共查询到20条相似文献,搜索用时 125 毫秒
1.
Myriam Foucras Jérôme Leclère Cyril Botteron Olivier Julien Christophe Macabiau Pierre-André Farine Bertrand Ekambi 《GPS Solutions》2017,21(2):293-306
In global navigation satellite system (GNSS) receivers, the first signal processing stage is the acquisition, which consists of detecting the received GNSS signals and determining the associated code delay and Doppler frequency by means of correlations with a code and carrier replicas. These codes, as part of the GNSS signal, were chosen to have very good correlation properties without considering the effect of a potential received Doppler frequency. In the literature, it is often admitted that the maximum GPS L1 C/A code cross-correlation is about ?24 dB. We show that this maximum can be as high as ?19.2 dB when considering a Doppler frequency in a typical range of [?5, 5] kHz. We also show the positive impact of the coherent integration time on the cross-correlation and that even a satellite with Doppler outside the frequency search space of a receiver impacts the cross-correlation. In addition, the expression of the correlation is often provided in the continuous time domain, while its implementation is typically made in the discrete domain. It is then legitimate to ask the validity of this approximation. Therefore, the purpose of this research is twofold: First, we discuss typical approximations and evaluate their regions of validity, and second, we provide characteristic values such as maximums and quantiles of the auto- and cross-correlation of the GPS L1 C/A and Galileo E1 OS codes in the presence of Doppler, for frequency ranges up to 50 kHz and for different integration times. 相似文献
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The initial acquisition of direct-sequence spread-spectrum (DSSS) signal transmitted in bursts by ground terminals at satellite-borne receiver poses an engineering challenge. We propose a low-complexity acquisition algorithm that is capable of capturing extremely weak DSSS signal in the presence of large Doppler dynamics. The algorithm uses fast Fourier transform (FFT)-based frequency-domain techniques to implement circular correlations between the received signal and the local pseudo-random noise (PRN) code, and it coherently accumulates the correlation results across multiple PRN code periods, to achieve a sufficient signal–noise ratio for reliable acquisition. We invoke another FFT procedure to perform the coherent accumulation and the fine compensation for the residual Doppler frequency offset. To highlight the advantage of the proposed algorithm, we make a complexity comparison among the proposed algorithm and two other benchmark strategies, namely the modified double block zero padding (MDBZP) and two-dimensional exhaustive search (2D-ES). It is shown that the proposed algorithm has the lowest complexity, which is particularly desirable for satellite-borne receivers where the computational resource is limited. The acquisition performance of the proposed algorithm is verified by theoretical analysis and Monte Carlo simulations and compared with that of MDBZP and 2D-ES. Moreover, we have carried out extensive tests on a hardware verification system, and we show the claimed tradeoff between performance and cost is indeed attainable with the suggested algorithm. Numerically, it is found the proposed algorithm can achieve a detection rate of 0.9 and a false alarm rate of \(10^{ - 5}\) at C/N 0 = 29.5 dBHz over a Doppler frequency offset range of \(\left[ { - 7.5\,{\text{kHz}},7.5\,{\text{kHz}}} \right]\) in floating-point simulation, which coincides with the analytical results. The same performance is achieved at C/N 0 = 31 dBHz in fixed-point simulation and at C/N 0 = 31.5 dBHz on a hardware system. 相似文献
