Patrick Sole | Information Theory | Lifetime Achievement Award | 4311

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Mr. Patrick Sole | Information Theory | Lifetime Achievement Award

Research Director | Aix-Marseille University | Lifetime Achievement Award

Mr.Patrick Solé is a Senior Researcher at CNRS/I2M, University Aix-Marseille, recognized for his expertise in coding theory, interconnection networks, space-time codes, and cryptography. He received advanced degrees in engineering and a doctoral degree in telecommunications, with a specialization in algebraic coding. Over his distinguished career, he has held prominent visiting positions internationally and has led numerous research projects, demonstrating strong leadership in advancing theoretical and applied aspects of information theory. His research emphasizes innovative use of ring theory in coding, development of quantum and geometric codes, lattice-based space-time codes, and secure cryptographic schemes. Patrick Solé has authored over 240 journal articles, 70 conference papers, and five books, contributing foundational results that have shaped contemporary coding and cryptography. His work has been widely cited and recognized with best paper awards, and he has actively served in editorial and advisory roles within leading journals and scientific societies. He continues to influence the field through high-impact research, mentorship of emerging scholars, and pioneering approaches that open new directions in information theory and secure communications.

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Featured Publications

The Z₄-linearity of Kerdock, Preparata, Goethals, and related codes


– IEEE Transactions on Information Theory, 1994


On the algebraic structure of quasi-cyclic codes. I. Finite fields


– IEEE Transactions on Information Theory, 2001


Type II codes over F₂ + uF₂


– IEEE Transactions on Information Theory, 2002


Pyramidal lattice vector quantization for multiscale image coding


– IEEE Transactions on Image Processing, 1994


Quaternary quadratic residue codes and unimodular lattices


– IEEE Transactions on Information Theory, 2002

Rajen Kumar | Information Theory | Best Researcher Award

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Mr. Rajen Kumar | Information Theory | Best Researcher Award

PhD Research Scholar, Indian Institute of Technology Patna, India

Rajen Kumar, Ph.D., is a dedicated researcher and scholar in the field of Information Theory and Mathematics. Currently pursuing his Ph.D. at IIT Patna, Rajen has demonstrated significant expertise in sequence designing and complex dynamics. His academic journey and research contributions reflect his commitment to advancing knowledge in his field.

Profile

Scopus

Education 🎓

  • Ph.D. in Sequence Designing (Information Theory), IIT Patna (2020 – Present)
  • M.Sc. in Mathematics, IIT Bhubaneswar (2017 – 2019)
    • Thesis: “Fixed points and their multiplier of a Polynomial”

Experience 👨‍🏫

Rajen Kumar has accumulated a wealth of experience through various academic and professional engagements. He has actively participated in multiple workshops and conferences, including those focusing on complex dynamics and 5G technologies. His teaching roles at IIT Patna have further honed his skills in complex analysis and foundational mathematics courses.

Research Interests 🔬

Rajen Kumar’s research interests are centered around sequence designing within the realm of Information Theory, complex dynamics, and polynomial analysis. His work aims to construct efficient and optimal code sets and explore fixed-point theories in mathematics.

Awards 🏆

  • IIT JAM Qualified (2016) – AIR 437
  • CSIR NET-JRF Qualified (2019) – AIR 93

Publications Top Notes 📚

“Construction of type-II ZCCS for the MC-CDMA system with low PMEPR”
Digital Signal Processing, vol. 151, 2024
doi:10.1016/j.dsp.2024.104570
Cited by: Various articles exploring low PMEPR in MC-CDMA systems.

“A direct construction of type-II Z complementary code set with arbitrarily large codes”
Communicated in Cryptography and Communication, 2023
arXiv:2305.01290
Cited by: Upcoming articles on Z complementary code sets.

“A direct construction of asymptotically optimal type-II ZCP for every possible even length”
IEEE Signal Processing Letters, vol. 28, 2021
doi:10.1109/LSP.2021.3105927
Cited by: Research on optimal type-II ZCP constructions.

“The real non-attractive fixed point conjecture and beyond”
Mathematics Newsletter, vol. 31, 2020
Cited by: Papers discussing fixed point theories in mathematical analysis.