IEEE International RF and Microwave Conference 2018, Dec 2018

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IEEE Distinguished Microwave Lecturer (DML)

 

 

MRI in conjunction with IEEE Antennas and Propagation/Microwave Theory and Techniques/Electromagnetic Compatibility Joint Chapter Malaysia were honoured to host the IEEE Distinguished Microwave Lecturer program featuring Professor Amir Mortazawi from the University of Michigan, USA to give a research talk in UiTM Shah Alam. The event was held on the 17th of November 2017 at Lecture Hall C, Faculty of Electrical Engineering. The talk titled “Switchable and Tunable Ferroelectric Devices for Adaptive and Reconfigurable RF Circuits” intrigued a small crowd of staff and students about the applications of barium strontium titanate ferroelectric thin films in future wireless communication systems.

Amir Mortazawi received the Ph.D. degree in electrical engineering from The University of Texas at Austin, in 1990. He is currently a Professor of electrical engineering with The University of Michigan at Ann Arbor. His research interests include microwave and millimeter-wave circuits, phased arrays, power amplifiers, ferroelectric thin film based devices and frequency-agile microwave circuits. Mortazawi was the Editor-in-Chief for the IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES from 2006-2010. He served on the IEEE Microwave Theory and Techniques Society (IEEE MTT-S) Administrative Committee (AdCom) for eight years. Mortazawi served as the Associate Editor for the IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION (1998–2001) and IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES (2005). He is currently the Chair of the DML selection committee for the MTT-S. Mortazawi is a Fellow of IEEE.

 

Below is the highlight of his talk:

The exponential increase in the number of wireless devices as well as the limited wireless spectrum, pose significant challenges in the design of future wireless communication systems. Adaptive and reconfigurable radios that can change their frequency and mode of operation based on the unused/available wireless spectrum have been proposed to address such challenges. Frequency agile RF circuits play a key role in realization of such radios.

This presentation is on the applications of ferroelectric thin film barium strontium titanate (BST) for the design of frequency agile radios. BST is a low loss, high dielectric constant field dependent multifunctional material. The electric field dependence of BST has been employed to design tunable RF and microwave devices and components. Another important property of BST is its DC electric field induced piezoelectric or electrostrictive effect. These properties are utilized to design intrinsically switchable film bulk acoustic wave resonators (FBARs) and FBAR filters. Switchable ferroelectric based filter banks can significantly reduce size and power consumption of conventional filter banks employed in frequency agile radios. Design of several BST-based adaptive and reconfigurable RF circuits were presented in the talk.

 

      

 

 

 

Vectolab-MRI won 1st Runner-up at Maxis IoT Challenge 2019

 

Alhamdulilah. Vectolabs-MRI team won the 1st runner up (2nd place) in the Maxis IoT competition on 21st August 2019, held in Cyberjaya. MRI was represented by Dr. Khairul Khaizi, whom collaborated with Vectolabs to develop a smart street light system which automatically detects road users including vehicles, cyclists and pedestrians. Below are the details of the project and the prize won:

  • Award: 1st Runner-up
  • Category: Smart Cities - Traffic monitoring & management
  • Description: Smart road user detection to detect even cyclists and motorcyclists for safer roads, and links to smart street lights to enable greater road safety when users are present.
  • Prize: RM10,000 & 3 months complimentary membership with Co-labs co-working space

Our heartful thanks to Vectolab team for willing to collaborate with MRI in the development of the prototype. We look forward to continue the collaboration for further development and commercialization with Vectolabs.