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在变形监测中获取的观测数据可以看作是时间与空间上的一组变形信号,一般该信号都会呈现趋势性,隐藏其中的周期性不易被发现;利用FFT对其拟合后的残差和小波分解后的高频信号进行变换与分析,通过时间序列分析对其分析结果建模得到短期的预测、预报,效果比较理想。 相似文献
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窄带干扰抑制的关键在于抑制干扰的同时尽可能地减少有用信号的损耗,论文基于时频域结合的干扰抑制方法,在完成频域干扰参数检测的基础上,重点针对影响干扰抑制效果和有用信号损耗的关键环节——无线冲激响应(IIR)陷波器的设计展开研究,根据零极点配置原理,通过理论研究和详细的推导分析,提出通过增加一对零极点,并结合理论计算确定极角与极径,在保证通带增益可控且过渡带对称的前提下,使陷波器得到更为陡峭的带阻特性,理论上可减少有用信号的损耗、提高抑制干信比. 与目前主流的时域最小均方算法(LMS)算法、基于快速傅里叶变换(FFT)的频域抑制算法和传统型时频域结合算法的仿真结果对比证明,提出的方法捕获峰噪比分别提升了53.47%、8.369%和5.907%,平均输出载噪比分别提升了5.1472 dB、2.0037 dB和0.5086 dB,在有效抑制干扰的同时,保留了更多的导航信号. 相似文献
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针对传统导航信号捕获算法资源消耗大、多普勒分辨率低的问题,提出了一种基于预平均处理的变系数匹配滤波的快速捕获方法. 该方法将经过预平均处理后的导航中频信号和本地信号主码存入相应存储器,然后经变系数匹配滤波器完成相关累加,再经快速傅里叶变换(FFT)频率估计器完成数据的频谱分析,最后利用验证模块对FFT输出结果的最大值进行二次验证,完成捕获检测. 所提方法在达到相同积分时间的同时节省了50%硬件资源,能够提高捕获多普勒分辨率以提高转跟踪成功率,通过软件灵活配置可以实现多系统多频点全球卫星导航系统(GNSS)信号的兼容处理. 相似文献
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部分匹配滤波器与FFT相结合的捕获模型使用在高动态环境下导航信号的捕获中,由于它对多普勒频率误差有较高的容忍度,因此可以直接进行频域的并行搜索,大大降低了平均搜索时间,并使整个系统依然具有较高的检测概率. 文中通过建立数学模型,对PMF FFT捕获算法的原理及特性及其在捕获流程中的各部分损耗进行了详细的分析,并针对P码的非周期特性,使用重叠保留法对PMF FFT算法进行了改进,使用基于FFT的并行码相位搜索的方法,在频域内实现了时域相关运算,进一步减少了捕获时间. 最后依据“达到等效判决信噪比时总运算时间最少”原则,对算法中各项参数的设计提出了指导意见,具有一定的参考价值。 相似文献
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长周期精密测距码(P码)的直接捕获技术对提高导航接收机的性能十分关键,为了设计出高动态、低信噪比环境下的P码快速直接捕获接收机,采用部分匹配滤波器组实现伪码时域并行搜索,结合小点数的快速傅里叶变换(FFT),将匹配滤波器输出的部分相关值进行功率谱分析,完成多普勒频率偏移的并行搜索。硬件实现时结合FPGA的特殊结构,提高资源利用率,同时采用并行流水机制处理ADC的采样信号,对于每一个采样点,均可以在下一个采样点到达之前完成该点的码相位和频率的二维搜索。对比国内外P码接收机的研究成果,算法在捕获时间上有很大改进。在信号功率为-165 dBW,伪码相位±1 s的时间不确定度,以及多普勒频率偏移±16 kHz的条件下,捕获时间小于10 s,完全适用于高动态环境下的P码快速直接捕获。 相似文献
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Youssef Tawk Cyril Botteron Aleksandar Jovanovic Pierre-André Farine 《GPS Solutions》2012,16(2):243-258
The world of global navigation satellite systems has been enhanced with several new or improved signals in space aiming to
optimize accuracy, reliability, navigation solution, and interoperability between different constellations. However, such
developments bring various challenges to the receivers’ designers. For example, acquisition and tracking stages turn into
more complex processes while handling the increasing bandwidth requires additional processing power. In this context, we study
the code tracking of Galileo E5ab in a full band or of only one of its components, i.e., either E5a or E5b. More specifically,
an architecture for tracking the E5 pilot channel as an AltBOC(15,10) or BPSK(10) modulation is introduced, and the performance
of well-known discriminator types is analyzed using analytical derivations and simulations of linearity and stability regions,
thermal noise tracking errors, multipath error envelopes and tracking thresholds. Different parameters, such as the front-end
filter bandwidth, the early/late chip spacing, un-normalized and normalized discriminators, are taken into consideration.
