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海底小型铁磁目标探测一直是海洋工程勘察的难点,结合我国近岸某海域海底一处未爆弹的探测实例,介绍了SeaSPY2磁力仪的性能特征,阐述了海洋磁力仪探测数据采集和处理流程。通过对探测出的磁力异常区和同期多波束扫测数据的分析,推断出水下未爆弹的具体位置和大小,为引爆未爆弹提供了准确的数据。此外,根据实践经验,提出了采用木船牵引、利用定高拖曳装置固定磁力探头、选择合适的作业时间、选定合适的日变站位置等四点建议,提高海洋磁力探测精度,为类似项目的应用提供参考。 相似文献
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在海洋磁力测量过程中,磁扰形态变化复杂的特性致使地磁日变的改正仍存在着许多困难。本文根据黄海、东海和南海北部十余年采集的超过104 km的海洋和陆地地磁资料,利用对比分析的方法,总结了3种磁扰现象对海洋磁力资料的影响规律:1)微扰的海陆日变值持续时间短,幅度比值接近1∶ 1,对海洋磁力资料影响很小,利用低通滤波可以完全消除其影响;2)磁钩海陆日变幅值比为1~2,持续时间在1 h以内,校正后的地磁异常值仍有较大的误差,利用最小曲率法可以基本消除其影响;3)磁湾的持续时间长,海陆日变幅值变化大,无法准确消除其影响,采用最小曲率法等插值方法处理后,仍残留假异常,需要额外关注。 相似文献
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The importance of geomagnetic studies in the World Ocean for deep structure research and fore-casting of mineral resources is noted. A combined method for development of a marine nuclear magnetometer is adduced. The physical background of operation of nuclear magnetometers is analyzed in order to optimize the measurements of the magnetic field. The results of the experiments on detecting nuclear precession signals against the background of ship noises are considered and the elaboration of an MM-1 nuclear magnetometer at the Shirshov Institute of Oceanology is described. A technique for magnetic survey and comprehensive geological interpretation of the anomalies and Z and H field components are presented. Examples of geomagnetic studies performed in the World Ocean with the MM-Inuclear magnetometer are assessed: for the first time in Russia, linear magnetic anomalies were identified and sea-floor spreading rates were calculated (the northern part of the Indian Ocean); a regional geomagnetic survey was carried out in the region of Iceland, which proved the spreading origin of the seafloor in this vast region. A systematic analysis of geomagnetic data obtained with the MM-1 magnetometer in the World Ocean provided the creation and development of the methodology for their tectonic and geodynamical interpretation. On the basis of the geomagnetic data obtained, new fundamental conclusions about the deep structure, kinematics and paleogeodynanics of the World Ocean floor were made. 相似文献
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以IGRF全球地磁位模型为基础,设计地磁测量参考场计算软件,实现地磁场参数长波分量的时间域与空间域离散点计算,为野外磁力测量相关数据采集与仪器配置提供先验信息,使数据采集的作业效率及可靠性大大提高。 相似文献
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基于地磁与红外双模探测的海洋浮标预警系统设计 总被引:1,自引:0,他引:1
设计了一种基于地磁检测与红外感应相结合、可对浮标周围异常目标进行探测和预警的控制系统。系统采用芯片级的微型磁感线圈,以及高集成度、低功耗的数据采集与总线技术,通过探测船体磁性对地磁场的扰动,监测船舶对浮标的靠近;采用芯片级的热释电红外传感器,通过探测人体红外辐射,监测浮标在正常工作期间未知人员的入侵。系统的预警采用声光报警和图像远程传输相结合的方式,现场采集的图像数据经过压缩编码后通过无线数传电台发送至远程岸基监测站,实现海洋浮标的远程预警与现场取证功能。 相似文献
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海水层对地磁日变的影响 总被引:1,自引:0,他引:1
在海洋地磁测量中地磁日变的影响不可忽视,由于海底地磁日变观测站可建在测区内或附近,通常情况下能较好地反映测区范围内的地磁日变状况.但从实际观测资料对比发现,海底地磁观测站站位水深对地磁有效信息的保留存在一定的相关性.随着水深增大,其保留的信息量逐渐减少,即水层对地磁信息有着明显的衰减作用. 相似文献
