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分析了变频法和2n系列伪随机电磁法的场源信号特点,提出了基于相关辨识的逆重复m序列伪随机电磁法.逆重复m序列伪随机信号具有与白噪声类似的自相关函数,在频带内,频谱等间距均匀分布.由Wiener-Hopf方程,分析了逆重复m序列伪随机相关辨识大地系统冲激响应的原理.理论证明,合理地选择产生逆重复m序列的几个参数可以很好地压制各种干扰,高精度地辨识大地系统.讨论了影响测量精度与勘探分辨率的信号参数设计原则,为进一步研制具有自主产权的高分辨精细电磁勘探仪器和方法奠定了基础. 相似文献
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近年来,基于伪随机信号系统辨识的“伪随机信号电法仪”受到广泛关注.普遍认为,伪随机信号电法仪具有两大优点:抗干扰能力强和一次观测便可获得大地阻抗频谱的高效性.本文基于对m序列的功率谱密度的计算和分析,探讨了伪随机信号电法仪的抗干扰性能.结果表明,至少对于频率域伪随机信号电法仪来说,与采用正反向连续方波的传统频率域电法仪相比,在相同供电电流强度条件下,其有效信号强度大约降低■倍(N是m序列的位数);伪随机信号电法仪一次观测获得多频点频率响应的高效性,是以降低各个频点上的有效信号强度为代价的.这都不利于提高仪器的抗干扰性能. 相似文献
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伪随机m序列及其在电法勘探中的应用进展 总被引:1,自引:0,他引:1
m序列是目前应用最为广泛的一种伪随机序列,它最早被用于直接序列扩频系统中,后逐渐被用于数字加密、同步和误码率测量等领域.由于该序列具有类似白噪声良好的自相关特性和频带宽等优点,基于它可以实现高信噪比电法勘探系统,增强系统的抗干扰能力,因此在电法勘探中的应用越来越被重视.本文首先介绍伪随机m序列的本原多项式,软硬件产生方法,及该序列的一些特性.然后系统给出扩频通讯里窄带干扰压制算法,这些算法对地球物理勘探领域的干扰压制算法有借鉴和启迪意义,并提供了在电法勘探中该序列参数选取方法.最后详细阐述了该序列在电法勘探中的发展和研究进展,及每种方法中大地系统冲激响应公式的完整推导,以推进伪随机m序列在电法勘探中的发展. 相似文献
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在岩石物理实验的基础上,综合运用水岩相互作用、表面物理、电化学等方面的理论,研究水型及矿化度变化对阿尔奇模型中的m、n值以及Waxman-Smits模型中B参数的影响及作用机理.结果表明,水型及矿化度的变化不仅对m、n、B值产生影响,由于在不同的浓度范围内,地层水矿化度对岩石颗粒表面偶电层厚度及平衡离子活动性的影响不同,还导致Archie公式中的m、n值以及Waxman-Smits模型中的B参数在不同矿化度范围内表现出不同的特征:低矿化度情况下,m、n、B值随着矿化度的降低而迅速减小;而当矿化度升高到一定程度以后,m、n、B值趋于稳定,此时的岩电参数是偶电层中扩散层消失后岩石电学特征的反映. 相似文献
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To reduce noise during electrical prospecting, we hereby propose a new method using correlation identification technology and conventional electrical exploration devices. A correlation operation can be carried out with the transmitted pseudo-random sequence and received time signal to suppress the random noise, and the time-domain impulse response and frequency response of the frequency domain of the underground media can be obtained. At the same time, using a dual Cole–Cole model to fit a complex resistivity spectrum, which is close to the frequency response, we can get a variety of induced polarization parameters and electromagnetic parameters of subsurface, which can provide more useful information for the exploration of mineral resources. This time domain prospecting method can effectively improve the efficiency of the spectral induced polarization method. In this article, we have carried out theoretical calculations and a simulation to prove the feasibility of such a method. 相似文献
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传统瞬变电磁方法主要用于金属矿勘查,无法满足油气资源高阻目标体的勘探需要.多通道瞬变电磁(MTEM)系统的出现解决了这一问题.该方法采用伪随机序列发射波形和拟地震观测方式,测量同线电场分量,记录全时发射电流及多道观测数据,实现对高阻薄层的高精度探测.鉴于国内对此方法的研究还处于理论探索阶段,尚未进行相应的仿真模拟和数据处理工作,本文针对m序列发射波形多通道瞬变电磁法的全时正演模拟和反演解释进行研究,为国内正在进行的MTEM仪器系统研发及数据解释提供理论指导.我们利用方波响应移位叠加和电流导数与阶跃响应褶积两种方法实现理论m序列和实际发射波形的全时正演模拟;再通过相关辨识技术,削弱噪声影响,计算脉冲响应;最后对积分得到的阶跃响应进行共中心点道集数据联合反演,获取地下电性分布信息. 相似文献
