Janusz Kacprzyk | cryptography | Best Researcher Award

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Prof. Janusz Kacprzyk | cryptography | Best Researcher Award

Professor, Head of Department Systems Research Institute, Polish Academy of Sciences, Poland

Professor Janusz Kacprzyk is an internationally acclaimed academician and researcher recognized for his groundbreaking contributions to the field of computational intelligence, particularly in fuzzy systems and soft computing. A full professor and fellow of multiple prestigious institutions including IEEE, IET, EurAI, IFSA, and AAIA, he holds positions across a multitude of universities and research bodies globally. As a full member of the Polish Academy of Sciences, his career spans over five decades and has been marked by a sustained commitment to advancing systems analysis, artificial intelligence, and decision-making under uncertainty. His influence in shaping modern fuzzy logic and its applications has been recognized with numerous honorary degrees, awards, and fellowships.

Profile

Orcid

Education

Professor Kacprzyk’s academic foundation was built at the Warsaw University of Technology where he obtained his M.S. in computer science and automatic control in 1970. He further earned his Ph.D. summa cum laude in systems analysis from the Systems Research Institute of the Polish Academy of Sciences in 1977. He achieved his habilitation (D.Sc.) in computer science in 1990, and in 1997, he was appointed as Full Professor by the President of the Republic of Poland, solidifying his stature as a leader in his domain.

Experience

Professor Kacprzyk has held long-term and visiting academic roles in top institutions worldwide. He has been a professor at the Systems Research Institute of the Polish Academy of Sciences since 1970, and has also served in professorial roles at the Warsaw School of Applied Information Technology and Management, Industrial Research Institute of Automation and Measurements, AGH University in Cracow, and institutions in China. Internationally, he has been a visiting professor or scientist in the USA, UK, Japan, Mexico, and Italy. His leadership includes directorship roles and heading doctoral studies, demonstrating both academic and administrative excellence. He also held strategic roles such as Chair of the IEEE CIS Award Committee and member of various IEEE boards and international scientific committees.

Research Interests

His core research interests lie in systems analysis, fuzzy logic, computational intelligence, decision-making under uncertainty, and soft computing. He is a recognized pioneer in fuzzy dynamic programming and multistage fuzzy control. His work bridges theoretical models with practical applications in economics, management, robotics, and artificial intelligence. Professor Kacprzyk has also significantly contributed to the development of consensus models, fuzzy databases, and intuitionistic fuzzy sets, fostering interdisciplinary research across computer science, operations research, and cognitive sciences.

Awards

Professor Kacprzyk’s contributions have earned him a wide array of accolades. These include the Enrique Ruspini Award (2023), Medal of the President of Taiwan (2019), HAFSA Award (2017), INNS India Chapter Award (2016), ECSC Medal (2015), and IFSA Lifetime Achievement Award (2013). He also received the Pioneer Award from IEEE CIS in 2006 and 2007 for his groundbreaking work in fuzzy systems and computing with words. Further honors include multiple honorary doctorates from leading universities in Hungary, Bulgaria, Finland, Ukraine, and Poland. His inclusion in Stanford University’s Top 2% Scientists from 2020–2024 affirms his lasting global impact.

Publications

Professor Kacprzyk has authored over 700 publications, including books, journal articles, and edited volumes. Some of his notable publications include:

  • Multistage Decision Making under Fuzziness, Verlag TÜV Rheinland, 1983.

  • Fuzzy Sets in Systems Analysis, PWN, 1986.

  • Multistage Fuzzy Control, Wiley, 1997.

  • Flows in Networks Under Fuzzy Conditions, Springer, 2017.

  • Fuzzy Transportation and Transshipment Problems, Springer, 2020.

  • Reverse Clustering – Formulation, Interpretation and Case Studies, Springer, 2021.

  • Granular, Fuzzy, and Soft Computing, Springer, 2023.
    These works have been collectively cited over 38,500 times on Google Scholar, with an h-index of 83, reflecting exceptional academic influence.

