Partial frequency band match filtering based on high-sensitivity data: method and applications

During seismic data acquisition, a high-sensitivity geophone with a high inherent frequency can increase high frequency energy by suppressing low frequency signals. This could cause a worse response at low frequencies. If the advantages of high-sensitivity data and conventional data are combined, the effective bandwidth will be broadened. Considering this, we propose a partial frequency band match filtering method which can combine the advantages of both high frequency and conventional frequency ranges. By introducing Ricker wavelets with different dominant frequencies and amplitudes, we established a theoretical model which possesses characteristics of both types of seismic data and demonstrates the feasibility of the partial frequency band match filtering method. A test using single shot records shows the effectiveness of this method for widening the effective frequency band.

Study of LDPC Coded SFH System with Partial-Band Interference

The application of Low Density Parity Check (LDPC) code in the anti-interference systems has drawn an increasing attention, due to its admiring performance which is very close to the theory limit. This paper focuses on a LDPC encoded slow frequency hopping (SFH) communication system with partial-band interference. Firstly, a modified soft- decision algorithm based on the utilization of interference information is proposed, and its performance is compared with some other soft-decision methods. Secondly, with numerical simulation, the influence of code rate, code length and the number of symbols per hops on the performance of the system with partial band noise interference is illustrated and examined in detail. Considering the great influence of hops per symbol on the performance, interleaver should be used and its influence on the performance is further examined by simulation. Finally, some constructive advises for the design of LDPC coded SFH system are given. Simulation results show that, with a reasonable design, the SFH system with LDPC code could achieve a desirable performance.

Negative refractions by triangular lattice sonic crystals in partial band gaps

This study numerically demonstrates the effects of partial band gaps on the negative refraction properties of sonic crystal. The partial band gap appearing at the second band edge leads to the efficient transmissions of scattered wave envelopes in the transverse directions inside triangular lattice sonic crystal, and therefore enhances the refraction property of sonic crystal. Numerical simulation results indicate a diagonal guidance of coupled scattered wave envelopes inside crystal structure at the partial band gap frequencies and then output waves are restored in the vicinity of the output interface of sonic crystal by combining phase coherent scattered waves according to Huygens＇ principles. This mechanism leads to two operations for wavefront engineering： one is spatial wavefront shifting operation and the other is convex-concave wavefront inversion operation. The effects of this mechanism on the negative refraction and wave focalization are investigated by using the finite difference time domain （FDTD） simulations. This study contributes to a better understanding of negative refraction and wave focusing mechanisms at the band edge frequencies, and shows the applications of the slab comer beam splitting and SC-air multilayer acoustic system.

Rapid estimation of soil heavy metal nickel content based on optimized screening of near-infrared spectral bands

In near-infrared spectroscopy,the traditional feature band extraction method has certain limitations.Therefore,a band extraction method named the three-step extraction method was proposed.This method combines characteristic absorption bands and correlation coefficients to select characteristic bands corresponding to various spectral forms and then uses stepwise regression to eliminate meaningless variables.Partial least squares regression(PLSR)and extreme learning machine(ELM)models were used to verify the effect of the band extraction method.Results show that the differential transformation of the spectrum can effectively improve the correlation between the spectrum and nickel(Ni)content.Most correlation coefficients were above 0.7 and approximately 20%higher than those of other transformation methods.The model effect established by the feature variable selection method based on comprehensive spectral transformation is only slightly affected by the spectral transformation form.Infive types of spectral transformation,the RPD values of the proposed method were all within the same level.The RPD values of the PLSR model were concentrated between 1.6 and 1.8,and those of the ELM model were between 2.5 and2.9,indicating that this method is beneficial for extracting more complete spectral features.The combination of the three-step extraction method and ELM algorithm can effectively retain important bands associated with the Ni content of the soil.The model based on the spectral band selected by the three-step extraction method has better prediction ability than the other models.The ELM model of the first-order differential transformation has the best prediction accuracy(RP^2=0.923,RPD=3.634).The research results provide some technical support for monitoring heavy metal content spectrum in local soils.

Design of Integrated Triple Band Notched for Ultra-Wide Band Microstrip Antenna

Ultra-wideband (UWB) is one of the recent topics that received a great concern from academia and industry. However, UWB found many difficulties to be standardized due to the overlay working that made UWB an important potential interference source to many licensed and unlicensed spectrum throughout the band 3.1 to 10.6 GHz. This paper demonstrates the design of integrated triple band notched for UWB Microstrip antenna. We simulated UWB short range systems which require low power and these are built using inexpensive digital components. We proposed a compact triple band notched CPW (Co-planar Waveguide) fed Micro strip Antenna (MSA) for UWB. This band-notched antenna has rejection characteristics at 3.2 GHz (for Wi-MAX band 3.16 to 3.32 GHz), at 5.5 GHz (for WLAN 2 band—5.3 to 5.72 GHz) and at 7.9 GHz (for ITU band 7.72 GHz to 8.13 GHz). The simulation was done using IE3D simulator.

