Electrical & Electronic Engineering

Prof. Dr. Md. Shariful Islam

Research Interests

• Communication Engineering

Educational Background

• PhD in EEE, (Communication), Bangladesh University of Engineering and Technology
• Master of Science (MSc), (EEE ( Communication )), Bangladesh University of Engineering and Technology
• Bachelor of Science (BSc), (EEE), Bangladesh University of Engineering and Technology

Honors and Achievements

• Reviewer, 1. Results in Optics, Elsevier and 2. Optical Review, Springer Nature, 2021
• Dean's List of Honor, Bangladesh University of Engineering and Technology, 2006

Publications

1. A closed-form solution of BER for a Convolutional Coded non-Hermitian OFDM FSO System with Polarization Diversity, Journal of Optical Communication, 2024, De-Gruyter.
2. BER Performance Analysis of a convolutional coded non-Hermitian OFDM FSO System over Strong Atmospheric Turbulent Channel., Optical and Quantum Electronics, 2024, Springer Nature.
3. User orientation and position-based transmission characteristics analysis of a LiFi system, Journal of Optical Communication, De Gruyter, 2023, De Gruyter. URL
4. Low index silicon photonic directional coupler: design and characterization, Journal of Optoelectronics and Communication, 2022. URL
5. Modeling of Low Contrast Silicon Optics Split Ring Resonators, Journal of Optoelectronics and Communication, 2022, HBRP Publication. URL
6. BER performance analysis of a non-Hermitian coherent optical OFDM FSO system with polarization diversity using various turbulent channel models, Optical and Quantum Electronics, Springer, 2022, Springer. URL
7. Comparative performance analysis between STBC and SFBC on a non-Hermitian OFDM free-space optical system with polarization diversity, Optical and Quantum Electronics, Springer, 2021, Springer.
8. Performance analysis of a 2-Channel Polarization Division Multiplexed Optical DQPSK FSO Link with the effect of Atmospheric Turbulence, Journal of optics, Springer, 2020, Spinger.
9. Analytical Evaluation of the Cross-polarization induced Crosstalk on BER Performance of an OFDM FSO Link with Polarization Diversity, Optics Communication, Elsevier, 2020, Elsevier.
10. BER Performance Evaluation of a non-Hermitian Coherent-Optical OFDM FSO System with SFBC and Polarization Diversity, Optics Communication, Elsevier, 2020, Elsevier.
11. Performance Analysis of a Non-Hermitian OFDM Optical DQPSK FSO Link over Atmospheric Turbulent Channel, Journal of Optical Communication, De-Gruyter, 2019, De-Gruyter.
12. Analytical approach of an FSO link with Alamouti-type STBC considering weak atmospheric turbulence, Bangladesh Journal of Science and Industrial Research, 2018.
13. Hardware implementation issues of Turbo decoders, Bangladesh Journal of Science and Industrial Research, 2012.
14. Performance analysis of QC-LDPC with transmit diversity for wireless communications, Engineering-e-Transaction, 2011. URL

1. A Study on the SNR and SINR Performance of a LiFi Transmission System: From the Perspective of a Smart Classroom in Bangladesh, 2023 3rd Asian Conference on Innovation in Technology (ASIANCON), 2023, IEEE Xplore.
2. Aperture Averaged BER Performance Analysis of a non-Hermitian coherent optical OFDM FSO system with polarization diversity, 11th International Conference on Electrical and Computer Engineering (ICECE), 2020, 2020, IEEE.
3. Performance Analysis of an OFDM Optical DQPSK FSO Link considering Strong Atmospheric Turbulence with Pointing Error, 3rd IEEE ICTP-2019, 2019, IEEE.
4. Performance analysis of a free space optical link using Alamouti type Space Time Block Code with weak turbulent condition, 7th International Conference on Electrical and Computer Engineering (ICECE), 2012, 2012, IEEE.