Dr. Md Abdul Latif Sarker, Kyungpook National University, South Korea
š Dr. Sarker received his Ph.D. degree from Chonbuk National University, Jeonju South Korea in August 2016. He is currently working as a researcher at the ICT Automotive convergence group, millimeter wave (mmWave) communications for connected autonomous vehicles, Kyungpook National University, South Korea. His research interests on (a) 5G wireless communication: System architecture development of the mmWave massive MIMO, beamforming, and management, reconfigurable intelligent surface-aided communications, and multiuser interference management (b) Integrated sensing, localization, and communication: V2X MIMO communications, sensors (LiDAR, Camera, GPS, SLAM)-sided autonomous driving perception, machine learning-based vision-aided beam management for indoor and outdoor mmWave communications and human-centric autonomous driving. š
š¬ He has worked on various research and development projects in internationally renowned universities and research institutes, which include Hanyang University, Kyungpook National University, and Samsung Electronics Co. Ltd. For example, he has successfully completed 8 projects with the collaboration of various local and international collaborators from renewed institutes in South Korea, the United Kingdom, Australia, Bulgaria, and Bangladesh. He has good knowledge on project proposals. Dr. Sarker has published 1 Ph.D. thesis, 20 peer-review articles in high-impact journals, 1 international book chapter, 8 patents, and 25 national/international conference proceedings during his research career. š
āļø He presented his research at various local and international conferences and received many awards. He has been actively involved in reviewing scientific research papers for various prestigious journals and conferences. He has solved several challenging tasks in the field of wireless and sensor-connected vehicular communications, for example, he developed novel signal processing algorithms, and low-latency and high-accuracy architectures for wireless and vehicular applications. Dr. Sarker has gained practical experience with state-of-the-art development kits and simulators in research and industry.šļø
š Education :Ā
Dr. Md Abdul Latif Sarker is an accomplished individual with a strong academic background in the field of Electronics and Information Engineering. He earned his Doctor of Philosophy (Ph.D.) degree in August 2016 from Chonbuk National University in Jeonju, South Korea. š His dissertation, titled “Capacity Analysis in the High SNR Massive MIMO Channel,” reflects his expertise and contribution to the realm of high signal-to-noise ratio (SNR) Massive Multiple Input Multiple Output (MIMO) communication systems. š
š During his doctoral studies, Dr. Sarker was under the guidance of the esteemed Dr. Moon Ho Lee, a Professor at Chonbuk National University. š¤ Under Dr. Lee’s mentorship, he delved into advanced research and analysis in the field, further enhancing his knowledge and skills. š¬š
Professional Profiles : š
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š§ Research Interests š¬š :
š§ Dr. Md Abdul Latif Sarker’s diverse and cutting-edge research interests underscore his commitment to pushing the boundaries of Wireless Communications in the era of 5G and beyond. His expertise spans a spectrum of technologies that are at the forefront of shaping the future of connectivity. š
Within the realm of Wireless Communications, Dr. Sarker has demonstrated a keen focus on Massive MIMO, a key technology that enhances data rates and network efficiency. His exploration of mmWave/THz technologies further showcases his dedication to unlocking the potential of high-frequency bands for faster and more reliable communication. š¶
The application of beamforming techniques in his research highlights his interest in optimizing signal transmission, ensuring efficient and targeted communication. Moreover, his work in Reflecting Surface (RIS), Intelligent Reflecting Surface (IRS), and Large Intelligent Surface (LIS) technologies emphasizes the importance of leveraging intelligent surfaces for enhanced wireless communication environments. š°ļø
Dr. Sarker’s research extends beyond conventional communication paradigms into the realm of Integrated Sensing and Communications. His work on employing mmWave for connected autonomous vehicles aligns with the transformative potential of these technologies in shaping the future of transportation. The exploration of Vehicle-to-Everything (V2X) MIMO further underscores his commitment to advancing communication systems in the context of smart and connected vehicles. šš”
Google Scholar Metrics:
- All Time:
- Citations: 170 š
- h-index: 8 š
- i10-index: 6 š
- Since 2018:
- Citations: 122 š
- h-index: 6 š
- i10-index: 4 š
šØāš« A prolific researcher with significant impact and contributions in the field, as evidenced by citation metrics. šš¬
Publications ( Top Note ) :
1.Ā User clustering and robust beamforming design in multicell MIMO-NOMA system for 5G communications
2017 – Published in AEU-International Journal of Electronics and Communications, cited 33 times.
2.Ā Rate-loss mitigation for a millimeter-wave beamspace MIMO lens antenna array system using a hybrid beam selection scheme
2020 – Published in IEEE Systems Journal, cited 22 times.
3.Ā A fast channel estimation and the reduction of pilot contamination problem for massive MIMO based on a diagonal Jacket matrix
2013 – Presented at the 4th International Workshop on Fiber Optics in Access Network (FOAN), cited 22 times.
4.Ā Bidirectional relaying using non-orthogonal multiple access
2019 – Published in Physical Communication, cited 13 times.
5.Ā Synthesis of VHDL code for FPGA design flow using Xilinx PlanAhead tool
2012 – Presented at the International Conference on Education and e-Learning Innovations, cited 12 times.
6.Ā FPGA-based MIMO testbed for LTE applications
2011 – Presented at the Eighth International Conference on Wireless and Optical Communications, cited 10 times.
7.Ā Hybrid beam selection scheme in millimeter-wave beamspace MIMO-NOMA with lens antenna array
2020 – Published in AEU-International Journal of Electronics and Communications, cited 8 times.
8.Ā Ternary codes from modified Jacket matrices
2011 – Published in the Journal of Communications and Networks, cited 8 times.
9.Ā A MIMO LTE precoding based on fast diagonal weighted Jacket matrices
2012 – Published in Fiber and Integrated Optics, cited 6 times.
10.Ā Joint Interference Alignment and Power Allocation for K-User Multicell MIMO Channel through Staggered Antenna Switching
2018 – Published in Sensors, cited 5 times.