Conclusion

Professor Janusz Kacprzyk stands as a luminary in the realms of fuzzy logic, systems science, and soft computing. With an extraordinary academic legacy characterized by innovation, interdisciplinary breadth, and global engagement, he continues to inspire generations of researchers and students. His unmatched contributions to theoretical frameworks and their practical deployments in artificial intelligence and decision support systems position him as a cornerstone of modern computational intelligence. Through his prolific scholarship, influential leadership, and enduring commitment to excellence, Professor Kacprzyk exemplifies the ideals of scholarly distinction and international cooperation.

Mojtaba Noorallahzadeh | Computer Science | Best Researcher Award

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Dr. Mojtaba Noorallahzadeh | Computer Science | Best Researcher Award

Quantum Computing | Islamic Azad Uinversity | Iran

Mojtaba Noorallahzadeh is a PhD candidate in Computer Engineering specializing in Computer Architecture at the Islamic Azad University, Dezful, Iran. Renowned for his contributions to quantum computing and reversible logic design, he has authored multiple high-impact publications and serves as a reviewer and technical committee member for prestigious journals and conferences. With a strong academic and professional background, his research interests span quantum circuits, nano-electronics, FPGA, and ASIC design.

Profile

Scopus

Education

Mojtaba earned his Bachelor’s degree in Computer Engineering with a focus on software from the University of Applied Science, Iran, in 2013. His thesis explored FPGA placement and routing algorithms. In 2018, he completed his Master’s degree at Islamic Azad University, Dezful, excelling in designing reversible memories for quantum systems. His PhD research, initiated in 2024, centers on reversible quantum circuits, further consolidating his expertise in the domain.

Experience

Mojtaba has served as an instructor at Islamic Azad University, teaching courses like Operating Systems, Data Structures, and Digital Systems Design. His professional engagements include membership in technical committees and collaboration with international conferences like ICICE and ICSC. He is also associated with prominent organizations such as Kadir Has University, Turkey, and the Materials and Energy Research Centre, Iran.

Research Interests

Mojtaba’s research interests encompass quantum computing, reversible logic, and quantum dot-cellular automata (QCA). He has also contributed to fields like nano-electronics, computer architecture, FPGA, and ASIC design. His innovative work addresses challenges in energy-efficient and low-cost quantum circuit designs, targeting applications in IoT and nano-scale computing systems.

Awards

Mojtaba has been recognized for his academic excellence, including securing the first position among MSc graduates in 2018 with a score of 18.96/20. His research contributions have also been acknowledged with scholarships and invitations to participate in high-profile conferences and committees.

Publications

  1. 2024 – Ahmadpour, S.S., Noorallahzadeh, M., et al. A new energy-efficient design for quantum-based multiplier for nano-scale devices in IoT. Computers and Electrical Engineering.
  2. 2023 – Noorallahzadeh, M., Mosleh, K., et al. A new design of parity-preserving reversible multipliers based on Toffoli synthesis. Frontiers of Computer Science.
  3. 2023 – Noorallahzadeh, M., et al. A novel design of reversible quantum multiplier for quantum circuits. Quantum Information Processing.
  4. 2021 – Noorallahzadeh, M., et al. Efficient designs of reversible synchronous counters in nano-scale. Circuits, Systems, and Signal Processing.
  5. 2021 – Noorallahzadeh, M., et al. Efficient designs of reversible shift register circuits. Journal of Circuits, Systems, and Computers.
  6. 2020 – Noorallahzadeh, M., et al. Parity-preserving reversible flip-flops with low quantum cost. Journal of Supercomputing.
  7. 2019 – Noorallahzadeh, M., et al. Efficient designs of reversible latches with low quantum cost. IET Circuits, Devices & Systems.

These publications have been cited widely, contributing to an h-index of 7 and an i-10 index of 4.

Conclusion

Mojtaba Noorallahzadeh exemplifies academic excellence and innovation in quantum computing and related fields. His dedication to advancing research through teaching, publications, and collaborations positions him as a leading scholar in his domain.