Dr Mohsen Moradi | Coding Theory | Best Researcher Award |

Dr Mohsen Moradi | Coding Theory | Best Researcher Award

Northeastern University, United States

Professional Profiles:

SCOPUS

GOOGLE SCHOLAR

ORCID

 👨‍🎓 Bio Summary:

Dr. Mohsen Moradi is a highly accomplished researcher with over a decade of experience in coding theory, quantum error correction, and wireless communications. His expertise extends to machine learning, deep learning, and reinforcement learning, where he has made significant contributions. His research has advanced next-generation communication systems and quantum computing applications, earning him recognition for his innovative work in high-rate channel coding and data compression. Dr. Moradi has a strong academic foundation and has collaborated with leading researchers and institutions around the world.

🎓 Educational Background:

Dr. Moradi holds a Ph.D. in Electrical and Electronics Engineering from Bilkent University, Turkey, where he studied under the guidance of Prof. Erdal Arıkan, a Claude E. Shannon Award winner and father of polar codes. His thesis, “Performance and Computational Analysis of Polarization-Adjusted Convolutional (PAC) Codes”, focused on improving coding techniques for high-speed communications. Prior to this, he earned his M.S. in Coding Theory from Tehran Polytechnic (Amirkabir University of Technology) in Iran, where he worked on constructing polar codes for capacity-achieving communication channels. He has also pursued postdoctoral research at Northeastern University, New Mexico State University, and Bilkent University, focusing on quantum error correction, reinforcement learning-aided decoding, and massive access solutions for next-generation wireless systems.

🔍 Research Focus:

Dr. Moradi’s research centers on designing advanced error-correcting codes (ECC) such as polar codes, PAC codes, LDPC codes, and quantum error correction codes. His work addresses key challenges in wireless communication, machine learning, and cryptography, with a special focus on improving the reliability and efficiency of data transmission. He is particularly interested in the intersection of coding theory with quantum computing, where his research on coding for quantum key distribution has potential applications in secure communication. Additionally, his expertise in reinforcement learning and deep learning provides valuable insights for optimizing decoding algorithms in communication systems.

🏆 Honors & Awards:

Throughout his career, Dr. Moradi has contributed extensively to high-impact research but is yet to be formally recognized with major research awards. However, his work with top-tier institutions and publication in prestigious journals highlights the significance of his contributions to the field of communications and quantum computing. As a respected reviewer, he has conducted over 200 reviews for various journals and conferences, further cementing his role as a key contributor in his research community.

💼 Professional Experience:

Dr. Moradi has held multiple postdoctoral research positions, currently serving as a Postdoctoral Research Associate at Northeastern University. Previously, he conducted postdoctoral research at New Mexico State University and Bilkent University. In these roles, he has worked on projects funded by the NSF and other agencies, focusing on high-rate block coding, quantum error correction, and machine learning applications for decoding algorithms. He has also been involved in teaching various courses such as probability, coding theory, machine learning, and engineering mathematics across several academic institutions, sharing his knowledge with students in both theoretical and applied areas.

📚 Top Noted Publications :

Performance and Complexity of Sequential Decoding of PAC Codes
Authors: M. Moradi, A. Mozammel, K. Qin, E. Arıkan
Citations: 33
Published in: arXiv preprint, arXiv:2012.04990
Year: 2020

On Sequential Decoding Metric Function of Polarization-Adjusted Convolutional (PAC) Codes
Authors: M. Moradi
Citations: 31
Published in: IEEE Transactions on Communications, 69 (12), 7913-7922
Year: 2021

A Monte-Carlo Based Construction of Polarization-Adjusted Convolutional (PAC) Codes
Authors: M. Moradi, A. Mozammel
Citations: 25
Published in: arXiv preprint, arXiv:2106.08118
Year: 2021

Combining and Steganography of 3D Face Textures
Authors: M. Moradi, M. R. Sadeghi
Citations: 10
Published in: Journal of Electrical and Computer Engineering Innovations (JECEI), 5 (2), 93-100
Year: 2017

A Tree Pruning Technique for Decoding Complexity Reduction of Polar Codes and PAC Codes
Authors: M. Moradi, A. Mozammel
Citations: 8
Published in: IEEE Transactions on Communications, 71 (5), 2576-2586
Year: 2023

Conclusion:

Based on his expertise in cutting-edge fields such as quantum error correction, machine learning, and advanced coding theory, combined with his significant publication record and interdisciplinary research, Mohsen Moradi would be a strong candidate for the Best Researcher Award. His technical contributions, particularly in next-generation wireless communication systems and quantum error correction, reflect a deep commitment to pushing the boundaries of current technologies. However, gaining more recognition through leadership roles and awards could further elevate his profile in the research community, making him an even stronger contender for such prestigious accolades.