GPS接收机中PRN码的相关

2017 8th International Conference on Recent Advances in Space Technologies (RAST) Pub Date : 2017-06-19 DOI:10.1109/RAST.2017.8002960

Ahmet Esat Süzer, H. Oktal

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引用次数: 6

摘要

像GPS(全球定位系统)这样的卫星定位系统存在于我们生活的每时每刻。GPS信号分别由Link1 (L1)和Link2 (L2)频率广播。L1分配给民用用户，而L2专门用于军事用户。GPS信号由导航电文和PRN码(民用为C/A，军用为p码)组成，PRN码是卫星的标识。PRN码也用于确定卫星和接收机之间的距离。添加在PRN码上的导航信息，必须知道GPS接收器在地球上的位置。伪码的识别是计算接收机位置的重要环节。利用接收机内的相关处理，找出各卫星间的PRN码变化。有三种常用的方法可用于相关处理。这些方法包括串行搜索、并行频率空间搜索和并行码相位搜索获取。与其他两种方法相比，并行代码阶段搜索速度更快，结束步骤更少。本研究的目的是介绍GPS接收机中用于卫星信号采集的相关技术。为此，在MATLAB环境中仿真了一个相关实例，演示了GPS接收机中相关过程的实现过程。

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PRN code correlation in GPS receiver

Satellite based positioning systems like GPS (Global Positioning System) exist in every moment of our lives. GPS signal is broadcasted by Link1 (L1) and Link2 (L2) frequencies, separately. L1 is assigned to civil users, while L2 is especially for military users. GPS signal consists of navigation message and PRN codes (C/A for civil and P-code for military) which is an identity for satellite. PRN codes are also used to determine the range between the satellite and the receiver. The navigation message added on PRN code, must be known to find the position of GPS receiver on Earth. Identification of PRN code is the most important process to calculate the receiver's position. A correlation process in receiver is implemented to find PRN code changing for each satellite. Three common methods are available for the correlation process. These methods are Serial Search, Parallel Frequency Space Search and Parallel Code Phase Search Acquisition. Parallel Code Phase Search is faster and ended in less steps compared to other two methods. The aim of this study is to present the correlation technics used for the acquisition of satellite signal in GPS receivers. For this purpose, a correlation example is simulated in MATLAB environment to demonstrate how the correlation process in GPS receiver is performed.

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来源期刊

2017 8th International Conference on Recent Advances in Space Technologies (RAST)

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