伽利略SinBOC(1,1)信号跟踪优化多门延迟结构的GRANADA验证

2007 7th International Conference on ITS Telecommunications Pub Date : 2007-06-06 DOI:10.1109/ITST.2007.4295874

Xuan Hu, E. Lohan

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引用次数: 6

摘要

多路径是GNSS环境中最重要的问题，也是用于代码跟踪的延迟锁定环(DLL)的主要错误源。本文介绍了一种改进的GRANADA位真软件接收机模拟器中优化的多门延迟(MGD)码跟踪实现。然后通过GRANADA仿真结果展示了优化后的MGD结构的跟踪性能。并将该跟踪性能与高分辨率相关器(HRC)和窄相关器或窄早-晚结构(nEML)的跟踪性能进行了比较。跟踪性能标准包括多径静态信道和衰落信道的多径误差包络(MEEs)和均方根误差(RMSE)。结果表明，优化后的MGD结构在多径信道上的性能优于nEML和HRC, GRANADA位真软件接收机模拟器是测试其性能的有效工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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GRANADA validation of optimized Multiple Gate Delay structures for Galileo SinBOC(1,1) signal tracking

Multipath is an issue of paramount importance in the GNSS context, and the dominant error source for the Delay Lock Loop (DLL) used for code tracking. This paper introduces an optimized Multiple Gate Delay (MGD) code tracking implementation in the modified GRANADA Bit-true Software Receiver Simulator. Then the tracking performance of the optimized MGD structure is presented via GRANADA simulation results. This tracking performance is also compared with the tracking performance of High Resolution Correlator (HRC) and of the narrow correlator or narrow Early-Minus-Late (nEML) structures. The tracking performance criteria include Multipath Error Envelopes (MEEs) and Root Mean Square Error (RMSE) for both multipath static channels and fading channels. It is shown that the optimized MGD structure has a better performance than nEML and HRC in the multipath channels, and that the GRANADA Bit-true Software Receiver Simulator is a useful tool for testing the performance.

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2007 7th International Conference on ITS Telecommunications

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