A method for extracting the preseismic gravity anomalies over the Tibetan Plateau based on the maximum shear strain using GRACE data

The occurrence of earthquakes is closely related to the crustal geotectonic movement and the migration of mass,which consequently cause changes in gravity.The Gravity Recovery And Climate Experiment(GRACE)satellite data can be used to detect gravity changes associated with large earthquakes.However,previous GRACE satellite-based seismic gravity-change studies have focused more on coseismic gravity changes than on preseismic gravity changes.Moreover,the noise of the north–south stripe in GRACE data is difficult to eliminate,thereby resulting in the loss of some gravity information related to tectonic activities.To explore the preseismic gravity anomalies in a more refined way,we first propose a method of characterizing gravity variation based on the maximum shear strain of gravity,inspired by the concept of crustal strain.The offset index method is then adopted to describe the gravity anomalies,and the spatial and temporal characteristics of gravity anomalies before earthquakes are analyzed at the scales of the fault zone and plate,respectively.In this work,experiments are carried out on the Tibetan Plateau and its surrounding areas,and the following findings are obtained:First,from the observation scale of the fault zone,we detect the occurrence of large-area gravity anomalies near the epicenter,oftentimes about half a year before an earthquake,and these anomalies were distributed along the fault zone.Second,from the observation scale of the plate,we find that when an earthquake occurred on the Tibetan Plateau,a large number of gravity anomalies also occurred at the boundary of the Tibetan Plateau and the Indian Plate.Moreover,the aforementioned experiments confirm that the proposed method can successfully capture the preseismic gravity anomalies of large earthquakes with a magnitude of less than 8,which suggests a new idea for the application of gravity satellite data to earthquake research.

ESTIMATION OF CARRIER FREQUENCY OFFSETS FOR MIMO SYSTEMS WITH DISTRIBUTED TRANSMIT ANTENNAS

The problem of estimating the carrier frequency offsets in Multiple-Input Multiple-Output (MIMO) systems with distributed transmit antennas is addressed. It is supposed that the transmit antennas are distributed while the receive antennas are still centralized, and the general case where both the time delays and the frequency offsets are possibly different for each transmit antenna is considered. The channel is supposed to be frequency flat, and the macroscopic fading is also taken into consideration. A carrier frequency offset estimator based on Maximum Likelihood (ML) is proposed, which can separately estimate the frequency offset for each transmit antenna and exploit the spatial diversity. The Cramer-Rao Bound (CRB) for synchronous MIMO (i.e., the time delays for each transmit antenna are all equal) is also derived. Simulation results are given to illustrate the per- formance of the estimator and compare it with the CRB. It is shown that the estimator can provide satisfactory frequency offset estimates and its performance is close to the CRB for the Signal-to-Noise Ratio (SNR) below 20dB.

Enhancement of fMAX of InP-based HEMTs by double-recessed offset gate process

A double-recessed offset gate process technology for In P-based high electron mobility transistors(HEMTs)has been developed in this paper.Single-recessed and double-recessed HEMTs with different gate offsets have been fabricated and characterized.Compared with single-recessed devices,the maximum drain-source current(I_(D,max))and maximum extrinsic transconductance(g_(m,max))of double-recessed devices decreased due to the increase in series resistances.However,in terms of RF performance,double-recessed HEMTs achieved higher maximum oscillation frequency(f_(MAX))by reducing drain output conductance(g_(m,max))and drain to gate capacitance(C_gd).In addition,further improvement of fMAXwas observed by adjusting the gate offset of double-recessed devices.This can be explained by suppressing the ratio of C_(gd)to source to gate capacitance(C_gd)by extending drain-side recess length(Lrd).Compared with the single-recessed HEMTs,the f;of double-recessed offset gate HEMTs was increased by about 20%.