The results obtained are used to illustrate the main advantages and drawbacks of tracking the E5 signal as well as to help
defining the main tracking loop parameters for an enhanced performance. 相似文献
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This study analyzes the quality of onboard data of tracking signals from GPS satellites on the far side of the earth and determines the orbit of the geostationary satellite using code and carrier phase observations with 30-h and 3-day orbit arc length. According to the analysis results, the onboard receiver can track 6–8 GPS satellites, and the minimum and maximum carrier to noise spectral densities were 24 and 45 dB-Hz, respectively. For a GPS receiver on a high-altitude platform above the navigation constellations, the blocking of the earth and a weak signal strength usually cause a piece-wise GPS signal tracking and an increase in the number of ambiguity parameters. Individual GPS satellites may be continuously tracked for as little as several minutes and as long as 3 h. Moreover, considering the negative sign of elevation angles reflects the fact that GPS satellites are tracked below the receiver in the study. GPS satellites appear mainly in the elevation angle range of ??53° to ??83°, and dilution of precision values could reach ten or one hundred and more. Also, it is observed that when a signal suffers from atmospheric refraction, other GPS signals tracked simultaneously by the receiver experience strong systematic errors in the code observations. Based on single-frequency code and carrier phase measurements, the mean 3D root mean square (RMS) value of the overlap comparisons between 30-h orbit determination arcs is 2.14 m. However, we found that there were also some biases in the carrier phase residuals, which contributed to poor orbit accuracy. To eliminate the effects of the biases, we established a correction sequence for each GPS satellite. After corrections, the mean 3D RMS was reduced to 0.99 m, representing a 53% improvement. 相似文献
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A Kalman filter-based method combining the energy of both L1 C/A and L2C GPS signals in a combined tracking loop method to
enhance performance under adverse conditions is developed. Standard tracking methods and the ionospheric effect on GPS signals
are reviewed and compared to a new Kalman filter that simultaneously estimates delay, phase and total electron content by
combining L1 C/A and L2C code and phase discriminator outputs. The new filter is tested and compared to standard methods for
tracking L1 C/A and L2C using both simulated and real data. The new method is found to have improved sensitivity of 3 dB compared
to standard L1 tracking and 4.5 dB compared to standard L2C tracking while at the same time providing an accurate estimate
of the total electron content along the signal path. 相似文献
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In the design of a global navigation satellite system receiver, the tracking performance depends on the code tracking loop
and the associated discriminator. An adaptive code discriminator under a multi-correlator architecture has been designed based
on a multi-objective principle to achieve a balance among various, sometimes conflicting, design objectives. With the proposed
optimization approach and adaptive logic, concerns of large pull-in region and small steady-state error can be addressed.
The proposed scheme is implemented in a digital signal processor/field programmable gate array board and an experiment is
conducted to process GIOVE-A signals. The test results reveal the advantages of the proposed code tracking architecture and
discriminator design. 相似文献
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针对地基伪卫星系统中接收机受到远近效应影响无法正确捕获远场伪卫星信号这一问题,引入了基于正交子空间投影算法的捕获优化方法.该方法应用于码分多址伪卫星信号,通过常规滑动相关法得到的强信号码相位和多普勒频移计算正交投影算子,将接收信号与其在强信号空间的投影相减得到弱信号空间并重新进行捕获,以消除强信号对弱信号的干扰.实验结果表明:强弱信号在小于30 dB的功率比范围内,应用正交子空间投影法可以有效改善弱信号捕获性能.这对拓宽地基伪卫星系统的有效工作范围、提升伪卫星接收机信号功率比容忍限度具有重大意义. 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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干涉测量技术对于直接获取月球和深空探测器空间方位,开展科学研究具有非常重要的意义。提出了一种利用高品质因数天线获取的探测器高动态飞行段估计信息,对远距离异地较低接收品质因数天线接收的弱信号进行补偿,进而实现弱信号窄带跟踪的方法。利用嫦娥三号动力落月段中欧联合干涉测量获取的原始数据进行了验证,结果表明,基于该方法补偿后的弱信号只需采用噪声带宽5 Hz的数字锁相环即可实现精确相位跟踪,对新诺舍站DOR(differential one-way ranging)音信号的相位估计标准差低至3.4°。该方法可应用于中国未来月球和深空探测,以及机构间干涉测量交互支持。 相似文献
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