关键词:电磁层析成像技术;敏感场;激励模式;激励频率; 传感器阵列 0 引言 电磁层析成像(electromagnetic tomography, EMT)作为一种非侵入、非接触、可视化的测量方 法,得到越来越广泛的应用 [1] 。
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... 关键词:电磁层析成像技术;敏感场;激励模式;激励频率; 传感器阵列 0 引言 电磁层析成像(electromagnetic tomography, EMT)作为一种非侵入、非接触、可视化的测量方 法,得到越来越广泛的应用 [1] 。
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Finite Element Method (FEM) is a method which can be used in numerical calculation of forward problem and inverse problem of Electromagnetic Tomography technology.
有限元法可用于电磁层析成像技术正问题和逆问题的数值计算中。
参考来源 - 有限元法在电磁层析成像数值计算中的应用·2,447,543篇论文数据,部分数据来源于NoteExpress
本课题设计了基于FPGA的电磁层析成像系统并搭建了系统测量模型。
Based on magnetic induction and EMT technology, the EMT system based on FPGA has been developed and a measuring model has been built.
灵敏度的计算是电磁层析成像技术的关键环节,是图像重建的必备条件,灵敏度计算的准确性直接影响到最终的成像精度。
The calculation of sensitivity matrix is the key part of Electromagnetic tomography, and is essential for image reconstruction. The accuracy of the sensitivity maps will affect the image quality.
本文给出一种适用于现场实时处理的钻孔电磁波层析成像方法。
A borehole electromagnetic wave tomographic imagery method suitable for on-the-spot immediate processing is presented in this paper.
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