基于航空瞬变电磁法的水下高导体探测方法  

作　　者：李丁山 屈文璋 许诚[1] 栾晓东 孙溥 姚斌 冉启顺 潘笑 卓贤军[1] 郭锐[1] 闫建峰[1] LI Dingshan;QU Wenzhang;XU Cheng;LUAN Xiaodong;SUN Pu;YAO Bin;RAN Qishun;PAN Xiao;ZHUO Xianjun;GUO Rui;YAN Jianfeng(China Ship Research and Development Academy,Beijing,100192;China Aero Geophysical Survey and Remote Sensing Center for Natural Resources,Beijing 100083,China;Institute of Geology and Geophysics,Chinese Academy of Sciences,Beijing 100029,China)

机构地区：[1]中国舰船研究院,北京100192 [2]中国自然资源航空物探遥感中心,北京100083 [3]中国科学院地质与地球物理研究所,北京100029

出　　处：《水下无人系统学报》2023年第4期607-613,共7页Journal of Unmanned Undersea Systems

摘　　要：随着声、磁隐身技术的快速发展,主流的声探测和被动磁探测效能大幅降低。经典的航空瞬变电磁法凭借主动探测、对高导体敏感及探测速度快等优势,在水下高导体目标探测领域极具潜力。文中从航空瞬变电磁法原理出发,基于圆形中心回线装置形式求得时间域垂直磁场响应公式,通过构建海水—高导电层—海水—海底岩石层状模型,研究了不同目标层深度及不同收发高度下一维模型中垂直磁场响应特征;并基于三维时域有限体积法对水下高导长方体进行正演计算,获得接收线圈中心处d Bz/dt的衰减曲线。一、三维仿真结果均表明:当海水中存在高导电率目标体时,其垂直磁场响应特征与无目标存在时有明显差异。反演成像中,利用高斯白噪声合成不同信噪比的仿真数据,结合OCCAM反演算法对水下目标体进行一维计算,对比不同信噪比下水中目标检测效果。结果显示:当信噪比大于等于10 dB时,水中存在的高导电层可以被有效检测;当达到40 dB时,高导电层的深度及厚度信息也有较好地判断。最后,在40 dB的信噪比下,将高导电层电阻率值按比例减小,发现该方法仍对目标层的深度信息有明显的反应。综合以上正演及反演计算过程,有效验证了该方法在水下高导体探测领域的可行性。With the rapid development of acoustic and magnetic stealth technology,the effectiveness of mainstream acoustic detection and passive magnetic detection has been greatly reduced.The classical airborne transient electromagnetic method(ATEM),with the advantages of active detection,sensitivity to highly conductive targets,and high detection speed,has great potential in the field of underwater detection of highly conductive targets.Based on the principle of the airborne transient electromagnetic method,this paper obtained the vertical magnetic field response formula in the time domain based on the form of a circular central loop device and studied the vertical magnetic field response characteristics in the one-dimensional model with different depths of the target layer and different transmitting and receiving heights by constructing the layered model of seawater-highly conductive layer–seawater–seabed rock.Based on the three-dimensional time domain finite volume method,the forward calculation of the underwater cuboid with high conductivity was carried out,and the attenuation curve of dBz/dt at the center of the receiving coil was obtained.The one-dimensional and three-dimensional simulation results all show that the vertical magnetic field response characteristics are significantly different when there is a target with high conductivity in seawater,compared with the condition with no target.In the inversion imaging,the simulation data of different signal-to-noise ratios(SNRs)were synthesized by Gaussian white noise,and the one-dimensional calculation of underwater targets was carried out in combination with OCCAM inversion algorithm,so as to compare the detection effect of underwater targets under different SNRs.Inversion results show that when the SNR is greater than or equal to 10 dB,the highly conductive layer in the water can be effectively detected;when it reaches 40 dB,the depth and thickness information of the highly conductive layer can also be well judged.Finally,at an SNR of 40 dB,the resistivity value

关 键 词：航空瞬变电磁法 水下目标探测 中心回线装置 时域有限体积法 OCCAM算法 高斯白噪声 

分 类 号：TJ630.34[兵器科学与技术—武器系统与运用工程] U674[交通运输工程—船舶及航道工程]