电流注入与磁场感应电阻层析成像

JGEET Journal of Geoscience Engineering Environment and Technology Pub Date : 2023-03-27 DOI:10.25299/jgeet.2023.8.1.10560

Dudi Darmawan, D. Kurniadi, Suprijanto

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引用次数: 0

摘要

电断层成像的一个关键问题是由于低灵敏度引起的不适定问题。在电流注入法中，注入电极在物体边界上的位置会对其产生影响。这种情况导致远离边界的参数变化的重建结果质量较差。另一种激励方法是利用磁场感应来克服这些问题。每幅重建图像分别采用两种方法和三种类型的参数变化，分别代表物体的边缘和中心位置。基于各元素电阻率的平均值，将两个重建结果合并并进一步处理以提高图像质量。结果表明，与电流注入法相比，最终重建的图像具有更小的均方根误差(RMSE)。

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Electrical Resistance Tomographic by Using Current Injection and Magnetic Field Induction

A critical issue in electrical tomography is ill-posed problems due to low sensitivity. In the electric current injection method, the placement of the injection electrode on the object boundary can influence it. This condition causes the reconstruction result of parameter change far away from the boundary to be inferior in quality. Another excitation method is using magnetic field induction proposed to overcome these problems. Each reconstruction image was obtained using two methods with three types of parameter changes, that represented the edge and the center of the object position. Both reconstruction results are merged and further processed to enhance the quality of the image, based on the average value of the resistivity of each element. The results show that the final image reconstruction has a smaller root mean square error (RMSE) than the electric current injection method.

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来源期刊

JGEET Journal of Geoscience Engineering Environment and Technology

自引率

0.00%

发文量

审稿时长

16 weeks