RF DESIGN FOR SUSTAINABILITY
RF DESIGN - NEW YEAR WEBINAR
In the talk, we will discuss radio frequency design solutions for wireless sensor and communication nodes to solve sustainability issues that arise with the digitalization of the economy and society due to the massive deployment of wireless nodes on environmental, economic, and societal levels. Engineers can apply these design solutions to improve the ultra-low-power operation of wireless nodes, avoid batteries’ eco-toxicity, and decrease maintenance costs due to battery replacement. The discussed solutions offer high integration levels based on system-on-chip and system-in-package concepts in low-cost complementary metal-oxide-semiconductor technologies to limit these nodes’ costs and carbon footprints. We will discuss, in particular, solutions for ultra-low-power wireless communication systems based on high-frequency and ultra-high frequency radio frequency identification (RFID) technologies.
Date and Time
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Registration
- Date: 03 Jan 2025
- Time: 03:00 PM to 04:30 PM
- All times are (UTC+01:00) West Central Africa
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NIGERIA AFFINITY GROUP WOMEN IN ENGINEERING
- Co-sponsored by DR.CHIOMA VIOLET OLEKA
- Starts 01 January 2025 12:00 AM
- Ends 03 January 2025 12:00 AM
- All times are (UTC+01:00) West Central Africa
- No Admission Charge
Speakers
JASMIN of GRAZ UNIVERSITY OF TECHNOLOGY AUSTRIA
RF DESIGN FOR SUSTAINABILITY
- RF Design for Sustainability
Abstract:
In the talk, we will discuss radio frequency design solutions for wireless sensor and communication nodes to solve sustainability issues that arise with the digitalization of the economy and society due to the massive deployment of wireless nodes on environmental, economic, and societal levels. Engineers can apply these design solutions to improve the ultra-low-power operation of wireless nodes, avoid batteries’ eco-toxicity, and decrease maintenance costs due to battery replacement. The discussed solutions offer high integration levels based on system-on-chip and system-in-package concepts in low-cost complementary metal-oxide-semiconductor technologies to limit these nodes’ costs and carbon footprints. We will discuss, in particular, solutions for ultra-low-power wireless communication systems based on high-frequency and ultra-high frequency radio frequency identification (RFID) technologies.
Biography:
Jasmin Grosinger is an Associate Professor at the Institute of Microwave and Photonic Engineering at Graz University of Technology in Austria. Her research is focused on sustainable wireless electronics and systems. She also works as a Visiting Associate Professor at the Graduate School of Engineering at Tohoku University, Japan. She is a Senior Member of IEEE and has co-authored several peer-reviewed publications, book chapters, and invention disclosures. For her PhD work, she received the first prize from the Industrial Union of the Austrian Automotive Industry’s Jubilee Foundation. In 2021, Jasmin received the Mind the Gap—Diversity Award from the Graz University of Technology. Since 2019, she has served as an Associate Editor for the IEEE Microwave and Technology Letters. Since 2023, she has chaired the Wireless Power Technologies (WPT) Journal Exploration Working Group (IEEE WPT Initiative). She is a member of the IEEE Microwave Theory and Technology Society (MTT-S) Technical Committees 25 (Wireless Power Transfer and Energy Conversion) and 26 (RFID, Wireless Sensors, and IoT). She has been recognized as a Distinguished Microwave Lecturer of MTT-S and is an Elected Voting Member of its Administrative Committee, chairing the Meetings and Symposia Committee since 2024.
Email:
Address:INSTITUTE OF ,MICROWAVE AND PHOTONIC ENGINEERING, GRAZ UNIVERSITY OF TECHNOLOGY , AUSTRIA, Austria
Agenda
AGENDA
- OPENING PRAYER
- OPENING REMARK
- INTRODUCTION OF DISTINGUISHED LECTURER
- LECTURE
- QUESTION AND ANSWERS
- CLOSING REMARK
- CLOSING PRAYER
HAPPY NEW YEAR