A NOVEL INTEGER FREQUENCY OFFSET ESTIMATOR FOR OFDM

One of the principal disadvantages of Orthogonal Frequency Division Multiplexing (OFDM) is very sensitive to carrier frequency offset. The integer frequency offset has no effect on the orthogonality among the subcarriers, but it causes a circular shift and phase rotation of the received data symbols sequence, resulting in a Bit Error Rate(BER) of 0.5. In this paper,a novel integer frequency offset estimator for OFDM is derived based on maximum likelihood estimation technique and exploration of the differential relation between two consecutive OFDM data symbol sequences in frequency domain. Its performance is compared with the conventional method by computer simulations for the additive white Gaussian noise channel and a multipath fading channel. Simulation results show that the performance of the proposed estimator is better than the conventional estimator.

面向主干输电网架空设备巡检的无人机路径规划方法

针对主干输电网架空设备巡检效率低、安全性差问题,提出基于遗传算法的巡检无人机路径规划方法。运用无人机定位与中心功能操作技术分析巡检路径信息,调节上位机和集中控制器的关系,创建巡检路径差异模型;充分发挥遗传算法优秀的全局搜索能力,计算最高线程距离、最小步长及最高路径偏移角收敛条件,把选择、交叉与变异看作基础算子,以最优适应度值作为路径最优解输出,实现可靠的无人机路径规划任务。仿真结果表明,所提方法可根据任务要求灵活规划不同类型路径,相较其他方法巡检规划路径最短,有效节省机动能耗,全局收敛性强。

5·12汶川地震地表破裂基本参数的再论证及其构造内涵分析

地震地表破裂基本参数是反演地震破裂过程的基本约束条件和预测其他活动断层地震危险性不可缺少的物理量.以野外地表破裂带重要观测点全站仪或差分GPS仪实测数据为基础,结合高分辨率遥感资料解译、先存断层陡坎构造地貌标志的识别、以及地形测绘资料的考证等,重新论证了5·12汶川地震地表破裂带展布样式、长度、最大同震位移值等基本参数.结果表明,地震地表破裂带长度可达240 km,最大垂直位移为6.5±0.5 m,最大右旋走滑位移4.9 m,基于倾角向下变缓逆断层模型推测汶川地震在龙门山推覆构造带中段产生了最大～7 m的地壳缩短量,说明青藏高原东缘横向逆断层为将高原内部东向水平运动转换为高原隆升的转换构造,这一研究结果有助于深化认识青藏高原东缘隆升机理.

幅相调制信号的星座图恢复与调制方式识别

针对幅相调制信号的调制方式识别问题,提出一种基于星座图恢复的算法。该算法估计信号载频及信噪比等参数,并依据波特率和符号定时完成对接收信号的波特率采样;采用一种非数据辅助载频偏差估计方法,以消除载频偏差及相位偏移对星座图恢复的影响;利用平均似然比检测的方法,完成幅相调制信号调制方式的识别。仿真结果表明,与仅考虑信号幅值分布的极大似然算法相比,该算法具有识别性能更优。

基于目的层反射能量二次导数的炮检距设计

在地震勘探中,观测系统的设计对提高采集资料的品质起着至关紧要的作用。常规的观测系统设计方案已经无法满足现阶段复杂的地形需求,针对复杂地区提出了基于目的层反射能量二次导数的炮检距设计思路。在地震照明的基础上,构建地质模型进行数值模拟,根据观测系统接收目的层能量最大及效率最高的原则,将积累能量和能量导数结合起来,设计最大炮检距。通过对塔西南复杂山地地区实际资料建立模型的模拟实验,推断出观测系统的最大炮检距,为复杂地区的最大炮检距设计提供了新的方法和手段。

最大炮检距对地震资料采集和成像效果的影响

在地震资料采集中,最大炮检距的选择是观测系统设计至关重要的一个参数,直接影响地震资料采集的成像效果和质量。在设计时,应基于地质模型进行射线追踪、模拟激发、频谱分析,主要考虑动校拉伸、速度分析的精度误差、干扰波切除、反射系数稳定、多次波的压制等因素。分析论证点处的最大炮检距对地震信号成像效果的影响,并结合地质任务要求,合理设计最大炮检距。

