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高频GNSS震时形变波震相及识别是GNSS地震学的重要内容.在实时数据处理基础上,本文利用振动台的高频GNSS观测实验,并结合近期部分大震的高频GNSS形变波震相特征进行研究.数据处理结果表明,实时处理与事后处理的精度在同一量级,且与采样率无关.通过与同址观测强震仪和地震计记录的对比及特定震相的频谱分析,发现高频GNSS可完整记录P波、S波、Love波及Rayleigh波震相,影响震相记录的主要因素是GNSS定位精度与震级,而仅当震中距很小时,采样率将产生一定影响.研究结果得出:基于地震波传播规律,利用高频GNSS台阵记录的形变波空间分段特征,结合震相运动轨迹及其他地震波记录,可实现实时高频GNSS形变波的震相识别. 相似文献
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实际地震波形观测表明,对于大陆结构相对简单的地壳中的地震而言,有一震相出现在P 波和S波之间.一般在30~50 km附近发育得较好,其能量主要集中在径向分量,而垂向分量的振幅相对径向要小,切向分量上的振幅很弱,且波形以低频为主,通常没有P波尖锐.在利用FK方法计算合成地震图的基础上,发现该震相是由S波入射到自由地表形成水平传播的P波(文献称为surface P wave,自由地表P波)或者包括S波入射到地表后形成的多次P波或其散射震相.由于该震相是由S波和P波之间耦合而形成,本文将其定义为sPL(s coupled into P) 震相.理论波形研究表明,sPL相对直达P波的到时差对震中距离不敏感,而随着震源深度的增加几乎呈线性增加,因此可以很好的约束震源深度.本文以2005年江西九江地震为例,证实了sPL确定震源深度的可行性和可靠性.在观测到sPL震相的情况下,离震源50 km以内的一个三分量地震台站的波形就可以帮助获得可靠的震源深度,而不需要精确的震中距离.由于sPL震相出现距离较近,对于较小(三级以上)的地震也可以应用,因此在稀疏台网布局情形下sPL对于确定中小地震深度应该具有很好的应用意义. 相似文献
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以UNAVCO公布的阿拉斯加地区GPS 1 Hz和30 s采样观测数据为基础,采用双差定位方法分别对两种采样率的数据进行处理分析,获得2020年7月22日阿拉斯加MW7.8地震震时地表动态变形及同震三维形变场。结果显示,震中270 km范围内高频GPS震时波形明显,最大振幅达600 mm。根据各个GPS站的动态形变波形振幅及响应时间认为,其振幅和响应时间受地震的破裂传播方向和场地效应影响较大。静态同震位移矢量指向震中,同震位移大小基本符合随震中距离增大而减小的特征,除站点AC13外,其中距离震中最近站点的最大水平位移达26.7 cm。GPS测定的同震形变表明,2020年阿拉斯加地震是发生在阿拉斯加阿留申俯冲大断裂的一次逆冲型地震。 相似文献
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本文利用GPS观测的1999-2007年汶川震前3期地表变形数据和2008年汶川同震地表变形数据,结合地震位错理论,通过高斯变换和坐标旋转建立断层模型,运用遗传算法,反演了龙门山断裂带断层震前3期和同震滑动参数。结果表明龙门山断层震前3期平均走滑位移为-5.39mm,倾向位移为2.66mm,与同震断层滑移相比较,发现震前断层的滑移趋势与同震断层滑移一致,均为逆冲兼右旋的挤压运动。比较震前3期逆冲方向的滑移量,发现逆冲滑移有加速的现象。并根据震前和同震的断层滑动量估算了汶川地震复发周期。 相似文献
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提出了一种用于地震早期预警的S波震相实时自动识别方法. 该方法不对原始信号进行任何滤波处理, 直接对三分向记录进行计算分析. 首先根据P波前0.5 s数据的卓越频率计算适用于该三分向记录的窗长, 采用由偏斜角和水平能量与总能量比值的平方积作为确定S波识别区间的特征函数, 将特征函数已有数据的5倍均值和5倍方差之和作为识别区间的触发阈值; 然后采用VAR-AIC方法对两个水平分向识别区间的数据分别计算分析, 对两个识别结果进行判断, 最终确定S波初动时刻. 经过对118个三分向记录的实际应用验证, 通过自动识别结果与人机交互震相识别结果相比, 本文方法对于S波相对P波尾波信噪比大于5 dB的地震记录, 其识别误差小于0.1 s的概率高达89.39%. 相似文献
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本文选取2013年10月到2018年12月期间松原市周边17个地震台记录到的515个地震事件的2926条P波和2665条S波到时数据,采用双差成像方法联合反演松原地震区震源参数和中上地壳(0~25 km)高分辨率三维体波速度和波速比结构,进而利用O'Connell-Budiansky理论估计了该区岩石介质的裂缝密度和饱和度参数.重定位后的震源参数精度有了显著提高.松原震区P波和S波的速度、波速比结构均表现出明显的不均匀特性,主要表现为低P波、低S波、低波速比结构,推测松原地震区发生更大地震的可能性较低.松原震群区浅地表区域(<5 km)整体表现为低P波、低S波和高波速比结构,而岩石介质的裂缝密度和饱和度表现为高值.浅层高波速比、高裂缝密度和高饱和度结构可能与流体有关;从区域构造出发表明松原地震发震构造与东北地区的区域构造应力场密切相关.松原震区的三维精细速度和高精度震源位置信息为深入了解该地区的地壳结构、孕震构造和地震活动性提供重要参考. 相似文献
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Preliminary assessment of the navigation and positioning performance of BeiDou regional navigation satellite system 总被引:7,自引:0,他引:7
YANG YuanXi LI JinLong WANG AiBing XU JunYi HE HaiBo GUO HaiRong SHEN JunFei DAI Xian 《中国科学:地球科学(英文版)》2014,57(1):144-152
BeiDou regional navigation satellite system(BDS)also called BeiDou-2 has been in full operation since December 27,2012.It consists of 14 satellites,including 5 satellites in Geostationary Orbit(GEO),5 satellites in Inclined Geosynchronous Orbit(IGSO),and 4 satellites in Medium Earth Orbit(MEO).In this paper,its basic navigation and positioning performance are evaluated preliminarily by the real data collected in Beijing,including satellite visibility,Position Dilution of Precision(PDOP)value,the precision of code and carrier phase measurements,the accuracy of single point positioning and