广义频分复用系统峰均功率比抑制算法

为了降低广义频分复用系统存在着多载波系统中固有的高峰均功率比问题,本文提出了一种适用于广义频分复用系统的子载波抑制高峰均功率比算法。该算法以限幅法为基础,降低了系统的高峰均功率比,但与限幅法不同的是,该算法几乎不会对带外性能及误码率性能造成影响。由于子载波抑制高峰均功率比算法的峰均功率比抑制性能略差于限幅法,因此本文进一步提出将部分序列传输与子载波抑制高峰均功率比结合来进一步抑制系统高峰均功率比的算法。仿真表明:本文提出的算法的高峰均功率比抑制性能与限幅法相同,且不会对系统的带外与误码率性能造成影响。

高保真度超高频局放检测天线研究

设计了一款用于超高频局放检测的超宽带椭圆缝隙天线.该天线具有时域保真度高、尺寸较小、馈电简单等特点.测试结果表明,天线在300~1500 MHz频段内的回波损耗低于-10 dB,平均等效高度15.7 mm,满足局放检测天线的指标要求.通过CST Microwave Studio软件对其时域波形保真度进行仿真计算分析,对局放检测时天线的摆放方向提供参考.结果表明,椭圆缝隙天线在一些角度上的保真度超过0.9,能较好地还原局部放电波形,同时天线较小的尺寸也能更好地适应局部放电现场检测.

基于改进哈里斯鹰优化算法的光谱特征波段选择模型研究

特征波段选择是近红外光谱分析的关键步骤之一,有效的特征波段选择能提高建模效率与模型性能。传统的特征波段选择算法存在运行时间长、选择特征冗余的缺陷,在实际工程应用中难以达到期望的效果。哈里斯鹰优化(HHO)算法具有原理简单、参数少的优点,但同时也存在收敛精度低且易陷入局部最优的不足。在HHO算法的基础上提出了一种基于改进哈里斯鹰优化(IHHO)算法的近红外光谱特征波段选择模型。针对HHO算法只能用于求解连续空间的优化问题,采用离散化策略对HHO算法进行修正,使其能求解离散形式的特征波段选择问题;考虑到HHO算法初始种群的质量差,使用混沌映射、反向学习提高初始种群的质量,以增强算法的全局探索能力;由于HHO算法在局部搜索时的收敛精度低,提出了新的猎物能量衰减模型与跳跃策略,以进一步增强算法在局部搜索时的寻优能力;为避免算法在寻优过程中落入局部最优,借鉴了遗传算法的变异方式对HHO算法进行扰动。使用竞争性自适应重加权采样法(CARS)、连续投影算法(SPA)、粒子群优化(PSO)算法、遗传算法(GA)、 HHO算法与IHHO算法进行比较,并以4个定性分析近红外光谱数据集与2个定量分析近红外光谱数据集分别建立了支持向量机(SVM)识别模型和偏最小二乘回归(PLSR)模型。在定性分析实验中,IHHO算法得到的平均准确率相对于全波段时分别提高了0.83%、 9.55%、 17.65%以及0%,平均特征波段数仅占全波段的9.97%、 2.59%、 1.36%以及0.59%。在定量分析实验中,IHHO算法得到的平均决定系数分别较全波段提高了10.57%、 1.47%、 4.41%、 3.66%以及3.06%,平均均方根误差分别较全波段较低了0.162、 1.266 3、 1.868、 1.869 4以及0.408 4,平均特征波段数仅占全波段的9.24%、 10.53%、 6.54%、 6.91%以及7.14%。实验结果表明,IHHO算法在选择特征波段时能够去冗余,针对性选择最重要的特征波段,其性能均优于比较的几种算法。IHHO算法具有良好的应用前景。