MIMO系统联合参数估计

针对多输入多输出系统的联合频偏信道估计问题,考虑了更一般的模型(每一根发送天线到每一根接收天线之间的频偏是不同的),研究了频偏和信道的最大似然估计,分析表明该估计问题包含一个多维搜索过程.为了解决上述复杂的估计问题,提出了一种联合频偏信道估计新方法,首先根据粒子群优化理论估计出多个发射天线到某一接收天线的频偏,然后再利用最大似然估计器对信道增益进行估计.仿真结果表明,与基于相关的估计算法相比,所提出的算法有更大的频偏估计范围,且估计值的均方误差渐近达到Cramer-Rao下界.

优化的方位各向异性裂缝预测方法及应用

在纵波方位各向异性裂缝预测中,传统的方位角划分方法选择保留全方位角覆盖偏移距,切除方位角覆盖不均匀的远偏数据,这种做法损失了大部分远偏数据,容易造成裂缝预测结果的不准确。文中根据研究区的数据情况对方位角划分方案进行了优化,在保留全方位角覆盖偏移距的基础上,适当保留了部分大偏移距数据,切除了部分小偏移距数据。优化的方位角划分方案在研究区应用效果精度更高,验证了该优化方案的合理性和有效性。

基于自相关函数的前向载波频偏估计算法

为解决前向载波频偏估计中捕获范围和估计精度矛盾的问题,在最大似然准则的基础上,同时利用短时延自相关函数捕获范围广和长时延自相关函数估计精度高的优点,给出了一种捕获范围宽、估计精度高、计算复杂度低的频偏估计方法。该算法将不同时延情况下得到的粗略估计值进行加权求和以得出精确频偏估计值,兼顾了不同时延的优点,同时在不同的信噪比情况下可以设置不同的加权系数,使得算法更能适应不同的信噪比。计算机仿真结果表明了该算法估计精度高、捕获范围广和计算复杂度低的性能。

海拉尔盆地三维地震采集技术

为了提高海拉尔盆地野外采集资料的品质,针对具体影响因素,对表层结构调查、激发、接收及观测系统设计等环节进行了改进和完善。表层结构调查以微测井为主,对微测井资料除了进行基于运动学特征的常规解释外,还运用了初至波的振幅、频率等波动力学信息进行岩性细分,提高了表层岩性划分的精度;激发采用小药量多井组合方式,组合基距不大于20m,激发井深根据微测井成果与生产中的井深实验资料逐点设计;采用多检波器组合方式接收,检波器频率为28Hz和35 Hz,组合基距为22.5m;观测系统采用斜交观测系统,20m×20m面元,6×10次覆盖,最大炮检距为2 961 m,1 680道接收。将上述措施应用于实际工区,在野外采集的单炮记录上,从浅层到基底反射齐全,连续性好,信噪比较高;新剖面比以前采集的剖面在信噪比和分辨率上都有较大的改善。

MSE-OFDM系统的频偏和信道估计

在OFDM系统重复结构频偏估计的基础上,提出了基于多符号封装正交频分复用(MSE-OFDM)重复结构的大范围频偏估计方法;基于最大似然准则的时域信道估计方法和训练序列的峰均比尽可能小的条件,找到了一种时域峰平比恒定、频域比较平坦的MSE-OFDM信道估计用的训练序列.仿真结果表明,所提出的信道和频偏估计方法有效地提高了系统性能且训练序列时频域均比较平坦.

