基于宽频激励的平面电磁层析成像方法

doi:10.3969/j.issn.1000-1158.2024.06.17

Abstract
Figure/Table
References (16)
Related Citation (8)

Download: PDF (1014 KB) HTML (1 KB)
Export: BibTeX | EndNote (RIS)

Abstract In order to achieve simultaneous detection and imaging of high and low conductivity materials, a wide-band excitation method for the planar electromagnetic tomography is designed. Based on the electromagnetic characteristics of the coil and experimental results, an optimization method for the design of the planar coil array is investigated. Through the finite element model, the sensitivity matrix is obtained using the perturbation method and an improvement is proposed for the uniformity of the sensitivity matrix in order to improve the quality of image reconstruction. The image reconstruction of objects with different conductivity is investigated through the simulation model and the results verify that the proposed planar electromagnetic tomography method can reconstruct high and low conductivity materials. A wide-band excitation system for the planar electromagnetic tomography is built and experimental investigations are conducted on various materials with different conductivity. The experimental results show that the average correlation coefficient is 0.77 and the average location error is 4.46mm.

Key words： electromagnetism metrology electromagnetic tomography planar coil array conductivity sensitivity matrix wide-band excitation

Received: 08 August 2023 Published: 06 June 2024

PACS:

TB971

	Service

	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors
	ZHANG Wenbiao
	GENG Yijian
	YAN Pengxu

Cite this article:

ZHANG Wenbiao,GENG Yijian,YAN Pengxu. Planar Electromagnetic Tomography Based on Wide-band Excitation[J]. Acta Metrologica Sinica, 2024, 45(6): 907-914.

URL:

http://jlxb.china-csm.org:81/Jwk_jlxb/EN/10.3969/j.issn.1000-1158.2024.06.17 OR http://jlxb.china-csm.org:81/Jwk_jlxb/EN/Y2024/V45/I6/907

［2］	张立峰, 戴力. 基于鲁棒正则化极限学习机的电容层析成像图像重建［J］. 计量学报, 2022, 43(8): 1044-1049.
	ZHANG W B, ZHENG X Y. Multi-parameter electromagnetic tomography based on multi-source information［J］. Acta Metrologica Sinica, 2023, 44(1): 88-94.
［4］	张立峰, 苗雨. 基于电容层析成像系统测量信号稀疏性的两相流流型辨识［J］. 计量学报, 2021, 42(7): 861-865.
［6］	孙冬, 高子宸, 韩晓娟, 等. 基于平面线圈阵列的电动汽车无线充电金属异物检测方法研究［J］. 电测与仪表, 2022, 59: 1-8.
［13］	卡兰塔罗夫. 电感计算手册［M］. 陈汤铭, 译. 北京:机械工业出版社, 1992: 251-257.
	ZHANG L F, DAI L. Image reconstruction based on robust regularized extreme learning machine for electrical capacitance tomography［J］. Acta Metrologica Sinica, 2022, 43(8): 1044-1049.
	ZHANG L F, MIAO Y. Identification of two-phase flow pattern based on the sparsity of measured capacitance for electrical capacitance tomography［J］. Acta Metrologica Sinica, 2021, 42(7): 861-865.
	SUN D, GAO Z C, HAN X J, et al. Metal object detection for wireless charging of electric vehicles using planar coil array［J］. Electrical Measurement & Instrumentation, 2022, 59: 1-8.
［8］	HU G, HE B. Magnetoacoustic imaging of electrical conductivity of biological tissues at a spatial resolution better than 2 mm［J］. PLOS ONE, 2011, 6(8): e23421.
［9］	WEI H Y, MANUCHEHR S. Hardware and software design for a national instrument-based magnetic induction tomography system for prospective biomedical applications［J］. Physiological Measurement, 2012, 33(5): 863-879.
［11］	PEYTON A J, YU Z Z, LYON G, et al. An overview of electromagnetic inductance tomography: Description of three different systems［J］. Measurement Science and Technology, 1993, 7(3): 261-271.
［12］	GRIFFITHS H, STEWART W R, Gough W. Magnetic induction tomography: a measuring system for biological tissues［J］. Annals of the New York Academy of Sciences, 1999, 873(1): 335-345.
［1］	YU Z Z, PEYTON A T. Imaging system based on electromagnetic tomography(EMT)［J］. Electronics Letters, 1993, 29(7): 625-626.
［7］	HU G, LI X, HE B. Imaging biological tissues with electrical conductivity contrast below 1 S·m-1 by means of magnetoacoustic tomography with magnetic induction［J］. Applied Physics Letters, 2010, 97(10): 103705-103705-3.
［15］	GUO Q, YE J M, WANG C, et al. An Ill-conditioned optimization method and relaxation strategy of landweber for EMT system based on TMR［J］. IEEE Transactions on Instrumentation and Measurement, 2021, 70: 1-9.
［16］	CHANDRASEKKERA T C, LI Y, MOODY D, et al. Measurement of bubble sizes in fluidised beds using electrical capacitance tomography［J］. Chemical Engineering Science, 2015, 77: 679-687.
［3］	张文彪, 郑晓媛. 基于多源信息的多参数电磁层析成像方法研究［J］. 计量学报, 2023, 44(1): 88-94.
［5］	MA X D, PEYTON A J, HIGSON S R, et al. Hardware and software design for an electromagnetic induction tomography(EMT) system for high contrast metal process applications［J］. Measurement Science & Technology, 2006, 17(1): 111-118.
［10］	LU M, MANUCHEHR S. Hidden defect identification in carbon fibre reinforced polymer plates using magnetic induction tomography［J］. Measurement Science and Technology, 2014, 25(5): 055404.
［14］	YIN W, PEYTON A J. A planar EMT system for the detection of faults on thin metallic plates［J］. Measurement Science and Technology, 2006, 17(8): 2130-2135.