Prof. Tahesin Samira Delwar | Artificial Intelligence | Best Researcher Award
Research Professor at Pukyong National University, South Korea
Professional Profile
Education
Dr. Tahesin Samira Delwar has an impressive educational background in the field of Electrical and Electronics Engineering. He earned his Ph.D. from Pukyong National University in South Korea, where his research focused on automotive radar applications, RF circuit design, and signal optimization. Prior to this, Dr. Delwar completed his Master of Science (M.Sc.) degree in Electrical Engineering from the University of Science and Technology Chittagong in Bangladesh. He also holds a Bachelor of Science (B.Sc.) in Electrical Engineering from the same institution. Throughout his academic journey, Dr. Delwar has demonstrated a strong aptitude for advanced research in the areas of wireless communications, visible light communication, and the Internet of Things (IoT). His formal education has laid a solid foundation for his innovative contributions to research, especially in automotive radar systems, 5G technology, and communication networks.
Professional Experience
Research Interest
Dr. Tahesin Samira Delwar’s research interests lie at the intersection of electrical engineering, wireless communication, and radar systems. His primary focus is on the development and optimization of communication systems, with a particular emphasis on wireless communication technologies, 5G networks, and the Internet of Things (IoT). Dr. Delwar also specializes in radar signal processing, particularly in the context of automotive radar systems, working towards enhancing the performance and efficiency of radar technologies for autonomous vehicles. Additionally, his research encompasses visible light communication, where he explores the potential for using light waves in data transmission for more secure and high-speed communication networks. His work also delves into RF circuit design, aiming to improve the reliability and functionality of wireless devices. Dr. Delwar’s interdisciplinary approach combines theoretical advancements with practical applications, making significant contributions to the ongoing evolution of communication and radar technologies.
Award and Honor
Dr. Tahesin Samira Delwar has received several prestigious awards and honors throughout his career, recognizing his outstanding contributions to the field of electrical engineering and communication technologies. He was awarded the Best Paper Award at the International Conference on Wireless Communications and Signal Processing, highlighting his groundbreaking research in wireless communication systems and radar technologies. Dr. Delwar’s dedication to advancing research in these areas has earned him the Early Career Researcher Award from the Institute of Electrical and Electronics Engineers (IEEE), reflecting his potential to shape the future of communication and radar systems. Additionally, he has been recognized by multiple academic institutions for his excellence in both teaching and research, earning him a place on various distinguished researcher lists. Dr. Delwar’s achievements also include receiving several research grants to support his innovative projects in wireless communications, IoT, and radar systems, further cementing his reputation as a leading expert in the field.
Conclusion
Dr. Tahesin Samira Delwar is undoubtedly a strong contender for the Best Researcher Award. Her technical expertise, impactful publications, and innovative approach to combining machine learning with communication technologies position her as an outstanding researcher. However, broadening the scope of her collaborations and public engagement could elevate her work to a more comprehensive level of influence. Based on her current achievements and potential for further contributions, she would be a highly deserving recipient of the Best Researcher Award.
Publications Top Noted
- The influence of electrical filters with sequence generators on optical ISL performance evolution with suitable data rates
Authors: MMA Eid, AN Zaki Rashed, EM El-Gammal, TS Delwar, JY Ryu
Year: 2020
Cited by: 68 - QAM receiver based on light amplifiers measured with effective role of optical coherent duobinary transmitter
Authors: MMA Eid, R Arunachalam, V Sorathiya, S Lavadiya, SK Patel, J Parmar, …
Year: 2022
Cited by: 55 - Novel multi-user MC-CSK modulation technique in visible light communication
Authors: TS Delwar, A Siddique, MR Biswal, ANZ Rashed, A Jana, JY Ryu
Year: 2021
Cited by: 50 - A novel dual mode configurable and tunable high-gain, high-efficient CMOS power amplifier for 5G applications
Authors: TS Delwar, A Siddique, MR Biswal, P Behera, ANZ Rashed, Y Choi, …
Year: 2022
Cited by: 48 - Linear/cubic measured pulse numerically with electrical jitter amplitude variations for the impact on fiber communication systems
Authors: MMA Eid, ANZ Rashed, TS Delwar, A Siddique, JY Ryu
Year: 2021
Cited by: 47 - Visible light signal strength optimization using genetic algorithm in non-line-of-sight optical wireless communication
Authors: TS Delwar, WA Cahyadi, YH Chung
Year: 2018
Cited by: 16 - A Novel 65 nm Active-Inductor-Based VCO with Improved Q-Factor for 24 GHz Automotive Radar Applications
Authors: P Behera, A Siddique, TS Delwar, MR Biswal, Y Choi, JY Ryu
Year: 2022
Cited by: 11 - Performance of Agro-Sensors: Assessment of Optimality in Routing Protocols of MANET in Wireless Sensor Networks
Authors: KNEAS Faria Farjana Khan, Tahesin Samira, Anindya Jana
Year: 2016
Cited by: 11* - Low-power low-phase noise VCO for 24 GHz applications
Authors: A Siddique, TS Delwar, M Kurbanov, JY Ryu
Year: 2020
Cited by: 10 - A novel optimized V-VLC receiver sensor design using μGA in automotive applications
Authors: A Siddique, TS Delwar, JY Ryu
Year: 2021
Cited by: 8 - Hybrid single electron transistor based low power consuming 4-bit parallel adder/subtractor circuit in 65 nanometer technology
Authors: S Mukherjee, TS Delwar, A Jana, SK Sarkar
Year: 2014
Cited by: 7 - A 65 nm Duplex Transconductance Path Up-Conversion Mixer for 24 GHz Automotive Short-Range Radar Sensor Applications
Authors: TS Delwar, A Siddique, MR Biswal, P Behera, Y Choi, JY Ryu
Year: 2022
Cited by: 6 - Realization of hybrid single electron transistor based low power circuits in 22 nm technology
Authors: TS Delwar, S Biswas, A Jana
Year: 2017
Cited by: 6 - A high‐linearity high‐gain up‐conversion mixer for 24 GHz automotive radar applications
Authors: A Siddique, TS Delwar, JY Ryu
Year: 2021
Cited by: 5 - A design of adaptive genetic algorithm-based optimized power amplifier for 5G applications
Authors: TS Delwar, A Siddique, U Aras, JY Ryu
Year: 2024
Cited by: 4