Multi-Functional UWB Filtering Antennas with Complementary Bandpass & Band stop Response
IEEE AP/MTT Mini Show
New design concepts on multi-functional printed antennas will be discussed in this presentation. The design concepts can be efficiently employed in modern wireless applications like cognitive radios and software-defined radios. One innovative concept is to design a single printed antenna that can be operated as a UWB antenna, frequency-notched UWB antenna, and a narrow band antenna. The proof of concept of this filtering capability of the antenna without tampering with the radiator or using any additional component is demonstrated successfully. Since the design concept is independent of the radiator geometry, its efficacy can be extended to any printed antenna geometry. A long-standing problem of mutual coupling and port coupling between co-located multiple antennas could be mitigated using this concept. Moreover, the concept of frequency notch and narrowband operations from the same antenna which could be reconfigured to the desired frequency on actuation could help design an antenna that provides ‘radiation on demand’.
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- Hanover Manor
- 16 Eagle Rock Avenue
- East Hanover , New Jersey
- United States 07936
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- Co-sponsored by IEEE North Jersey Section
- Starts 01 September 2021 01:00 PM UTC
- Ends 07 October 2021 01:00 PM UTC
- No Admission Charge
Speakers
Dr. Jawad Siddiqui of Royal Military College of Canada, Queens University
Multi-Functional UWB Filtering Antennas with Complementary Bandpass & Band stop Response
Engineers and scientists make technological changes that impact the real world. They also receive blowback when things do not go as planned, and things pretty much never go as planned. This presentation provides a roadmap for anticipating consequences, using historical analogies, systems thinking that includes socioeconomic factors, attention to social practices and how they change, reflective professional practices, and straightforward moral reasoning. The goal of the presentation is to get innovators talking about how to avoid undesirable outcomes in their own work.
Biography:
Jawad Yaseen Siddiqui is an Associate Professor at the Institute of Radio Physics and Electronics, University of Calcutta, India. He received his Doctor of Philosophy degree in Radio Physics and Electronics, the University of Calcutta in 2005. He worked as a Post Doctoral Fellow at the Royal Military College of Canada and Visiting Researcher at Queen’s University, Canada at different periods during 2008-2021. He has more than 150 publications in peer-reviewed journals and conferences. His research areas include printed circuits and antennas, radar, and nano-photonics. He is a Co-Principal Investigator on the Stratosphere Troposphere (ST) Radar Project at the University of Calcutta.
He is a Senior Member of the IEEE and served as Chair for the AP-S and MTT-S Jt. Chapter in IEEE Kolkata Section and SIGHT Chapter, IEEE Kolkata Section. He is the R10 Coordinator (CAC) of the IEEE Antennas and Propagation Society. He is currently the IEEE AP-S SIGHT Chair and a Member of the IEEE Humanitarian Activities Committee. He is a Member of the Management Council, IEEE Smart Village. He is also a Member of, MTT-S Meetings and Symposia Committee and a Corresponding Member of, IEEE Technical Activities Board (CPC).
Email:
Address:Royal Military College of Canada, Queens University, , Canada
Agenda
For further information contact:
IEEE NORTH JERSEY SECTION CHAIR & MTT/AP CHAPTER CHAIR – AJAY KUMAR PODDAR (201-560-3806),akpoddar@ieee.org
CHAIR - GENERAL-EXHIBITION: KIRIT DIXIT (201-669-7599), kdixit@ieee.org
CHAIR – TECHNICAL PROGRAMS: GEORGE KANNELL(973-261-1421),george.kannell@gd-ms.com
THERE IS NO CHARGE TO ATTEND THE SYMPOSIUM OR SHOW.