Kabir Hossain
Om
Kabir Hossain received the B.Eng (Hons) in Communication Engineering and M.Sc in Communication Engineering (by research) degrees from Universiti Malaysia Perlis in 2019 and 2021, respectively. He is currently pursuing his PhD degree under the supervision of Professor Michael Cheffena at NTNU. His broad area of interests include, but not limited to antennas and related technologies; with specific interest in their applications in wearables/body area communication; antenna sensors, reconfigurable antennas; EM metamaterial; metasurfaces; massive MIMO, microwave imaging; and wireless techniques for healthcare and B5G/6G. He received the Best Paper Award sponsored by IEEE APS-MTT chapter of Scotland at 5th International Conference on the UK-China Emerging Technologies (UCET 2020), Glasgow, UK. He also received the Best Paper Award at the 1st International Conference on Engineering and Technology (ICoEngTech) 2021, Perlis, Malaysia.
Publikasjoner
2024
-
Hossain, Kabir;
Dang, Yu;
Cheffena, Michael.
(2024)
Nanosilver Inkjet-Printed CPW-Fed Flexible Antenna Sensor for Contactless Liquid Acetone/Water Detection.
IEEE Sensors Journal
Vitenskapelig artikkel
-
Hossain, Kabir;
Cowen, Todd;
Grammatikos, Sotirios;
Cheffena, Michael.
(2024)
Carbon Nanotube-Based Molecularly Imprinted Polymer Antenna Sensor for Ambient Methanol Vapor Detection.
IEEE Transactions on Instrumentation and Measurement
Vitenskapelig artikkel
2023
-
Halim, Ahmad Ashraf Abdul;
Veeraperumal, Vijayasarveswari;
Andrew, Allan Melvin;
Yasin, Mohd Najib Mohd;
Ahmad, Mohd Zamri Zahir;
Hossain, Kabir.
(2023)
UWB-Based Early Breast Cancer Existence Prediction Using Artificial Intelligence for Large Data Set.
Journal of Advanced Research in Applied Sciences and Engineering Technology
Vitenskapelig artikkel
-
Hossain, Kabir;
Cowen, Todd;
Cheffena, Michael.
(2023)
Molecularly Imprinted Polymer Based Antenna Sensor for Methanol Vapor Sensing.
IEEE Microwave and Wireless Components Letters
Vitenskapelig artikkel
2022
-
Obadi, Ameen Bin;
Hussein, Alaa El-Din;
Al-Bawri, Samir Salem;
Hossain, Kabir;
Abdulhameed, Abdullah;
Jusoh, Muzammil.
(2022)
High-Bandwidth, Low-Power CMOS Transistor Based CAB for Field Programmable Analog Array.
Computers, Materials and Continua (CMC)
Vitenskapelig artikkel
-
Shamsuri Agus, Amira Nur Suraya;
Sabapathy, Thennarasan;
Jusoh, Muzammil;
Abdelghany, Mahmoud A.;
Hossain, Kabir;
Padmanathan, Surentiran.
(2022)
Combined RIS and EBG Surfaces Inspired Meta-Wearable Textile MIMO Antenna Using Viscose-Wool Felt.
Polymers
Vitenskapelig artikkel
Tidsskriftspublikasjoner
-
Hossain, Kabir;
Dang, Yu;
Cheffena, Michael.
(2024)
Nanosilver Inkjet-Printed CPW-Fed Flexible Antenna Sensor for Contactless Liquid Acetone/Water Detection.
IEEE Sensors Journal
Vitenskapelig artikkel
-
Hossain, Kabir;
Cowen, Todd;
Grammatikos, Sotirios;
Cheffena, Michael.
(2024)
Carbon Nanotube-Based Molecularly Imprinted Polymer Antenna Sensor for Ambient Methanol Vapor Detection.
IEEE Transactions on Instrumentation and Measurement
Vitenskapelig artikkel
-
Halim, Ahmad Ashraf Abdul;
Veeraperumal, Vijayasarveswari;
Andrew, Allan Melvin;
Yasin, Mohd Najib Mohd;
Ahmad, Mohd Zamri Zahir;
Hossain, Kabir.
(2023)
UWB-Based Early Breast Cancer Existence Prediction Using Artificial Intelligence for Large Data Set.
Journal of Advanced Research in Applied Sciences and Engineering Technology
Vitenskapelig artikkel
-
Hossain, Kabir;
Cowen, Todd;
Cheffena, Michael.
(2023)
Molecularly Imprinted Polymer Based Antenna Sensor for Methanol Vapor Sensing.
IEEE Microwave and Wireless Components Letters
Vitenskapelig artikkel
-
Obadi, Ameen Bin;
Hussein, Alaa El-Din;
Al-Bawri, Samir Salem;
Hossain, Kabir;
Abdulhameed, Abdullah;
Jusoh, Muzammil.
(2022)
High-Bandwidth, Low-Power CMOS Transistor Based CAB for Field Programmable Analog Array.
Computers, Materials and Continua (CMC)
Vitenskapelig artikkel
-
Shamsuri Agus, Amira Nur Suraya;
Sabapathy, Thennarasan;
Jusoh, Muzammil;
Abdelghany, Mahmoud A.;
Hossain, Kabir;
Padmanathan, Surentiran.
(2022)
Combined RIS and EBG Surfaces Inspired Meta-Wearable Textile MIMO Antenna Using Viscose-Wool Felt.
Polymers
Vitenskapelig artikkel