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利用拖曳式海洋可控源电磁发射系统在探测埋藏较浅的天然气水合物资源时,会遇到一些新问题.如拖曳式轴向发射偶极源不能贴紧海底,发射偶极源和海底间海水的电磁衰减,使得10 Hz以上的相对高频能量难以导入至海底以下介质;发射偶极源有可能出现水平或垂向摆动;拖曳式发射时,时间窗口内叠加的数据有限;拖曳路线可能与海底构造走向平行,不利于揭示探测目标体的异常形态.新型坐底式发射系统有望解决上述问题.坐底式发射系统的硬件部分包括甲板端供电和监控单元、长距离电力和数据通信单元,以及水下发射机主体.新型坐底式发射系统的发射电极紧贴海底,没有海水层衰减,有利于相对高频的人工源电磁信号经过海底以下介质传输至接收端;通过超短基线信标更容易精确定位发射机拖体,利用姿态方位参考系统确定发射电极的供电方向,可以精确校正电偶源水平偏角的影响;增加单点供电时间,提高接收信号信噪比;提供两对电偶极源,从两个相互垂直的方向对异常体进行人工源激发.2015年海洋试验的结果表明,坐底式与拖曳式发射系统联合作业,可从多角度对海底异常体进行宽频带电磁激发,为数据采集提供丰富的场源信息. 相似文献
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海洋可控源电磁探测(MCSEM)是勘查天然气水合物资源的有效方法之一.海洋可控源电磁发射系统是实现MCSEM的重要硬件组成部分.本文以天然气水合物在海底的一维地电模型为例,研究电偶源发射频率、发射偶极侧向漂移、源偶极矩大小对电场响应的影响,进而指导发射系统研制.该系统包括:甲板升压控制单元,可将船载大功率电能升为高压并通过万米光电复合缆输送至海底的发射机;水下变压器,可将深拖缆中的大功率高压转换为低压;拖曳式大功率电磁发射机,其内部的控制电路硬件和嵌入式驱动软件可将水下变压器输出的电能逆变为大功率矩形脉冲,并通过发射偶极将脉冲发送至海水介质中;借助水动力学设计的发射机拖体,用于装载发射系统水下部件和保持拖曳过程中的平衡与稳定;甲板端上位机监控单元,利用万米光电复合缆中的光纤实现船上计算机与海底发射机的远程数据通信.2012年5月和2013年5月海洋试验的结果均表明,所研制的发射系统可作为天然气水合物资源勘探的有效激励场源. 相似文献
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文章介绍了利用励磁控制来实现可控源音频大地电磁法(Controlled Source Audio-frequency Magnetotelluric Method,缩写为CSAMT)发送机的系统结构与工作原理,对发送机的主要模块进行说明.该系统最大的优点就是功率可扩展性极强,其低频发送功率基本上只受限于发电机的功率与开关器件的参数.目前在实验室内已完成30KW样机,野外已实现了850V/25A的发送.该系统电路结构简单,易于维护,稳定性高.该研究为其它有源电磁法勘探大功率发送机研制提供了行之有效的方案. 相似文献
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Meng Wang Ming Deng Qingxian Zhao Xianhu Luo Jianen Jing 《Geophysical Prospecting》2015,63(6):1403-1419
Marine controlled source electromagnetic methods are used to derive the electrical properties of a wide range of sub‐seafloor targets, including gas hydrate reservoirs. In most marine controlled source electromagnetic surveys, the deep‐tow transmitter is used with a long horizontal electric dipole being towed above the seafloor, which is capable of transmitting dipole moments in the order of up to several thousand ampere‐metres. The newly developed deployed transmitter uses two horizontal orthogonal electrical dipoles and can land on the seafloor. It can transmit higher frequency electromagnetic signals, can provide accurate transmission orientation, and can obtain higher signal stacking, which compensates for the shorter source dipole length. In this paper, we present the study, key technologies, and implementation details of two new marine controlled source electromagnetic transmitters (the deep‐tow transmitter and the deployed transmitter). We also present the results of a marine controlled source electromagnetic experiment conducted from April to May 2014 in the South China Sea using both the deep‐tow transmitter and the deployed transmitter, which show that the two types of marine transmitters can be used as effective source for gas hydrate exploration. 相似文献
