A new GNSS signal carrier tracking algorithm for ionospheric TEC monitoring
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摘要: 全球卫星导航系统(GNSS)是电离层TEC监测中应用最普遍的手段. 目前方法通常是在传统导航用途的GNSS接收机输出的原始观测量基础上,经过数据后处理得到电离层TEC信息,其GNSS信号的跟踪处理算法依然采用GNSS导航接收机的算法. 针对GNSS系统用于电离层TEC监测的特殊性,提出一种称为GNSS双频信号和差联合跟踪的新算法,与传统方法相比,该算法直接跟踪电离层TEC的变化,可以提高电离层TEC跟踪的灵敏度和TEC的观测精度,改善电离层TEC监测性能.Abstract: Currently, GNSS (Global Navigation Satellite System) is widely used in ionospheric TEC monitoring. The traditional method of GNSS monitoring ionospheric TEC is based on the original output measurements of navigation receiver, and then we obtain the ionospheric TEC information through the data conversion. The signal processing algorithm is also the navigation receiver algorithm which is used for navigating. The purpose of this work is to design a new GNSS dual-frequency signals tracking algorithm for the GNSS ionospheric TEC monitoring application, which is called sum-diff joint tracking algorithm. Compared with the traditional method, the algorithm is directly tracking the ionospheric TEC changes, and can improve the sensitivity of dual-frequency tracking and the TEC observation precision, so that it can improve the performance of GNSS monitoring ionospheric TEC.
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Key words:
- GNSS /
- Ionosphere /
- Total electron content (TEC) /
- Carrier tracking loop /
- PLL
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[1] Zou Yuhua. A Study of Time-dependent 3-D Ionospheric Tomography with Ground-based GPS Network and Occultation Observations[D]. Wuhan: Wuhan University, 2004. In Chinese (邹玉华. GPS地面台网和掩星观测结合的时变三维电离层层析[D]. 武汉: 武汉大学, 2004) [2] Shanmugam S. Evolution to modernized GNSS ionospheric scintillation and TEC monitoring[C]//Position Location and Navigation Symposium (PLANS). Myrtle Beach: IEEE/ION, 2012: 265-273 [3] Zhang Donghe, Xiao Zuo. Method of calculating TEC with GPS data and its application to the ionospheric disturbances[J]. Chin. J. Geophys., 2000, 43(4):451-458. In Chinese (张东和, 肖佐. 利用GPS计算TEC的方法及其对电离层扰动的 观测[J]. 地球物理学报, 2000, 43(4):451-458) [4] Li Guozhu, Ning Baiqi, Yuan Hong. Design and realization of a real-time GPS ionospheric scintillation monitoring system[J]. Chin. J. Radio Sci., 2005(6):758-764. In Chinese (李国主, 宁百齐, 袁洪. GPS电离层闪烁实时监测系统的设计与实现[J]. 电波科学学报, 2005(6):758-764) [5] Jusoh M H, Aziz N H A, Haron M A, et al. Determination of ionospheric Total Electron Content (TEC): Phase measurement based on leveling technique[C]//European Symposium on Computer Modeling and Simulation. Athens, Greece: IEEE Computer Society, 2009: 208-213 [6] Parkinson B W, Spilker J J. Global Positioning System Theory and applications[M]. California: American Institute of Aeronautics and Astronautics, 1996 [7] Knight M, Cervera M, Finn A. A comparison of predicted and measured GPS performance in an ionospheric scintillation environment[C]//Proceedings of the 12th International Technical Meeting of the Satellite Division of the Institute of Navigation. Nashville: Institute of Navigation, 1999: 1437-1450 [8] Salem D R. approaches for the Combined Tracking of GPS L1/L5 Signals[D]. Calgary: University of Calgary, 2010 [9] Yao Donghua. Interference Effects on GPS L2C Signal Acquisition and Tracking[D]. Calgary: University of Calgary, 2007 [10] Lu Yu. GPS Receiver-principle and Software Implement[M]. Beijing: Publishing House of Electronics Industry, 2009. In Chinese (鲁豫. GPS全球定位接收机elax——-elax原理与软件实 现[M]. 北京: 电子工业出版社, 2009) [11] Li Jin, Zhan Jie, Liu Liang. Design on carrier tracking loop of GPS receiver[J]. Modern Electr. Techn., 2011, 34(1):29-31. In Chinese (李津, 张捷, 刘亮. GPS接收机载波跟踪环路设计[J]. 现代电子技术, 2011, 34(1):29-31) -
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