传感技术学报
傳感技術學報
전감기술학보
Chinese Journal of Sensors and Actuators
2015年
10期
1575-1580
,共6页
黄华芳%杨涛%陈晓艳%杨永政
黃華芳%楊濤%陳曉豔%楊永政
황화방%양도%진효염%양영정
电阻抗层析成像%同步测量%正则化算法%PXI%LabVIEW
電阻抗層析成像%同步測量%正則化算法%PXI%LabVIEW
전조항층석성상%동보측량%정칙화산법%PXI%LabVIEW
electrical impedance tomography%synchronous measurement%regularization algorithm%PXI%LabVIEW
针对APT模式EIT系统存在的异步测量、结构复杂、调试困难等问题,研究设计了一种基于同步测量的电阻抗层析成像系统,从硬件和软件两个方面阐述了如何实现同步测量.系统硬件由PXI集成控制器、开关模块、数据采集模块和自制电流源组成,简化了系统结构,提高了系统的稳定性和精确度.本系统采用LabVIEW开发了专用软件包,实现了信号的同步采集,并用改进正则化算法重建了电导率分布图像.对比实验显示了同步测量和异步测量的差异,结果表明同步测量EIT系统图像更清晰,伪影更少,平均相对误差降低了48.99%.本文提供了一种可行的EIT系统同步测量方法,该方法适用于多电极(电极数≥16)场域的无损伤成像应用.
針對APT模式EIT繫統存在的異步測量、結構複雜、調試睏難等問題,研究設計瞭一種基于同步測量的電阻抗層析成像繫統,從硬件和軟件兩箇方麵闡述瞭如何實現同步測量.繫統硬件由PXI集成控製器、開關模塊、數據採集模塊和自製電流源組成,簡化瞭繫統結構,提高瞭繫統的穩定性和精確度.本繫統採用LabVIEW開髮瞭專用軟件包,實現瞭信號的同步採集,併用改進正則化算法重建瞭電導率分佈圖像.對比實驗顯示瞭同步測量和異步測量的差異,結果錶明同步測量EIT繫統圖像更清晰,偽影更少,平均相對誤差降低瞭48.99%.本文提供瞭一種可行的EIT繫統同步測量方法,該方法適用于多電極(電極數≥16)場域的無損傷成像應用.
침대APT모식EIT계통존재적이보측량、결구복잡、조시곤난등문제,연구설계료일충기우동보측량적전조항층석성상계통,종경건화연건량개방면천술료여하실현동보측량.계통경건유PXI집성공제기、개관모괴、수거채집모괴화자제전류원조성,간화료계통결구,제고료계통적은정성화정학도.본계통채용LabVIEW개발료전용연건포,실현료신호적동보채집,병용개진정칙화산법중건료전도솔분포도상.대비실험현시료동보측량화이보측량적차이,결과표명동보측량EIT계통도상경청석,위영경소,평균상대오차강저료48.99%.본문제공료일충가행적EIT계통동보측량방법,해방법괄용우다전겁(전겁수≥16)장역적무손상성상응용.
Avoiding the disadvantages of traditional APT-pattern electrical impedance tomography(EIT)systems, such as asynchronous measurement,complex structure and debugging difficulty,a synchronous measuring EIT sys-tem is proposed and designed. This paper introduces an approach of realizing synchronous measuring in terms of hardware and software. The hardware platform consists of PXI-based integrated controller module,switch module, data acquisition module and lab-made current generator. Thishardware scheme simplifiesthe structure and improves the stability and accuracy of the system. A specified software kit is developed by LabVIEW to carry out data syn-chronous collecting and images reconstructing. An improved regularization algorithm is applied to reconstruct the in-ternal conductivity distribution. The comparative experiments are taken to illustrate the differences between syn-chronous and asynchronous measuring. The results show that the images are clearer and the artifacts are less. The average relative error of EIT images based on synchronous measuring is decreased by 48.99%. This paper provides a feasible and available method of synchronous measuring for EIT system,which is suitable for noninvasive imaging applications in numerous electrodes(electrode number≥16)fields.