publication . Article . 2017

A Multitasking Electrical Impedance Tomography System Using Titanium Alloy Electrode

Abdalla Salama; Amin Malekmohammadi; Shahram Mohanna; Rajprasad Kumar Rajkumar;
Open Access English
  • Published: 01 Jan 2017 Journal: International Journal of Biomedical Imaging, volume 2,017 (issn: 1687-4188, eissn: 1687-4196, Copyright policy)
  • Publisher: Hindawi Limited
This paper presents a multitasking electrical impedance tomography (EIT) system designed to improve the flexibility and durability of an existing EIT system. The ability of the present EIT system to detect, locate, and reshape objects was evaluated by four different experiments. The results of the study show that the system can detect and locate an object with a diameter as small as 1.5 mm in a testing tank with a diameter of 134 mm. Moreover, the results demonstrate the ability of the current system to reconstruct an image of several dielectric object shapes. Based on the results of the experiments, the programmable EIT system can adapt the EIT system for diffe...
Persistent Identifiers
free text keywords: Radiology Nuclear Medicine and imaging, Article Subject, Research Article, lcsh:Medical physics. Medical radiology. Nuclear medicine, lcsh:R895-920, lcsh:Medical technology, lcsh:R855-855.5, Simulation, Acoustics, Titanium alloy, Electrical impedance tomography, Human multitasking, Dielectric, Materials science, Durability, Electrode
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35 references, page 1 of 3

Guermandi, M., Cardu, R., Scarselli, E. F., Guerrieri, R.. Active electrode IC for EEG and electrical impedance tomography with continuous monitoring of contact impedance. IEEE Transactions on Biomedical Circuits and Systems . 2015; 9 (1): 21-33 [OpenAIRE] [PubMed] [] [DOI]

Riedel, T., Richards, T., Schibler, A.. The value of electrical impedance tomography in assessing the effect of body position and positive airway pressures on regional lung ventilation in spontaneously breathing subjects. Intensive Care Medicine . 2005; 31 (11): 1522-1528 [OpenAIRE] [PubMed] [] [DOI]

Li, L., Shin, H., Li, X., Li, S., Zhou, P.. Localized electrical impedance myography of the biceps brachii muscle during different levels of isometric contraction and fatigue. Sensors . 2016; 16 (4, article no. 581) [OpenAIRE] [] [DOI]

Mohanna, S., Valian, E., Tavakoli, S.. Nondestructive position detection of a metallic target within soil substrate using electromagnetic tomography. Research in Nondestructive Evaluation . 2013; 24 (4): 177-190 [OpenAIRE] [] [DOI]

Villa, F., Magnani, A., Maggioni, M. A.. Wearable multi-frequency and multi-segment bioelectrical impedance spectroscopy for unobtrusively tracking body fluid shifts during physical activity in real-field applications: A preliminary study. Sensors . 2016; 16 (5, article no. 673) [OpenAIRE] [] [DOI]

Trepte, C. J. C., Phillips, C. R., Solà, J.. Electrical impedance tomography (EIT) for quantification of pulmonary edema in acute lung injury. Critical Care . 2016; 20 (1, article no. 18): p. 6 [OpenAIRE] [PubMed] [] [DOI]

van der Burg, P. S., Miedema, M., de Jongh, F. H., van Kaam, A. H.. Unilateral atelectasis in a preterm infant monitored with electrical impedance tomography: a case report. European Journal of Pediatrics . 2014; 173 (12): 1715-1717 [OpenAIRE] [PubMed] [] [DOI]

Soleimani, M.. Electrical impedance tomography system: an open access circuit design. Biomedical Engineering Online . 2006; 5, article 28 [OpenAIRE] [] [DOI]

Wi, H., Sohal, H., McEwan, A. L., Woo, E. J., Oh, T. I.. Multi-frequency electrical impedance tomography system with automatic self-calibration for long-term monitoring. IEEE Transactions on Biomedical Circuits and Systems . 2014; 8 (1): 119-128 [PubMed] [] [DOI]

Fabrizi, L., McEwan, A., Oh, T., Woo, E. J., Holder, D. S.. A comparison of two EIT systems suitable for imaging impedance changes in epilepsy. Physiological Measurement . 2009; 30 (6): S103-S120 [OpenAIRE] [PubMed] [] [DOI]

Holder, D. S.. Electrical impedance tomography (EIT) of brain function. Brain Topography . 1992; 5 (2): 87-93 [PubMed] [] [DOI]

Dai, H., Gallo, G. J., Schumacher, T., Thostenson, E. T.. A novel methodology for spatial damage detection and imaging using a distributed carbon nanotube-based composite sensor combined with electrical impedance tomography. Journal of Nondestructive Evaluation . 2016; 35, article 26 [OpenAIRE] [] [DOI]

Li, T., Isaacson, D., Newell, J. C., Saulnier, G. J.. Adaptive techniques in electrical impedance tomography reconstruction. Physiological Measurement . 2014; 35 (6): 1111-1124 [OpenAIRE] [PubMed] [] [DOI]

Goharian, M., Soleimani, M., Jegatheesan, A., Chin, K., Moran, G. R.. A DSP based multi-frequency 3D electrical impedance tomography system. Annals of Biomedical Engineering . 2008; 36 (9): 1594-1603 [OpenAIRE] [PubMed] [] [DOI]

Breckon, W. R., Pidcock, M. K.. Mathematical aspects of impedance imaging. Clinical Physics and Physiological Measurement . 1987; 8 (4A): 77-84 [PubMed] [DOI]

35 references, page 1 of 3
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