Author/Authors :
Zakaria, Zulkarnay Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomography Imaging and Instrumentation Research Group, Malaysia , Zakaria, Zulkarnay Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Mansor, Muhammad Saiful Badri Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Abdul Rahim, Ruzairi Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography Research Group (PROTOM-i), Malaysia , Balkhis, Ibrahim Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomographic Imaging Research Group, Malaysia , Rahiman, Mohd Hafiz Fazalul Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomography 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 , Abdul Rahim, Herlina Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Yaacob, Sazali Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomography Imaging Research Group, Malaysia
Abstract :
This paper discusses the receiver circuit and criteria for component selection towards the application of a real-time magnetic induction tomography system. Component selection plays an important role since image reconstruction of the object of interest with high quality and at a higher frame rate cannot be achieved without the right parameter criteria. The demands for a high quality imaging system have recently been increasing, especially in industrial processes involving dynamic movement, thus this paper may provide valuable information on better magnetic induction tomography system implementation for industrial processes and biomedical imaging through the use of a coil as a transmitter and also a receiver. The linear back projection algorithm has been employed in this system and has proven capable of identifying the location and size of the object based on the reconstructed images.
Keywords :
Magnetic induction tomography , frame rate , components selection , industrial process , biomedical