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地磁日变改正数据的合理选取直接关系到海洋磁测的成果精度。通过在南海南部海域布放的一个4 000m长的地磁观测潜标及同步开展的磁力测量,并在收集周边陆域地磁台站数据的基础上,对水体中获得的地磁日变观测数据和水面磁测数据进行综合分析和研究,得到几点认识:(1)浅水海域获得的日变观测数据用于海洋磁测数据处理时,其测量准确度比深水海域的好,且与陆域地磁台站数据曲线的一致性要高;(2)船磁校正曲线是否对称与地磁日变观测数据的合理选取密切相关;(3)在远海区磁测时,为确保详尽记录局部磁扰,建议海底地磁日变观测站应布放于靠近工区、水深较浅的水体之中。 相似文献
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海底地磁日变观测站能够提供合适的地磁日变改正资料,可有效提高远海区磁测的成果精度。在海底地磁日变观测站布放过程中,对浮球、磁力仪、声学释放器及释放装置等进行必要的加固连接及改进,有助于提升整套观测系统的安全性,满足长时间自动观测和事后回收的需要。 相似文献
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与海洋地磁日变改正有关的长期变化和磁扰的处理 总被引:3,自引:0,他引:3
提出地磁日变改正中需要顾及地磁长期变化和磁扰的可靠分离,保证磁力数据改正处理具有明确的基准,提高拼接整合的精度.如果日变站能够控制测区,两者可采用时间同步固定的地磁正常场作为磁异常基准,测区的地磁长期变化由日变站实测的地磁长期变化来改正,反之,对日变站和测区应分别采用时间同步变化的地磁正常场作为磁异常基准,测区的地磁长期变化由地磁正常场的地磁长期变化来改正.为此,应该明确定义与时间相关的日变改正基值为地磁正常场与地磁异常之和.通过磁静日总场观测值偏离正常场的某种形式的长期平均值,可以逼近日变站的地磁异常.磁扰的分离应保证磁扰初动和消失相对于磁静日无磁扰的连续过渡.采用综合模型一并进行日变改正、正常场及其长期变化改正,可以更好地解决目前日变改正中遇到的问题. 相似文献
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Faggioni Osvaldo Beverini Nicolò Carmisciano Cosmo Giori Italiano 《Marine Geophysical Researches》2001,22(2):63-79
We show the results obtained by means of a seabed reduction technique on the intensity of geomagnetic anomaly fields applied
to a synthetic case and then to the real case of a geomagnetic survey of eastern Ligurian Sea (Italy). The eastern Ligurian
Sea has very intense short waves anomaly fields and a sea bed that varies greatly in depth. As a result the geomagnetic space
signal is characterized by a very large spectral content; in these conditions it is not possible to obtain a full sampled
marine survey and vertical continuation analytic procedures and standard numerical bottom reduction based on a single vertical
incremental parameter, whichever is applicable, fails to give accurate results. The present technique, which has been fine-tuned
over 4 years of experimentation in environmental researchs, aims to provide a simple and efficient means to reduce the distortion
of geomagnetic anomalies field caused by the variation of distance between survey plane and magnetic outcrop source position.
The compensation procedure is based on evaluation, by comparison of two measurements carried out at different altitudes, of
the mean vertical increment typical of each anomaly field principal frequency component bands. The component anomaly fields
are then corrected by application of the corresponding vertical increments and lastly, the anomaly geomagnetic field reduced
to the sea-bed is computed as Inverse Fourier Transform of a spectrum built as synthesis of the component anomaly fields'
spectra. The results obtained have shown a notable increase in definition of anomaly field intensity without the production
of appreciable distortions or false geomagnetic echoes.
This revised version was published online in November 2006 with corrections to the Cover Date. 相似文献