differential positioning and ambiguity resolution(AR)performance,which are also compared with those of GPS.It is shown that the precision of BDS code and carrier phase measurements are about 33 cm and 2 mm,respectively,which are comparable to those of GPS,and the accuracy of BDS single point positioning has satisfied the design requirement.The real-time kinematic positioning is also feasible by BDS alone in the opening condition,since its fixed rate and reliability of single-epoch dual-frequency AR is comparable to those of GPS.The accuracy of BDS carrier phase differential positioning is better than 1 cm for a very short baseline of 4.2 m and 3 cm for a short baseline of 8.2 km,which is on the same level with that of GPS.For the combined BDS and GPS,the fixed rate and reliability of single-epoch AR and the positioning accuracy are improved significantly.The accuracy of BDS/GPS carrier phase differential positioning is about 35 and 20%better than that of GPS for two short baseline tests in this study.The accuracy of BDS code differential positioning is better than 2.5 m.However it is worse than that of GPS,which may result from large code multipath errors of BDS GEO satellite measurements. 相似文献
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The present study describes a new system designed and developed for observing crustal deformation on the sea floor. The system consists of two parts, the kinematic positioning by global positioning system (GPS) and acoustic ranging techniques. Since the location of a site at the ocean bottom relative to a reference site on land cannot be determined directly, the procedure was divided into two steps. First, the position of a vessel was determined using differential and kinematic GPS techniques, and then the position of a reference point at the ocean bottom was located relative to the vessel using the acoustic ranging technique. Thus, the location of the ocean-bottom station is determined relative to the reference sites on land in the global reference system. The accuracy was tested in several ways. In one experiment, a buoy was used as the surface station which linked the positions of a GPS receiver to the acoustic transponder. Assuming a simple sound velocity profile of the seawater, the position of an ocean-bottom reference point was estimated with an accuracy of several meters. Thus, with the present system, it is difficult to observe ocean-bottom crustal deformations generated by typical plate motions. Methods are being investigated to improve the observation system for more accurate sea floor positioning. 相似文献
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提出了一种基于拟准检定的实时单站GPS载波相位观测数据历元间差分提取同震速度的改进算法.改进算法将实时高频历元差分数据质量控制作为同震速度准确提取的重要保障,对原始高频数据中的小周跳和粗差十分敏感,且能够有效地估计小周跳和粗差,从而抵抗它们对同震速度估计的不良影响;另外,改进算法还简化了数据处理流程,也使得利用广播星历单站提取同震速度、监测地震形变的算法更为稳健.选取了2011年3月11日日本大地震距离震中140 km的MIZU站1 Hz高频GPS观测数据和广播星历来测试改进算法.结果表明:拟准检定法具有更好的小周跳与粗差自动定位和估计性能,改进算法利用广播星历求得的同震速度与事后动态精密单点定位结果表现出很好的一致性. 相似文献
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Pawel Wielgosz Andrzej Krankowski Rafal Sieradzki Dorota A. Grejner-Brzezinska 《Acta Geophysica》2008,56(4):1147-1161
