Title of article :
Simulative Study of Two-Phase Homogenous and Isotropic Media Imaging using Magnetic Induction Tomography
Author/Authors :
Zakaria, Zulkarnay Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomographic Imaging Research Group, Malaysia , Balkhis, Ibrahim Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomographic Imaging Research Group, Malaysia , Yern, Lee Pick Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomographic Imaging Research Group, Malaysia , Ayob, Nor Muzakkir Nor Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Rahiman, Mohd Hafiz Fazalul Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomography Imaging Research Group, Malaysia , Zawahirah, Mohd Zikrillah Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomographic Imaging Research Group, Malaysia , Abdul Rahim, Ruzairi Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia
From page :
65
To page :
70
Abstract :
Magnetic induction tomography is a new non-invasive technology, based on eddy current discovery of electromagnetic induction by Michael Faraday. Through this technique, the passive electrical properties distribution of an object can be obtained by the use of image reconstruction algorithm implemented in this system. There are many types of image reconstruction that have been developed for this modality, however in this paper only two algorithms discussed, Linear Back Projection and Eminent Pixel Reconstruction. Linear Back Projection algorithm is the most basic type of image reconstruction. It is the simplest and fast algorithm out of all types of algorithms, whereas Eminent Pixel Reconstruction algorithm is an improved algorithm which provided better images and has been implemented in other modalities such as optical tomography. This paper has implemented Eminent Pixel Reconstruction in magnetic induction tomography applications and the performance is compared to Linear Back Projection based on the simulation of the fourteen types of simulated phantoms of homogenous and isotropic conductivity property. It was found that Eminent Pixel Reconstruction has produced better images relative to Linear Back Projection, however the images are still poor when the objects are located near to the excitation coil or sensor and it is worse when the distance between objects are near to each other.
Keywords :
Magnetic induction , tomography , image reconstruction algorithm , isotropic , low conductivity.
Journal title :
Jurnal Teknologi :F
Journal title :
Jurnal Teknologi :F
Record number :
2716676
Link To Document :
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