OFDM频偏信道联合估计算法

针对OFDM系统中频偏和信道联合估计问题进行了研究。为了克服单独估计的缺陷,提高精度,提出了一种低复杂度的频偏信道联合估计算法。该算法首先通过采用正交性质的恒包络零相关序列,运用最大似然法估计信道,提取频偏估计值,然后对信道结果进行修正,使之更接近真实信道。同时给出了频偏估计的克拉美罗界。仿真结果表明,相比于最小二乘联合估计法,本文算法估计均方误差更小,具有更好的估计性能。

阿拉善左旗5.8级地震前地脉动信号特征分析

本文针对2015年4月15日发生在南北地震带北端的阿拉善左旗5.8级地震,利用乌海台、东升庙台、石嘴山台的连续数字地震波形资料,采用快速傅里叶变换对三个台站的2015年4月1日00时—4月15日23时波形数据进行分析,并持续跟踪0~0.25 Hz包络幅值极大值的变化形态。结果显示:(1)在5.8级地震前,震中附近的乌海地震台、东升庙地震台、石嘴山地震台记录的地震波形均出现频谱向低频偏移的现象;(2)三个台站出现低频异常的包络幅值极大值跟踪形态不一致,其中只有乌海台在震前出现明显的持续不稳定异常,异常持续时间约120h;(3)三个台站距离震中由近及远包络幅值极大值的跟踪形态差异明显。

单通道高阶调制线性混合信号的频偏估计

针对具有固定帧长和固定帧同步序列的单通道高阶调制线性混合信号,当两路信号编码异步时,在已知帧长的条件下提出一种基于最大似然准则的频偏估计算法,并给出了算法的有效频偏估计范围.算法通过求互相关获得目标函数,并利用分级搜索的方法估计频偏.为对算法的性能进行评价,文中同时推导了混合信号频偏估计的克拉美罗界(Cramer-Rao Bound,CRB).仿真结果表明,算法在低Eb/N0下可获得接近CRB的估计性能.此外,算法还适用于功率非对称的混合信号.

LOFDM系统大载波频偏的盲估计算法

该文研究了网格正交频分复用(LOFDM)系统中大载波频偏的盲估计。在低信噪比及虚子载波存在的假设下,基于最大似然准则(ML)推导出LOFDM系统大载波频偏盲估计算法。该算法利用了信号的时变自相关函数特性,频偏估计的范围为所有子载波宽度。计算机仿真表明,该算法也适用于高信噪比条件下的载波频偏估计。与基于信号二阶循环平稳特性(CS)的盲载波频偏估计算法相比,提出算法的均方根误差(RMSE)性能在加性高斯白噪声(AWGN)信道和广义平稳非相干散射信道(WSSUS)条件下均有很大程度的改善。

无线传感器网络节点通信与定位综合信号设计

针对无线传感器网络中依赖于接收信号强度指示(RSSI)的极大似然定位算法易受环境噪声影响的问题,设计传感器节点的通信与定位一体化信号。对锚节点的激励信号设置较小的载波频偏并设计激励信号,将传输的数字序列与距离信息调制到一个信号星座图中,未知节点通过对信号的信息解调可以初步计算未知节点与锚节点间的距离。未知节点将初步的估计距离信息发送给锚节点来调节信号频偏,再次精细距离的测量准确度,最后采用极大似然法直接计算未知节点的位置。该方法是在一体化的通信信号中解调数字序列和距离信息,避免再将信号强度转化为距离的过程。仿真结果表明:节点的通信与定位综合信号可以一定程度上提高定位准确度,在不同的节点数、锚节点数、通信半径和信噪比下定位误差分别为22.44%、21.15%、19.18%和21.79%,可为节点定位提供一个简便的计算方案。

基于ML估计的高效OFDM整数倍频偏估计算法

针对整数倍频偏会造成OFDM码元序列的循环移位而导致系统性能下降的问题,提出一种新的OFDM整数倍频偏的频域估计算法.利用一个OFDM码元中各子载波上数据符号之间的差分关系和最大似然(ML)估计理论,导出了该整数倍频偏的ML估计器的估计公式.新算法在不增加算法复杂度的条件下,频偏估计性能优于传统方法.