共查询到16条相似文献,搜索用时 109 毫秒
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在Galileo系统建设和GPS现代化的进程中,为实现与BPSK(Bi-phase Shift Keying)的频谱分离,采用了BOC(Binary Offset Carrier)调制。BOC调制在码跟踪精度、多径抑制等方面比BPSK调制具有更好的性能,但其自相关函数的多相关峰特性使得在测距中可能产生偏差,因此,消除相关峰的模糊度是BOC信号接收中非常关键的问题。介绍了一种基于QBOC码的BOC信号码跟踪环路(“BOC十QBOC-BOC”),并推导出该环路码跟踪性能的解析表达式,最后的仿真结果验证了理论推导的正确性,可为BOC信号接收机的设计提供参考。 相似文献
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抗干扰能力是卫星导航信号设计的一项重要考核要素。目前典型的方法是采用抗干扰品质因数、伪码跟踪精度下降来衡量。但是该抗干扰品质因数不能反映码速率对抗干扰能力的贡献,而伪码跟踪精度下降则不够简捷。提出了能够反映伪码速率贡献的载波跟踪抗干扰品质因数,以及能够简捷地反映伪码跟踪抗干扰能力的伪码跟踪抗干扰品质因数。采用所提出的两项指标,对二进制偏移副载波BOC(Binary Offset Carrier)调制这一新型卫星导航信号进行了抗干扰能力分析。结果表明,同码率BOC调制信号载波跟踪抗干扰能力比BPSK调制信号强,伪码跟踪抗干扰能力比BPSK调制信号弱。 相似文献
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针对导航信号的多径误差分析,在多径误差包络曲线分析方法基础上提出了多径误差包络期望分析方法。与包络曲线分析方法相比,包络期望分析方法能够定量分析导航信号多径误差。基于包络期望分析方法,对同码速率的二进制偏移载波(BOC)调制导航信号与二进制相位控键(BPSK)调制导航信号的多径误差进行了对比分析。结果表明,BOC调制导航信号具有更小的典型多径误差。 相似文献
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BOC调制信号多径误差分析 总被引:1,自引:0,他引:1
针对导航信号的多径误差分析,在多径误差包络曲线分析方法基础上提出了多径误差包络期望分析方法.与包络曲线分析方法相比,包络期望分析方法能够定量分析导航信号多径误差.基于包络期望分析方法,对同码速率的二进制偏移载波(BOC)调制导航信号与二进制相位控键(BPSK)调制导航信号的多径误差进行了对比分析.结果表明,BOC调制导航信号具有更小的典型多径误差. 相似文献
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BOC(binary offset carrier)信号自相关函数存在多值性,BOC信号的捕获不能简单地移植GPS信号捕获算法。在分析经典并行码相位算法和BOC信号互相关特性基础上,仿真分析了并行码相位搜索算法对BOC信号进行捕获的有效性,并针对经典算法在低信噪比条件下捕获信号存在的不足,对经典算法进行了改进设计,并利用改进算法对多种BOC信号进行了仿真分析。结果表明,本文提出的改进捕获算法适用于BOC(pn,n)信号(p为整数),扩展了经典算法的适用范围,且与经典算法相比,改进捕获算法对所给定BOC信号能够改善捕获信噪比10dB,可显著提高接收机捕获灵敏度,对接收机BOC信号捕获算法设计具有重要意义。 相似文献
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Weighted discriminators for GNSS BOC signal tracking 总被引:1,自引:1,他引:0
Modern Global Navigation Satellite System including Galileo and GPS III will employ multiplexed binary offset carrier (MBOC) modulation to achieve spectrum separation and enhanced tracking performance. A challenge of the MBOC or BOC signal tracking is the presence of ambiguities due to multiple sidepeaks of the autocorrelation functions. Several different techniques including multi-correlator and double estimator schemes have been proposed to address the ambiguity issue. We propose a class of ambiguity-free code tracking techniques by exploiting the unique features of the BOC modulation. In the proposed architecture, the incoming BOC-modulated signals are correlated with BOC-modulated replica and the spreading codes, respectively. Through a multiplicative combination strategy of the two correlator outputs, a noncoherent weighted discriminator is formed and shown to possess the ambiguity-free property. The multipath effect is assessed and compared with existing early-minus-late power and autocorrelation sidepeak cancellation technique discriminators. The noise effects of the theory and simulation are also discussed. In order to further verify the proposed scheme, a set of field data of a Galileo in-orbit validation satellite is collected and processed. It is demonstrated that the proposed method is simple to implement, free from ambiguities, and yields acceptable performance in the presence of multipath and noise. 相似文献
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北斗三号卫星导航系统(BDS-3)B1C信号相较北斗二号卫星导航系统卫星信号,从信号结构、编码方式再到导航电文结构都发生了改变,包括引入导频信号、二次编码、BOC调制、LDPC编码和B-CNAV1导航电文结构等.这些改变一方面提高了信号性能(如抗多路径、信号捕获和跟踪精度等);另一方面,也带来了一系列问题,对接收机的信号捕获技术提出了全新的要求,如需处理更大的数据流,解决由二次编码带来的符号翻转和BOC调制造成的捕获多峰性问题.针对BDS-3接收机的工程实现,本文提出了一种新颖有效的两级B1C信号捕获技术.其中第一阶段采用扩展并行平均相关搜获结构,用以解决符号翻转问题,同时实现高效的信号粗捕获;第二阶段在缩小的搜索范围内进行高精度搜索,此步骤可有效避免信号多峰性造成的误锁可能.除此之外,本文还介绍了单信道和多信道组合式捕获技术,用户可根据资源占用和捕获灵敏度需求选取更有效的捕获方法.实验结果表明,本文提出的方法允许使用更小更经济的快速傅里叶变换(FFT)模块,并通过大量并行处理的方法实现快速捕获.相较传统的高精度捕获技术,此方法在采样频率超过50 MHz时,能够在保证相近的捕获精度的同时减少至少61%的运算量. 相似文献
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The analysis of tracking loops for global navigation satellite systems (GNSS) receivers is often confined to Monte Carlo approaches that can result in long simulation times and a limited number of simulation runs. A different approach based on Semi-Analytic principles is considered here. Matlab® code implementing a Semi-Analytic framework for the fast simulation of GNSS digital tracking loops is presented. The code structure is detailed and two specific examples implementing a standard PLL and the Double Estimator for unambiguous binary offset carrier (BOC) tracking are provided. The code has been organized in a modular way, and can be easily modified for the simulation of different tracking loops. 相似文献
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GPS Solutions - Binary offset carrier (BOC) modulation technology is widely used in newly developed and modernized global navigation satellite systems. BOC signal offers superior performance over... 相似文献