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Mohammad Mahmudul Hasan

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Mohammad Mahmudul Hasan

Researcher

mohammad.m.hasan@ntnu.no
+4746345632 Smaragd-bygget, NTNU, Gjøvik, Norway
ResearchGate Google Scholar ORCID GitHub
About Research Publications

About

Mohammad Mahmudul Hasan earned his PhD in Information and Communication Technology from the Norwegian University of Science and Technology (NTNU), Norway, in 2025. He previously received his Bachelor of Technology (2008) and Master of Technology (2010) in Electronics and Telecommunication Engineering from KIIT University, India. From 2010 to 2022, he served as an Assistant Professor at several prestigious universities in India and Bangladesh. In 2024, he was a Visiting Researcher at Brno University of Technology, Czech Republic. His research interests include wireless communication systems, signal processing, machine learning, intelligent systems, sensor systems, and antenna engineering.

Research Interests

  • Wireless communication systems
  • Machine learning and intelligent systems
  • Massive MIMO systems
  • Wireless security systems
  • Sensor systems
  • Antenna and RF systems

Work Experiences

  • 01.2011 – 04.2022 : Assistant Professor, UITS, Bangladesh.
  • 02.2009 – 12.2010 : Assistant Professor, KIIT University, India.

Education 

  • Doctor of Philosophy in Engineering (Information and Communication Technology- 2025), Norwegian University of Science and Technology (NTNU), Norway.
  • Master of Technology in Engineering (Communication Systems- 2010) at KIIT University, India.
  • Bachelor of Technology in Engineering (Electronics and Telecommunication- 2008) at KIIT University, India.

Selected Publications

  • Mohammad Mahmudul Hasan, T. Cowen, Onur Alev, and Michael Cheffena Gebresilassie, "MIMO Microwave Sensor for Selective and Simultaneous Detection of Methanol and Ethanol Gases at Room Temperature," IEEE Transactions on Instrumentation & Measurement, 2025 (Early Access)
  • Mohammad Mahmudul Hasan, Onur Alev, and Michael Cheffena Gebresilassie, "Dual-Functional Antenna Sensor for Highly Sensitive and Selective Detection of Isopropanol Gas Using Optimized Molecularly Imprinted Polymers," ACS Sensors, 2025 (Early Access)
  • Mohammad Mahmudul Hasan, Onur Alev, E. Goldenberg and Michael Cheffena Gebresilassie, "MoS2/MoOx Nanoflake-Based Dual-Functional Antenna Sensors for Highly Sensitive and Selective Detection of Volatile Organic Compounds," ACS Applied Nano Materials, 7(21), pp. 25065–25077, 2024
  • Mohammad Mahmudul Hasan, T. Cowen and Michael Cheffena Gebresilassie, "A Novel Molecularly Imprinted Polymer-Based Carbon Nanotube-Coated Microwave Sensor for Selective Detection of Methanol Gas," IEEE Sensors Letters, 8(5), 6004904, 2024
  • Mohammad Mahmudul Hasan, Onur Alev, E. Goldenberg and Michael Cheffena Gebresilassie, "A Novel Molybdenum Disulfide-Based High-Precision Microwave Sensor for Methanol Gas Detection at Room Temperature," IEEE Microwave and Wireless Technology Letters, 34(6), pp. 691 – 694, 2024.
  • Mohammad Mahmudul Hasan, Michael Cheffena Gebresilassie, "Adaptive Antenna Impedance Matching Using Low-Complexity Shallow Learning Model", IEEE Access, 11, pp. 74101 – 74111, 2023.
  • Mohammad Mahmudul Hasan, Michael Cheffena Gebresilassie, S. Petrovic, "Physical-layer Security Improvement in MIMO OFDM Systems using Multilevel Chaotic Encryption", IEEE Access, 11, pp. 64468 – 64475, 2023.
  • I. Khan, Michael Cheffena Gebresilassie, Mohammad Mahmudul Hasan, "Data Aided Channel Estimation for MIMO-OFDM Wireless Systems Using Reliable Carriers", IEEE Access, 11, pp. 47836 – 47847, 2023.
  • Mohammad Mahmudul Hasan, M. M. Foad, "Modified Gamma Correction Companding for PAPR Reduction in OFDM Systems Considering Solid State Power Amplifier and Wireless Channels", Circuits, Systems, and Signal Processing, 37(10), pp. 4431-4454, 2018.
  • Mohammad Mahmudul Hasan, Mohammad Mahmudul Hasan Faisal, "IGCC for PAPR Reduction in OFDM Systems over the Nonlinearity of SSPA and Wireless Fading Channels", Circuits, Systems, and Signal Processing, 35(8), pp. 2855–2880, 2015.
  • Mohammad Mahmudul Hasan, "PAR Reduction in SU/MU-MIMO OFDM Systems using OPF Precoding over the Nonlinearity of SSPA", Wireless Personal Communications, 83(3), pp. 2225-2248, 2015.
  • Mohammad Mahmudul Hasan, "A Novel CVM Precoding Scheme for PAPR Reduction in OFDM Transmissions", Wireless Network, 20(6), pp. 1573-1581, 2014.
  • Mohammad Mahmudul Hasan, "A New PAPR Reduction Scheme for OFDM Systems Based on Gamma Correction", Circuits, Systems, and Signal Processing, 33(5), pp. 1655-1668, 2014.
  • Mohammad Mahmudul Hasan, "A New PAPR Reduction Technique in OFDM Systems Using Linear Predictive Coding", Wireless Personal Communications, 75(1), pp. 707-721, 2014.
  • Mohammad Mahmudul Hasan, "VLM Precoded SLM Technique for PAPR Reduction in OFDM Systems", Wireless Personal Communications, 73(3), pp. 791-801, 2013.
  • Mohammad Mahmudul Hasan, "PAPR Reduction in OFDM Systems Based on Autoregressive Filtering", Circuits, Systems, and Signal Processing, 33(5), pp. 1637-1654, 2013.

