载波相位进行频率传输：接收机附近温度变化的影响
4. PROGRESS IN ACCURATE FREQUENCY TRANSFER BY GPS AND GEO CARRIER PHASE AT CNES [C] . J. Delporte, F. Mercier, IEEE IEEE International Frequency Control Symposium PDA Exhibition . 2003

机译：GPS和GEO载波阶段在CNES的准确频率转移进展
5. The estimation of GPS multipath error using dual-frequency carrier phase data. [D] . Al-Sultani, Salwan Ali Habeeb. 2014

机译：使用双频载波相位数据估算GPS多径误差。
6. A Geometry-Based Cycle Slip Detection and Repair Method with Time-Differenced Carrier Phase (TDCP) for a Single Frequency Global Position System (GPS) + BeiDou Navigation Satellite System (BDS) Receiver [O] . Chuang Qian, Hui Liu, Ming Zhang, 2016

机译：单频全球定位系统（GPS）+北斗导航卫星系统（BDS）接收器的基于几何的时差载波相位（TDCP）周期滑移检测和修复方法
7. Comparison study of VLBI and GPS carrier phase frequency transfer using IVS and IGS data [O] . Takiguchi H, Koyama Y, Ichikawa R, 2012

机译：利用IVs和IGs数据进行VLBI和Gps载波相位频率传输的比较研究
8. Comparison of Continuously Filtered GPS Carrier-Phase Time and Frequency Transfer With Independent Daily GPS Carrier-Phase Solutions and With Two-Way Satellite Time Transfer [R] . Matsakis, D., Senior, K., Cook, P. 2002

机译：具有独立的每日Gps载波相位解和双向卫星时间传递的连续滤波Gps载波相位时间和频率传输的比较

Progress in accurate frequency transfer by GPS and GEO carrier phase at CNES

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