共查询到17条相似文献,搜索用时 203 毫秒
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原子钟噪声的蒙特卡络模拟方法 总被引:1,自引:0,他引:1
讨论了原子钟噪声的蒙特卡络模拟方法.具体过程是:先产生模拟所需的正态分布随机数,从实际钟的阿仑方差估算出噪声电平,然后用1组递点函数产生高质量的模拟钟时差的随机序列.在对1台商品铯钟进行具体模拟后,给出了真实数据与模拟值的阿仑方差之问的相符程度,最后对实际问题进行了分析. 相似文献
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原子钟通过稳定的频标来测量时间,但频标输出信号会受到不同来源噪声的影响,因此原子钟间相位偏差可以看作服从幂律∑hαfα的连续随机过程。该随机过程并非平稳的,一般是通过高阶的差分使得序列平稳化,常用的时域频率稳定度评估方法便是采用此种思路。幂律噪声实际是对白噪声过程进行微分和积分得来,不同幂律的噪声对应不同的随机微分方程,实际上幂律噪声的仿真也是通过白噪声基于此实现的。首先介绍了不同幂律噪声的鉴定方法,并结合文献给出常见幂律噪声对应的微分方程;然后介绍了不同频率稳定度评估方法之间的关系和其相应的传递函数,并简单总结了其置信区间的计算方法。该文的工作有助于构建原子钟随机模型和频率稳定度评估方法。 相似文献
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氢原子钟具有较高的短期稳定度,将其作为主钟可在短期内产生高精度的本地时间信号.但氢钟存在频率漂移现象,导致其长期稳定度较差,从而影响本地时间的准确性.毫秒脉冲星自转高度稳定,借助于其长期稳定度高的特性,可定期实现对氢原子钟的频率驾驭,并对实时信号加以控制.首先分析了国际脉冲星计时阵(International Pulsar Timing Array,IPTA)第二批发布数据中四颗毫秒脉冲星的稳定度随时间的变化,同时采用哈达玛方差分析了中国科学院国家授时中心(National Time Service Center,NTSC)一台氢钟的频率稳定性能,最终给出了利用脉冲星驾驭氢原子钟频率的方法. 相似文献
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对表征频率稳定度的σy(τ)和σz(τ)方法进行了分析比较。以PSRB1 855 0 9计时观测得到的脉冲星时为例 ,用两种方法估计了其频率稳定度。计算结果和分析表明σz(τ)方法更适合于估计脉冲星时间的频率稳定度 相似文献
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对遇险目标搜索救援的支持是GALILEO全球卫星导航系统的一项重要民用服务.文章介绍了GALILEO搜索救援子系统(SAR)定位的基本原理.在GALILEO SAR中测量量为时间信号与频率信号,文章详细地给出了两种测量信号的定位方法.基于多传感器信息融合技术,对搜索救援系统中不同测量信号进行综合状态估计.在仿真计算中,采用带噪声的模拟测量数据进行定位,数值计算的结果显示基于多传感器数据融合方法的综合状态估计是可靠的. 相似文献
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G. Kovács 《Solar physics》1983,82(1-2):123-128
The accuracy of frequency determination by a least squares technique for an autoregressive spectral estimator is studied and compared with the Fourier method. Using numerical tests the probability distribution function of the peak location is calculated. The autoregressive filter order is optimized in the sense of minimum variance of the peak location. Simple sinusoidal signals with additive Gaussian noise are considered and the effect of other components is only indicated. Generally, a filter order between 1/3 and 1/2 of the total data number and a not very dense data sampling, gives the most stable spectrum. The results are numerical. 相似文献
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Z. M. Malkin 《Kinematics and Physics of Celestial Bodies》2011,27(1):42-49
Recently, the Allan variance (AVAR), suggested more than 40 years ago to describe the instability of frequency standards,
has been used extensively to study various time series in astrometry, geodesy, and geodynamics. This method makes it possible
to effectively study the characteristics of the noise component of data, such as the change of location of stations, coordinates
of radio sources, etc. Moreover, AVAR may be used to study the spectral and fractal structure of this noise component. To
handle unequal and multivariate observations, which are characteristic of many astronomical and geodetic applications, the
author suggests appropriate AVAR modifications. A brief overview of classical and modified AVAR in astrometry and geodynamics
is given. 相似文献
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Nine of the most important estimators known for the two-point correlation function are compared using a predetermined, rigorous criterion. The indicators were extracted from over 500 subsamples of the Virgo Hubble volume simulation cluster catalog. The "real" correlation function was determined from the full survey in a 3000 h(-1) Mpc periodic cube. The estimators were ranked by the cumulative probability of returning a value within a certain tolerance of the real correlation function. This criterion takes into account bias and variance, and it is independent of the possibly non-Gaussian nature of the error statistics. As a result, for astrophysical applications, a clear recommendation has emerged: the Landy & Szalay estimator, in its original or grid version (Szapudi & Szalay), is preferred in comparison with the other indicators examined, with a performance almost indistinguishable from the Hamilton estimator. 相似文献
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《New Astronomy》2019
We show that galaxy ellipticity estimation for weak gravitational lensing with unweighted image moments reduces to the problem of measuring a combination of the means of three independent normal random variables. Under very general assumptions, the intrinsic image moments of sources can be recovered from observations including effects such as the point-spread function and pixellation. Gaussian pixel noise turns these into three jointly normal random variables, the means of which are algebraically related to the ellipticity. We show that the random variables are approximately independent with known variances, and provide an algorithm for making them exactly independent. Once the framework is developed, we derive general properties of the ellipticity estimation problem, such as the signal-to-noise ratio, a generic form of an ellipticity estimator, and Cramér-Rao lower bounds for an unbiased estimator. We then derive the unbiased ellipticity estimator using unweighted image moments. We find that this unbiased estimator has a poorly behaved distribution and does not converge in practical applications, but demonstrates how to derive and understand the behaviour of new moment-based ellipticity estimators. 相似文献
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G. Efstathiou 《Monthly notices of the Royal Astronomical Society》2005,356(4):1549-1558
Destriping methods for constructing maps of the cosmic microwave background (CMB) anisotropies have been investigated extensively in the literature. However, their error properties have been studied in less detail. Here we present an analysis of the effects of destriping errors on CMB power spectrum estimates for Planck -like scanning strategies. Analytic formulae are derived for certain simple scanning geometries that can be rescaled to account for different detector noise. Assuming Planck -like low-frequency noise, the noise power spectrum is accurately white at high multipoles (ℓ≳ 50) . Destriping errors, though dominant at lower multipoles, are small in comparison to the cosmic variance. These results show that simple destriping map-making methods should be perfectly adequate for the analysis of Planck data and support the arguments given in an earlier paper in favour of applying a fast hybrid power spectrum estimator to CMB data with realistic '1/ f ' noise. 相似文献