Real Time Kinematic (RTK) GPS positioning over longer distances requires a support of atmospheric (ionospheric and tropospheric) corrections, since the atmospheric errors decorrelate with the growing distances and cannot be completely eliminated by double differencing of the satellite observations. Currently, the most commonly used approach is to derive the atmospheric corrections at the reference station network and provide them in real time to the roving receiver. Another solution, proposed here, is to use predictive atmospheric models in order to derive the atmospheric corrections. This paper presents the test results of the performance assessment of the predictive ionosphere model (UWM-IPM) application to medium-range RTK positioning. The rover data collected within 25 to 67 km from the closest reference station were processed in the kinematic mode with the support of the ionospheric corrections derived from the UWM-IPM model. The RTK solution was derived in both single-and multi-baseline modes, and compared to the two reference solutions obtained without the ionospheric corrections. All numerical tests were carried out using the MPGPS software developed in cooperation with The Ohio State University; a recent extension to the software, developed at the University of Warmia and Mazury in Olsztyn, introduces the predictive ionosphere model to the RTK solution. The test results are very promising, and indicate that predicted ionosphere corrections can effectively support medium-range RTK positioning, and allow for fast ambiguity resolution over distances of several tens of kilometers under moderate ionospheric conditions. 相似文献
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In this paper, we derived a high-efficiency formula for calculating the precision of carrier phase relative positioning,analyzed the various factors that affect the positioning accuracy using the carrier phase, and proposed the concept of using a frequency dilution of precision to describe the quantitative effect of different frequency combinations on the positioning precision. To this end, we computed and plotted the global spatial distribution map of the relative positioning dilution of precision for single-day solution, half-hour solution, and single-epoch solution of the global positioning system(GPS), regional Beidou navigation satellite system(BDS2), future global Beidou navigation satellite system(BDS3), and their fusion systems.Using processing software with autonomous intellectual property rights(GCN and VENUS/ARSNet), we solved the measurement data and examined the positioning precision of the single-day solution and single-epoch solution of GPS and BDS2.The analysis demonstrated that the B1/B2 frequency positioning precision of BDS2 was better than that of L1/L2 frequency positioning of GPS, but the positioning precision of the BDS2 is worse than that of GPS over most of the service region of the BDS2. Further, the positioning precision of BDS3 is better than that of GPS in the Asia-Pacific region, while it is the opposite in other regions. Based on these conclusions, we put forth some optimization recommendations regarding the signal frequency of the navigation system and GPS measurement standards to serve as references for optimizing the system performance and formulating standards. 相似文献
