A Multimodal Image Reconstruction Method Using Ultrasonic Waves and Electrical Resistance Tomography

Electrical resistance tomography (ERT) has been investigated in monitoring conductive flows due to its high speed, non-intrusive and no radiation hazard advantages. Recently, we have developed an ERT system for the novel application of smart wastewater metering. The dedicated low cost and high-speed design of the reported ERT device allows for imaging pipes with different flow constituents and monitoring the sewer networks. This work extends the capability of such a system to work with partially filled lateral pipes where the incomplete data issue arises due to the electrodes losing contact with the conductive medium. Although the ERT for such a limited region has been developed for many years, there is no study on imaging content within these limited regions. For wastewater monitoring, this means imaging the wastewater and solid inclusions at the same time. This paper has presented a modified ERT system that has the capacity to image inclusions within the conductive region using limited data. We have adjusted the ERT hardware to register the information of the non-contact electrodes and hence the valid measurements. A limited region image reconstruction method based on Jacobian reformulation is applied to gain robustness when it comes to inclusion recovery in limited data ERT. Both simulation and experimental results have demonstrated an enhanced performance brought by the limited region method in comparison to the global reconstruction.

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A MAP regularization super-resolution image reconstruction method based on improved immune algorithm

Information Technology and Industrial Engineering ◽

10.2495/itie130171 ◽

2013 ◽

Author(s):

Hong Lei ◽

Jianwen Han

Keyword(s):

Image Reconstruction ◽

Super Resolution ◽

Immune Algorithm ◽

Reconstruction Method ◽

Resolution Image ◽

Image Reconstruction Method

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Image Reconstruction with the Fourier Coefficients for Magnetic Induction Tomography

Current Medical Imaging Formerly Current Medical Imaging Reviews ◽

10.2174/1573405615666190126130905 ◽

2020 ◽

Vol 16 (2) ◽

pp. 156-163

Author(s):

Jingwen Wang ◽

Xu Wang ◽

Dan Yang ◽

Kaiyang Wang

Keyword(s):

Inverse Problem ◽

Image Reconstruction ◽

Magnetic Induction ◽

Fourier Coefficients ◽

Signal Reconstruction ◽

Reconstruction Algorithm ◽

Reconstruction Method ◽

Measurement Equation ◽

Image Reconstruction Method ◽

Magnetic Induction Tomography

Background: Image reconstruction of magnetic induction tomography (MIT) is a typical ill-posed inverse problem, which means that the measurements are always far from enough. Thus, MIT image reconstruction results using conventional algorithms such as linear back projection and Landweber often suffer from limitations such as low resolution and blurred edges. Methods: In this paper, based on the recent finite rate of innovation (FRI) framework, a novel image reconstruction method with MIT system is presented. Results: This is achieved through modeling and sampling the MIT signals in FRI framework, resulting in a few new measurements, namely, fourier coefficients. Because each new measurement contains all the pixel position and conductivity information of the dense phase medium, the illposed inverse problem can be improved, by rebuilding the MIT measurement equation with the measurement voltage and the new measurements. Finally, a sparsity-based signal reconstruction algorithm is presented to reconstruct the original MIT image signal, by solving this new measurement equation. Conclusion: Experiments show that the proposed method has better indicators such as image error and correlation coefficient. Therefore, it is a kind of MIT image reconstruction method with high accuracy.

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