高光谱反演耕地土壤质量评价元素含量方法研究

为探讨利用高光谱快速估算耕地土壤质量元素镉(Cd)、砷(As)含量的可行性和准确度,该文针对元素光谱特征波段提取及高光谱定量反演建模开展研究。使用一阶/二阶微分(first derivative/second derivative,FD/SD)、倒数对数(logarithm reciprocal,LR)、包络线去除(continuum removal,CR)4种光谱变换与竞争性自适应重加权算法(competitive adaptive reweighted sampling,CARS)、相关性分析(Pearson correlation analysis,PCC)2种特征筛选相组合的多种方法提取光谱特征波段。在此基础上,分别利用偏最小二乘回归(partial least squares regression,PLSR)和粒子群改进的随机森林回归(particle swarm optimization-random forest regression,PSO-RFR)2种回归模型来反演元素含量并进行精度验证。结果表明,实验区土壤元素Cd和As预测的最佳模型均为FD-CARS-PLSR,Cd和As元素模型的决定系数R^(2)最高分别为0.863和0.959,相对分析误差分别为2.799和5.119。FD/SD光谱变换结合CARS特征筛选能够提升PLSR反演模型的精度。研究成果可以为土壤Cd和As元素含量的快速估算提供参考。

一种改进的用于快速傅里叶变换功率谱中的窄带干扰抑制的方法

抑制周期性窄带干扰是局部放电(partial discharge,PD)在线检测中的关键技术。该文在仿真分析PD信号与窄带干扰在快速傅里叶变换(fast Fourier transform,FFT)功率谱中特点的基础上引入了局部峰点的概念,并定义了局部能量比,提出使用局部能量比预处理的FFT功率谱去噪方法,并详述了使用该方法抑制窄带干扰的具体步骤。将局部能量比的大小模糊化,采用模糊C-均值阈值法自适应提取局部能量比的阈值。仿真及实测信号的去噪效果表明,该方法对于窄带干扰具有较强的抑制能力。将该方法用于小波包功率谱的去噪,并与传统的小波包去噪效果比较,结果表明,FFT在抑制窄带干扰方面具有一定的优势。

基于曲流技术的多频段特高频传感器的研制

变电站局部放电（PD）检测特高频传感器的工作频率范围为300~1 500 MHz,为避开该频段内手机信号等诸多外界干扰,基于环形天线原理和曲流技术设计了一种新型多频段全向特高频传感器。通过仿真和实测研究了该传感器的局部放电检测性能,并将其与宽频传感器的局部放电检测性能进行对比。结果表明,该传感器的工作频段为480~520、800~850、1 100~1 150 MHz,覆盖了电晕放电、沿面放电、自由金属微粒放电3种典型的局部放电缺陷信号的主要频率范围;且具有体积小、近似全向测量和灵敏度高的特点。该传感器能较好地检测各种类型的放电信号,满足变电站局部放电检测及定位要求。

气体绝缘组合电器局部放电的超高频检测

为了有效抑制气体绝缘组合电器GIS局部放电中出现的低频段干扰,在理论上分析了超高频检测GIS局部放电可行性的情况下,进一步研究了GIS局部放电超高频传感器、模拟无源滤波器以及相应的宽带和窄带检测方法。在实验室GIS模拟装置中,运用研制的内置圆环传感器检测系统进行超高频法检测。实验结果表明该检测系统可有效地避开空间的电晕及周期性脉冲干扰信号等低频段干扰。同时,窄带检测法能够避开超高频微波干扰信号,是一种有效的局部放电检测方法。

GIS局部放电的超声波检测频带试验研究

在实验室建立了GIS局部放电超声波检测方法研究平台。在此平台上研究了几种混有干扰的典故型局部放电,并分析了这些放电信号和干扰源的频谱特征。在此基础上,选定了信噪比较高的超声波检测频带为20～80kHz。通过实验室局部放电测试和变电站干扰测试,验证了此频带的可行性。

直流下局部放电序列信号检测与特性分析

介绍了用于分析直流下局部放电序列信号的时间等待恢复模型及其假设,总结了基于基本参数放电幅值q和放电时间点t用于分析直流局部放电序列信号的多种放电谱图。利用自行研制的直流局部放电宽带检测系统获取了缺陷模型(空气中电晕、油纸绝缘的尖板、内部缺陷和沿面放电)在直流电压下的大量局部放电脉冲波形-时间序列。并对获取的脉冲波形-时间序列,使用脉冲群快速分类技术进行随机干扰脉冲剔除。在上述工作基础之上,进行了直流局部放电幅值-时间序列信号的相关性统计分析,给出了各缺陷模型对应的典型q-t、n-q、n-Δt和qsuc-q等多种直流局放谱图。试验结果分析表明,四种典型缺陷具有各自的放电特性,直流下局部放电发展过程符合时间等待恢复模型及其假设。这为基于幅值-时间序列的直流局放检测、识别提供了理论和试验依据。