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全球范围内大量布设的GNSS(Global Navigation Satellite System)参考网为精密定位、导航和授时等应用提供了丰富的数据资源.基于局域参考网,先后发展了若干侧重实现双频精密定位的技术,如NRTK(Network Real Time Kinematic),PPP(Precise Point Positioning)和PPP-RTK等.其中,PPP-RTK融合了NRTK和PPP的技术优势,是目前相关研究的热点.本文改进了利用局域参考网提取各类改正信息的算法,以便于实现单频PPP-RTK,具体步骤包括:1)逐参考站实施非组合PPP,并固定已知站星距和卫星钟差,预估电离层延迟、浮点模糊度等参数;2)联合所有参考站的PPP模糊度预估值,通过重新参数化,形成一组双差整周模糊度和接收机、卫星相位偏差;3)固定双差整周模糊度,精化求解卫星相位偏差和各参考站PPP电离层延迟.基于网解中用到的卫星轨道和钟差,以及网解所提供的卫星相位偏差和(内插的)电离层延迟,参考网内的单频流动站即可实施PPP-RTK.基于澳大利亚某连续运行参考站网和流动站的实测数据,考察了:1)参考网数据处理中,双差模糊度的固定成功率(98.89%)和卫星相位偏差估值的时间稳定性(各连续弧段优于0.2周);2)流动站处电离层延迟的内插精度(优于10cm);3)单天内任一历元起算,固定静态(动态)单频PPP整周模糊度所需时长(均不超过10min);4)模糊度固定前后,单频动态PPP的定位精度(模糊度固定后,平面和天顶RMS分别优于5cm和10cm;模糊度固定前,相应RMS仅为28~53cm). 相似文献
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合理的随机模型是确定高精度卫星轨道的前提条件,目前广泛应用于地面观测数据的随机模型主要有高度角模型和载噪比模型,本文通过对GRACE卫星实测数据的分析表明上述随机模型均不能很好地描述GRACE卫星星载GPS观测值的噪声特点,为此,文中提出了扩展的高度角模型和扩展的载噪比随机模型.利用自主研发的精密定轨软件,分别采用高度角模型、扩展的高度角模型、载噪比模型、扩展的载噪比模型对GRACE卫星进行了轨道确定.数值结果表明:(1)高度角模型的运动学轨道径向精度为3.4 cm,扩展的高度角模型的为3.3 cm;(2)载噪比模型的运动学轨道径向精度为4.9 cm,扩展的载噪比模型的则为3.4 cm,精度提高了1.5 cm.经比较分析,文中提出的扩展的高度角模型和载噪比模型能更好地描述GRACE卫星观测值噪声特点,并能取得更高的卫星定轨精度. 相似文献
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Effects of ionospheric horizontal gradients on differential GPS 总被引:2,自引:0,他引:2
This paper outlines the effect of horizontal ionospheric gradients on transionospheric path propagation such as for the case
of GPS signals. The total electron content (TEC) is a function of time of day, and is much influenced by solar activity and
also the receiving station location. To make the model applicable for long baselines, for which the ionosphere is not generally
well correlated between receiving stations, the ionospheric gradients should be taken into account. In this work the signal
path is determined using a modified ray-tracing technique together with a homing-in method. Results show that horizontal gradients
can have a significant effect on GPS positioning for both single station positioning and differential GPS. For differential
GPS, the ionospheric delay can, however, be either increased or decreased compared with the case of no gradient, depending
on the gradient direction. 相似文献
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航空重力测量是使用重力仪、GPS及其他传感器测定地球重力场的一种新型技术,其基本原理是利用重力仪测定包括重力加速度、载体运动加速度以及其他一些加速度在内的总加速度,从观测值中减去利用GPS确定的载体运动加速度,再加上一些改正,得到了重力加速度. 本文推导了确定载体运动加速度的直接解算法的公式,利用某次航空重力测量数据,分别在静态、动态两种情况下,分析了确定载体运动加速度精度. 结果表明:在静态、60s的平滑间隔条件下,载体加速度的确定精度是0.4—0.9mGal;在动态、90s的平滑间隔条件下,整个飞行测段载体运动加速度的确定精度是1—3mGal. 相似文献
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This paper demonstrates estimation of time-varying gravity harmonic coefficients from GPS data of COSMIC and GRACE satellite missions. The kinematic orbits of COSMIC and GRACE are determined to the cm-level accuracy. The NASA Goddard's GEODYN II software is used to model the orbit dynamics of COSMIC and GRACE, including the effect of a static gravity field. The surface forces are estimated per one orbital period. Residual orbits generated from kinematic and reference orbits serve as observables to determine the harmonic coefficients in the weighted-constraint least-squares. The monthly COSMIC and GRACE GPS data from September 2006 to December 2007 (16 months) are processed to estimate harmonic coefficients to degree 5. The geoid variations from the GPS and CSR RL04 (GRACE) solutions show consistent patterns over space and time, especially in regions of active hydrological changes. The monthly GPS-derived second zonal coefficient closely resembles the SLR-derived and CSR RL04 values, and third and fourth zonal coefficients resemble the CSR RL04 values. 相似文献