Competencies

  • Antenna engineering
  • Engineering
  • Machine learning
  • Teaching and research
  • Wireless communication

Research

Research Interests

  • Wireless communication systems
  • Machine learning and intelligent systems
  • Wireless security systems
  • Antennas engineering
  • Sensor systems

Publications

  • Chronological
  • By category
  • All publications registered in NVA

2025

  • Khan, Inaamullah; Hasan, Mohammad Mahmudul; Gebresilassie, Michael Cheffena. (2025) A Novel Low-Complexity Peak-Power-Assisted Data-Aided Channel Estimation Scheme for MIMO-OFDM Wireless Systems. IEEE Open Journal of Signal Processing
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Skrabanek, Pavel; Soukupová, Gabriela; Hassouna, Fatima; Gebresilassie, Michael Cheffena. (2025) Microwave MIMO E-Nose for Wireless Communication and Selective Detection of VOC Mixtures with Concentration Estimation. ACS Sensors
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Gebresilassie, Michael Cheffena. (2025) Dual-Functional Antenna Sensor for Highly Sensitive and Selective Detection of Isopropanol Gas Using Optimized Molecularly Imprinted Polymers. ACS Sensors
    Academic article
  • Alev, Onur; Hasan, Mohammad Mahmudul; Ertuğrul, Emel Tuğba; Birdoğan, Selçuk; Goldenberg, Eda; Özdemir, Okan. (2025) Hydrothermally synthesized molybdenum disulfide nanoflakes: structural, electrical, and antenna-based gas sensing characteristics. Sensors and Actuators A-Physical
    Academic article
  • Hasan, Mohammad Mahmudul; Cowen, Todd James; Alev, Onur; Gebresilassie, Michael Cheffena. (2025) MIMO Microwave Sensor for Selective and Simultaneous Detection of Methanol and Ethanol Gases at Room Temperature. IEEE Transactions on Instrumentation and Measurement
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Škrabánek, Pavel; Gebresilassie, Michael Cheffena. (2025) Molecularly Imprinted Polymer-Based Electronic Nose for Ultrasensitive, Selective Detection and Concentration Estimation of VOC Mixtures. IEEE Sensors Journal
    Academic article

2024

  • Hasan, Mohammad Mahmudul; Alev, Onur; Goldenberg, Eda; Gebresilassie, Michael Cheffena. (2024) MoS2/MoOx Nanoflake-Based Dual-Functional Antenna Sensors for Highly Sensitive and Selective Detection of Volatile Organic Compounds. ACS Applied Nano Materials
    Academic article
  • Hasan, Mohammad Mahmudul; Cowen, Todd James; Gebresilassie, Michael Cheffena. (2024) A Novel Molecularly Imprinted Polymer-Based Carbon Nanotube-Coated Microwave Sensor for Selective Detection of Methanol Gas. IEEE Sensors Letters
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Goldenberg, Eda; Gebresilassie, Michael Cheffena. (2024) A Novel Molybdenum Disulfide-Based High-Precision Microwave Sensor for Methanol Gas Detection at Room Temperature. IEEE Microwave and Wireless Technology Letters (MWTL)
    Academic article