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将伪随机编码技术引入到人工源电磁法后,可以通过加大发射功率以及应用后续的相关处理技术来达到压制噪声、加大探测深度及提高分辨率的目的,因此引起了越来越多学者的关注及研究,但大多数研究集中在资料处理的相关技术上,对模拟电磁信号关注较少.然而,资料处理工作大多是从电磁信号出发的,模拟伪随机编码源激发下的电磁信号不但可以为资料处理环节提供理论数据,而且可以为检测资料处理的效果提供中间结果,因此,模拟电磁信号工作必不可少.本文根据获得接收信号的物理过程来实现伪随机编码源激发下的电磁信号合成.首先用解析公式获得特定地电结构的大地频率域响应,然后通过余弦变换得到时间域阶跃响应,接下来用阶跃响应的时间导数得到大地脉冲响应,通过将大地脉冲响应与伪随机编码源的褶积得到理想接收信号,最后,用低通滤波器来模拟发射设备和接收设备的频带限制,将之和噪声一起加到理想接收信号上,最终模拟出仿真的合成信号.通过和野外实际接收信号对比发现本文合成信号仿真度较高,可以服务于后续的数据处理环节. 相似文献
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Interference effects of aircraft on earth's electromagnetic response at very low frequency and low frequency 下载免费PDF全文
Over the last few decades, very low frequency electromagnetics has been widely and successfully applied in mineral exploration and groundwater exploration. Many radio transmitters with strong signal‐to‐noise ratios are scattered in the very low frequency band and low frequency band. Based on experiences gained from ground measurements with the radio‐magnetotelluric technique operating in the frequency interval 1–250 kHz, broadband magnetometers have been used to cover both very low frequency (3–30 kHz) and low frequency (30–300 kHz) bands to increase the resolution of the near‐surface structure. The metallic aircraft as a conductive body will distort the magnetic signal to some extent, and thus it is important to investigate aircraft interference on the electromagnetic signal. We studied noise caused by rotation of an aircraft and the aircraft itself as a metallic conductive body with three methods: 3D wave polarization, determination of transmitter direction and full tipper estimation. Both very low frequency and low frequency bands were investigated. The results show that the magnetic field is independent of the aircraft at low frequencies in the very low frequency band and part of the low frequency band (below 100 kHz). At high frequencies (above 100 kHz), the signals are more greatly influenced by the aircraft, and the wave polarization directions are more scattered, as observed when the aircraft turned. Some aircraft generated noise mixed with radio transmitter signals, detected as ‘dummy’ signals by the 3D wave polarization method. The estimated scalar magnetic transfer functions are dependent on the aircraft flight directions at high frequencies, because of aircraft interference. The aircraft eigenresponse in the transfer functions (tippers) between vertical and horizontal magnetic field components was compensated for in the real part of the estimated tippers, but some unknown effect was still observed in the imaginary parts. 相似文献