The Design of a Digital Magnetic Induction Tomography (MIT) System for Metallic Object Imaging Based on Half Cycle Demodulation

Yin W.; Chen G.; Chen L.; Wang B.

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The Design of a Digital Magnetic Induction Tomography (MIT) System for Metallic Object Imaging Based on Half Cycle Demodulation

机译：基于半周期解调的金属物体成像数字磁感应层析成像（MIT）系统设计

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This paper presents several important aspects of a highly integrated, Field Programmable Gate Array (FPGA)-based digital Magnetic Induction Tomography (MIT) system for metallic object imaging applications. Excitation signal generation, receiving signal demodulation, and channel multiplexing control are all implemented inside a Xilinx FPGA (Spartan III). A novel digital demodulation method using only half of the signal cycle is proposed and implemented, which improves the operation speed of the system by two folds. A geometrical scaling relationship has been discovered for MIT sensors, and a particular design has been implemented. Two imaging reconstruction algorithms (Tikhonov Regularization and Total Variation method) are applied to experimental data. The performance of the system has been verified.

机译：本文介绍了针对金属物体成像应用的高度集成的，基于现场可编程门阵列（FPGA）的数字磁感应层析成像（MIT）系统的几个重要方面。激励信号的产生，接收信号的解调和通道多路复用控制都在Xilinx FPGA（Spartan III）中实现。提出并实现了一种仅使用信号周期一半的新型数字解调方法，该方法将系统的运算速度提高了两倍。已经为MIT传感器发现了几何比例关系，并且已经实现了特定的设计。两种成像重建算法（Tikhonov正则化和总变异方法）被应用于实验数据。系统的性能已得到验证。

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来源
《Sensors Journal, IEEE》 |2011年第10期|p.2233-2240|共8页
作者
Yin W.; Chen G.; Chen L.; Wang B.;
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作者单位

School of Electrical Engineering and Automation, Tianjin University, Tianjin, China;

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原文格式 PDF
正文语种 eng
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关键词
Digital system; imaging; magnetic induction tomography (MIT); metallic objects;

机译：数字系统;成像;磁感应断层扫描（MIT）;金属物体;

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1. Multiple regression-based prediction correlations for enhanced sensor design of magnetic induction tomography systems [J] . Arellano Yessica, Hunt Andrew, Haas Olivier, Measurement Science & Technology . 2020,第2期

机译：基于多元回归的预测相关性，用于增强磁感应断层扫描系统的传感器设计
2. Solution of the inverse problem of magnetic induction tomography (MIT) with multiple objects: analysis of detectability and statistical properties with respect to the reconstructed conducting region [J] . Merwa R, Brunner P, Missner A, Physiological measurement . 2006,第5期

机译：具有多个对象的磁感应层析成像（MIT）逆问题的解决方案：关于重构导电区域的可检测性和统计特性分析
3. Electromagnetic Induction Imaging of Metallic Objects at Multiple Depths [J] . Ravan Maryam, Amineh Reza K., Hussein Anwar, Magnetics Letters, IEEE . 2020,第期

机译：多个深度金属物体电磁感应成像
4. The design of a FPGA-based digital magnetic induction tomography (MIT) system for metallic object imaging [C] . Yin, Wuliang, Chen, Guang, Jiang, Jian, IEEE Instrumentation & Measurement Technology Conference;I2MTC 2010 . 2010

机译：基于FPGA的金属物体成像数字磁感应层析成像（MIT）系统的设计
5. Forward and Inverse Modelling of Magnetic Induction Tomography (MIT) for Biomedical Application [D] . Roohi Noozadi, Amir Ahmad. 2017

机译：生物医学应用磁感应断层扫描（麻省理工学院）的前进和逆建模
6. Multi-Frequency Magnetic Induction Tomography System and Algorithm for Imaging Metallic Objects [O] . Gavin Dingley, Manuchehr Soleimani 2021

机译：用于成像金属物体的多频磁感应断层扫描系统和算法
7. Multi-Frequency Magnetic Induction Tomography System and Algorithm for Imaging Metallic Objects [O] . Gavin Dingley, Manuchehr Soleimani 2021

机译：用于成像金属物体的多频磁感应断层扫描系统和算法

The Design of a Digital Magnetic Induction Tomography (MIT) System for Metallic Object Imaging Based on Half Cycle Demodulation

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