用最优谐波小波包变换抑制局部放电混频随机窄带干扰

在进行电气设备局部放电(partial discharge,PD)在线监测中,当多个随机周期性窄带干扰的频率位于传感器监测频段内部时,会严重影响监测的可信性和准确性,然而目前缺乏有效抑制此类干扰的方法。为此,利用谐波小波具有严格盒形频谱特性的优点,提出一种基于最优离散谐波小波包变换的PD去噪新方法,将不同频率窄带干扰的能量分别集中在单一的子带内,用分解后子带香农熵比值的大小来确定包含各窄带干扰的子带,只要将对应的小波系数置零后重构就能得到去除窄带干扰后的PD信号,克服了离散小波包变换子带间存在频谱泄漏的缺点,实现了对PD监测信号的自适应优化分解。通过对仿真和实测PD信号频带范围内含有的混频随机窄带干扰进行去噪处理,并与离散小波包变换去噪结果进行对比分析后表明,最优离散谐波小波包变换对PD信号去噪后的能量损失和波形畸变较小,有利于后续对PD信号的模式识别,可以解决干扰频率位于监测频段内难于抑制的难题。

局部放电测量方法及其测量回路的抗干扰研究

现有的局部放电测量技术主要有窄带测量和超宽带测量两种。超宽带测量可以获得更多更真实的有用信息并能提高测量的信噪比 ;而窄带测量因其应用和研究的广泛性已积累了丰富的经验 ,提出了许多诊断和分析的方法 ,因此同时进行窄带和超宽带测量有助于获得更多的信息 ,更好地利用已有研究成果。而消除和抑制测量现场的干扰是有效测量的前提 。

应用波段深度分析和偏最小二乘回归的冬小麦生物量高光谱估算

当作物生物量较大时,现有植被指数由于受饱和问题限制,不能较好的估算作物生物量。针对此问题,尝试将波段深度分析与偏最小二乘回归(partial least square regression,PLSR)结合,提高对大田冬小麦生物量的估算精度,并将两者结合建立的模型与应用代表性植被指数建立的模型进行生物量估算精度比较。波段深度分析主要对冬小麦冠层光谱550～750nm范围进行,采用波段深度、波段深度比(band depth ratio,BDR)、归一化波段深度指数和归一化面积波段深度对波段深度信息进行表征。在建立的模型中,波段深度分析和PLSR结合的估算精度比应用植被指数模型的精度高,其中BDR与PLSR结合的估算精度最高(R2=0.792,RMSE=0.164kg.m-2)。研究结果表明波段深度分析与PLSR结合能较好的克服生物量较大时存在的饱和问题,提高冬小麦生物量的估算精度。

脉冲电流法测量变压器局部放电的频带选择

为研究变压器局部放电测量的频带问题,通过模拟试验测量了放电信号。信号功率谱密度的分析表明, 典型窄脉冲放电信号能量主要集中在≤10MHz。测量系统带宽对放电信号幅值影响的研究表明,带宽≥12MHz后对信号幅值无明显改善,带宽可根据需要选为8～20MHz。

XLPE绝缘电老化中局放特性试验研究

利用TE571局放检测仪和超宽频带局放（PD）检测系统研究了XLPE电缆绝缘试样加速电老化过程中判断试样老化状态的局放统计参量和单次放电波形特性。结果表明，电老化过程中单次放电时域波形的上升沿变陡，从老化前50ns降低为老化50h的8ns;脉冲幅值从老化前的2mV增加到老化50h的17mV；放电频谱中特征峰的位置随着老化程度的加剧向高频方向移动，从老化前〈15MHz增加到老化50h的〈50MHz和125～200MHz。该研究为放电单次波形检测技术评估XLPE电力电缆绝缘状态的基础研究。

局部放电超高频窄带信号监测技术

根据局部放电超高频窄带信号的特征,分别介绍了利用Nyquist采样技术、混频技术和窄带抽样技术实现局部放电超高频窄带信号监测的三种方法。且以低通采样和带通采样理论分析并对比了这三种方法的工作原理。在实验室利用数字仿真技术代替部分硬件实现了三种方法能够同时获取同一超高频信号经过不同带通滤波器后的窄带信号。仿真实验结果分析表明:混频技术可降低超高频窄带信号采样频率并保留其峰值和相位特征;而窄带抽样技术则能够恢复信号的超高频窄带分量,且保存了局部放电信号在此窄频带内较完整的信息。这为研制具有不同功能的局部放电超高频信号在线监测与诊断系统提供了试验依据。