RF Circuit Design using Computer Simulation Technology (CST)

#Workshop #ED/SSCS #CST
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IEEE ED/SSCS Bangladesh Chapter and Department of EEE, BUET jointly organized a workshop
on “RF Circuit Design using Computer Simulation Technology (CST)” on January 24, 2018 at
the Department of EEE, BUET. The workshop was conducted by Dr. Emran Md Amin, R&D Design Engineer for Radio Frequency Systems, Melbourne, Australia.
In this workshop Dr. Emran Amin will introduce one of the most widely used 3D simulator
Computer Simulation Technology (CST) for RF circuit design.
The primary agenda of this workshop is to familiarize with CST Microwave Studio (MWS) as it is
one of the specialist tools for the 3D EM simulation of high frequency passive components.


  Date and Time

  Location

  Hosts

  Registration


  • Date: 24 Jan 2018
  • Time: 08:00 AM UTC to 11:00 AM UTC
  • Add_To_Calendar_icon Add Event to Calendar
  • ECE building, BUET-1205
  • Dhaka, Dhaka
  • Bangladesh
  • Contact Event Host

  • mahnazislam138@gmail.com

  • Starts 13 January 2018 03:00 AM UTC
  • Ends 22 January 2018 11:00 AM UTC
  • No Admission Charge

  Speakers

Emran Md Amin, PhD of Radio Frequency Systems, Melbourne, Australia

Biography:

Emran Md Amin has a PhD from the Electrical and Computer Systems Engineering Department of
Monash University, Australia and a visiting Research Scholar at Massachusetts Institute of Technology
(MIT), USA. He received the B.Eng. degree in Electrical and Electronics Engineering (EEE)
Department from Bangladesh University of Engineering and Technology (BUET) in 2009. He is
currently working at Radio Frequency Systems (RFS) as an R&D design engineer.
Emran has a successful multi-disciplinary research career for the last 7 years in the areas of electrical
and electronic systems, pervasive sensors, radio frequency identification (RFID) sensor system,
wireless communications, digital signal processing, power electronics, smart sensing materials and
microwave sensors for biomedical applications. His research vision is to deliver a technology that
would replace optical barcodes with passive, sub-cent, highly sensitive, fully printable chipless RFID
sensors. Such low-cost ubiquitous sensing technology can uniquely identify and monitor each and
every physical object through internet of things (IoT). He is working with a number of pioneer research
groups namely, the AutoID lab, Massachusetts Institute of Technology (MIT), Monash Microwave
Antennas RFID and Sensors (MMARS) lab and Monash Conducting Polymer research group.
The impact of his research on ‘Chipless RFID Sensors’ is reflected through patent applications, peer
reviewed journals, book chapters and highly ranked conference papers. The most significant outcome
of his work is a book titled ‘Chipless RFID Sensors’ by Wiley publishers. His outstanding research on
chipless RFID sensor is distinguished in the international arena as well. He was invited to chair a
workshop at IEEE RFID 2014 conference, USA titled ‘Chipless RFID Sensors: Challenges and
Breakthroughs’. He was invited for IEEE Technical talks at Lulea University of Technology,
Sweden; University of Queensland, Brisbane and Bangladesh University of Engineering and
Technology (BUET), Dhaka. He is a frequent reviewer for prestigious journals and conference papers
including IEEE Transaction on Microwave Theory and Techniques (MTT) and IEEE Sensors Journal.