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一种用于高速电阻抗断层成像的同时连续激励方法,具有减少的瞬态和噪声敏感性。

A Simultaneous and Continuous Excitation Method for High-Speed Electrical Impedance Tomography with Reduced Transients and Noise Sensitivity.

作者信息

Dupré Antoine, Mylvaganam Saba

机构信息

Private Practice, Jouquetti, 05400 Furmeyer, France.

Department of Electrical Engineering, IT and Cybernetics, Faculty of Technology, Natural Sciences and Maritime Sciences, University College of Southeast Norway, Porsgrunn 3901, Norway.

出版信息

Sensors (Basel). 2018 Mar 28;18(4):1013. doi: 10.3390/s18041013.

Abstract

This paper presents a concept for soft field tomographic scan of all the projections of electromagnetic waves emanating from an array of electrodes. Instead of the sequential excitation of all pairs of electrodes in the list of all projections, the new method present here consists of a single and continuous excitation. This excitation signal is the linear combination of the excitation signals in the projection set at different AC frequencies. The response to a given projection is discriminated by selecting the corresponding AC frequency component in the signal spectra of the digitally demodulated signals. The main advantage of this method is the suppression of transients after each projection, which is particularly problematic in electrical impedance tomography due to contact impedance phenomena and skin effect. The second benefit over the sequential scan method is the increased number of samples for each measurement for reduced noise sensitivity with digital demodulation. The third benefit is the increased temporal resolution in high-speed applications. The main drawback is the increased number of signal sources required (one per electrode). This paper focuses on electrical impedance tomography, based on earlier work by the authors. An experimental proof-of-concept using a simple 4-electrodes electrical impedance tomographic system is presented using simulations and laboratory data. The method presented here may be extended to other modalities (ultrasonic, microwave, optical, etc.).

摘要

本文提出了一种用于对电极阵列发出的电磁波的所有投影进行软场断层扫描的概念。这里提出的新方法不是对所有投影列表中的所有电极对进行顺序激励,而是由单个连续激励组成。该激励信号是在不同交流频率下投影集中激励信号的线性组合。通过在数字解调信号的信号频谱中选择相应的交流频率分量来区分对给定投影的响应。该方法的主要优点是抑制了每次投影后的瞬态,这在电阻抗断层成像中由于接触阻抗现象和趋肤效应而特别成问题。相对于顺序扫描方法的第二个好处是每次测量的样本数量增加,从而降低了数字解调时的噪声敏感性。第三个好处是在高速应用中提高了时间分辨率。主要缺点是所需信号源数量增加(每个电极一个)。本文基于作者早期的工作,重点关注电阻抗断层成像。使用简单的四电极电阻抗断层成像系统,通过模拟和实验室数据给出了实验概念验证。这里提出的方法可以扩展到其他模态(超声、微波、光学等)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff7/5948595/0afc85034301/sensors-18-01013-g001.jpg

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