2023

  • Hasan, Mohammad Mahmudul; Gebresilassie, Michael Cheffena. (2023) Adaptive Antenna Impedance Matching Using Low-Complexity Shallow Learning Model. IEEE Access
    Academic article
  • Khan, Inaamullah; Gebresilassie, Michael Cheffena; Hasan, Mohammad Mahmudul. (2023) Data Aided Channel Estimation for MIMO-OFDM Wireless Systems Using Reliable Carriers. IEEE Access
    Academic article
  • Hasan, Mohammad Mahmudul; Gebresilassie, Michael Cheffena; Petrovic, Slobodan. (2023) Physical-Layer Security Improvement in MIMO OFDM Systems Using Multilevel Chaotic Encryption. IEEE Access
    Academic article

Journal publications

  • Khan, Inaamullah; Hasan, Mohammad Mahmudul; Gebresilassie, Michael Cheffena. (2025) A Novel Low-Complexity Peak-Power-Assisted Data-Aided Channel Estimation Scheme for MIMO-OFDM Wireless Systems. IEEE Open Journal of Signal Processing
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Skrabanek, Pavel; Soukupová, Gabriela; Hassouna, Fatima; Gebresilassie, Michael Cheffena. (2025) Microwave MIMO E-Nose for Wireless Communication and Selective Detection of VOC Mixtures with Concentration Estimation. ACS Sensors
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Gebresilassie, Michael Cheffena. (2025) Dual-Functional Antenna Sensor for Highly Sensitive and Selective Detection of Isopropanol Gas Using Optimized Molecularly Imprinted Polymers. ACS Sensors
    Academic article
  • Alev, Onur; Hasan, Mohammad Mahmudul; Ertuğrul, Emel Tuğba; Birdoğan, Selçuk; Goldenberg, Eda; Özdemir, Okan. (2025) Hydrothermally synthesized molybdenum disulfide nanoflakes: structural, electrical, and antenna-based gas sensing characteristics. Sensors and Actuators A-Physical
    Academic article
  • Hasan, Mohammad Mahmudul; Cowen, Todd James; Alev, Onur; Gebresilassie, Michael Cheffena. (2025) MIMO Microwave Sensor for Selective and Simultaneous Detection of Methanol and Ethanol Gases at Room Temperature. IEEE Transactions on Instrumentation and Measurement
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Škrabánek, Pavel; Gebresilassie, Michael Cheffena. (2025) Molecularly Imprinted Polymer-Based Electronic Nose for Ultrasensitive, Selective Detection and Concentration Estimation of VOC Mixtures. IEEE Sensors Journal
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Goldenberg, Eda; Gebresilassie, Michael Cheffena. (2024) MoS2/MoOx Nanoflake-Based Dual-Functional Antenna Sensors for Highly Sensitive and Selective Detection of Volatile Organic Compounds. ACS Applied Nano Materials
    Academic article
  • Hasan, Mohammad Mahmudul; Cowen, Todd James; Gebresilassie, Michael Cheffena. (2024) A Novel Molecularly Imprinted Polymer-Based Carbon Nanotube-Coated Microwave Sensor for Selective Detection of Methanol Gas. IEEE Sensors Letters
    Academic article
  • Hasan, Mohammad Mahmudul; Alev, Onur; Goldenberg, Eda; Gebresilassie, Michael Cheffena. (2024) A Novel Molybdenum Disulfide-Based High-Precision Microwave Sensor for Methanol Gas Detection at Room Temperature. IEEE Microwave and Wireless Technology Letters (MWTL)
    Academic article
  • Hasan, Mohammad Mahmudul; Gebresilassie, Michael Cheffena. (2023) Adaptive Antenna Impedance Matching Using Low-Complexity Shallow Learning Model. IEEE Access
    Academic article
  • Khan, Inaamullah; Gebresilassie, Michael Cheffena; Hasan, Mohammad Mahmudul. (2023) Data Aided Channel Estimation for MIMO-OFDM Wireless Systems Using Reliable Carriers. IEEE Access
    Academic article
  • Hasan, Mohammad Mahmudul; Gebresilassie, Michael Cheffena; Petrovic, Slobodan. (2023) Physical-Layer Security Improvement in MIMO OFDM Systems Using Multilevel Chaotic Encryption. IEEE Access
    Academic article

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