Séminaires virtuels du CHAPITRE EMBS/CASS de Québec

#Biomedical #Electrical #impedance #tomography #(EIT) #imaging #techniques #body #real-time #biomedical #low #cost #miniaturised #EIT #circuits #and #systems #wearable #system
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The development of wearable Electrical impedance tomography system for biomedical applications

Dai Jiang, PhD

Department of Electronic & Electrical Engineering, Faculty of Engineering Science, University College London

 

Vendredi le 28 janvier 2022 à 9h00, en direct sur Zoom / Friday January 28, 2022 at 9 am on Zoom :

https://us02web.zoom.us/j/86290296680?pwd=MDU1dWhyRStNc3VQNHFOTXkwdDFwZz09

 
  
Abstract

Biomedical Electrical impedance tomography (EIT), an imaging technique by measuring the impedance within a body, provides radiation-free, continuous, real-time biomedical imaging at a low cost. Developing a suitable EIT system for clinical use, however, requires carefully understanding the requirements by specific applications. This talk looks at miniaturised EIT circuits and systems and how it has evolved, and reports our latest development in a wearable EIT system for the clinical care of preterm babies, as well as our investigation in exploring EIT in human-machine interface.

 

Dai Jiang received the B.Sc. and M.Sc. degrees from Beihang University (formerly Beijing University of Aeronautics and Astronautics), Beijing, China, in 1998 and 2001, respectively, and the Ph.D. degree from University College London (UCL), London, U.K., in 2009. His Ph.D. work was on frequency synthesis. He was with Datang Telecom Group, China, from 2001 to 2002, developing FPGA functions for WCDMA signal processing. From 2006 to 2020, he was a Research Fellow with the Bioelectronics Group, UCL, where he is currently a Lecturer with the Department of Electronic and Electrical Engineering. His research interests include CMOS analog and mixed-signal integrated circuit design for biomedical applications. He is a IEEE Senior Member, and a Member of the Biomedical and Life Science Circuits and Systems Technical Committee of the IEEE Circuits and Systems Society. 



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  • Date: 28 Jan 2022
  • Time: 09:00 AM to 10:00 AM
  • All times are (GMT-05:00) Canada/Eastern
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Vendredi le 28 janvier 2022 à 9h00, en direct sur Zoom / Friday January 28, 2022 at 9 am on Zoom :

https://us02web.zoom.us/j/86290296680?pwd=MDU1dWhyRStNc3VQNHFOTXkwdDFwZz09

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  Speakers

Dr Dai Jiang Dr Dai Jiang of Lecturer, Department of Electronic & Electrical Engineering, Faculty of Engineering Science, University College London

Topic:

The development of wearable Electrical impedance tomography system for biomedical applications

Biomedical Electrical impedance tomography (EIT), an imaging technique by measuring the impedance within a body, provides radiation-free, continuous, real-time biomedical imaging at a low cost. Developing a suitable EIT system for clinical use, however, requires carefully understanding the requirements by specific applications. This talk looks at miniaturised EIT circuits and systems and how it has evolved, and reports our latest development in a wearable EIT system for the clinical care of preterm babies, as well as our investigation in exploring EIT in human-machine interface.

Biography:

Dai Jiang received the B.Sc. and M.Sc. degrees from Beihang University (formerly Beijing University of Aeronautics and Astronautics), Beijing, China, in 1998 and 2001, respectively, and the Ph.D. degree from University College London (UCL), London, U.K., in 2009. His Ph.D. work was on frequency synthesis. He was with Datang Telecom Group, China, from 2001 to 2002, developing FPGA functions for WCDMA signal processing. From 2006 to 2020, he was a Research Fellow with the Bioelectronics Group, UCL, where he is currently a Lecturer with the Department of Electronic and Electrical Engineering. His research interests include CMOS analog and mixed-signal integrated circuit design for biomedical applications. He is a IEEE Senior Member, and a Member of the Biomedical and Life Science Circuits and Systems Technical Committee of the IEEE Circuits and Systems Society.