Rami Ahmad El-Nabulsi | Nanophotonics and Nanoelectronics | NanoPhotonics Pioneer Award

Published on by Global Nano Awards

Prof. Dr. Rami Ahmad El-Nabulsi | Nanophotonics and Nanoelectronics | NanoPhotonics Pioneer Award

Professor | Czech Education and Scientific Network(CESNET) | Czech Republic

Prof. Dr. Rami Ahmad El-Nabulsi is a highly prolific theoretical scientist with a distinguished global research profile reflected by 6,964 citations, 386 scholarly documents, an h-index of 43, and an i10-index of 201. His research contributions span theoretical and mathematical physics, applied mathematics, and interdisciplinary modeling, with a strong emphasis on nonlocal, fractional, and fractal frameworks. He has authored several hundred peer-reviewed journal articles published in high-impact international journals, addressing complex problems in quantum dynamics, nonlinear systems, fractal and fractional calculus, quantum field theory, condensed matter physics, superconductivity, plasma and nuclear physics, fluid dynamics, astrophysics, and space science. His work is widely recognized for introducing innovative mathematical operators, generalized Lagrangian and Hamiltonian formalisms, and fractal-based models that advance understanding of classical and quantum phenomena across multiple length scales. Prof. Dr. Rami Ahmad El-Nabulsi has also made notable contributions to applied domains including energy systems, nanomaterials, biophysics, biomedical heat transfer, geophysics, and ocean and atmospheric dynamics. In addition to extensive journal publications, his scholarly output includes books, conference proceedings, and invited research papers. He is internationally acknowledged for research excellence through prestigious awards and recognitions, serves as an editor and editorial board member for numerous reputed journals, acts as a reviewer for a very large number of international journals, and frequently contributes as a conference chair, keynote speaker, and scientific committee member, underscoring his sustained impact, innovation, and leadership in global research.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles | Loop

Featured Publications

1. El-Nabulsi, R. A., & Torres, D. F. M. (2008). Fractional action-like variational problems. Journal of Mathematical Physics, 49(5), 053521.

2. El-Nabulsi, R. A. (2005). A fractional approach to non-conservative Lagrangian dynamical systems. FIZIKA A, 14(4), 289–298.

3. El-Nabulsi, R. A., & Torres, D. F. M. (2007). Necessary optimality conditions for fractional action-like integrals of variational calculus with Riemann–Liouville derivatives of order (α, β). Mathematical Methods in the Applied Sciences, 30(15), 1931–1939.

4. El-Nabulsi, R. A. (2005). A fractional action-like variational approach of some classical, quantum and geometrical dynamics. International Journal of Applied Mathematics, 17, 299–317.

5. El-Nabulsi, R. A. (2013). Non-linear dynamics with non-standard Lagrangians. Qualitative Theory of Dynamical Systems, 12(2), 273–291.

Assem Thabet | Nanosensors and Actuators | Best Scholar Award

Published on by Global Nano Awards

Prof. Dr. Assem Thabet | Nanosensors and Actuators | Best Scholar Award

Director of Studies, Research Lab MACS, University of Gabes, Tunisia

Prof. Dr. Assem Thabet is a distinguished researcher in Electrical Engineering, with a focus on Automatic Control, Industrial Computing, and Cyber–Physical Systems. His research bridges advanced control theory, system modeling, artificial intelligence, and renewable energy integration. A key area of his expertise lies in state estimation, nonlinear dynamic system control, and reciprocal state representation, where he has made notable theoretical and applied contributions. His recent book, The Reciprocal State Representation: Some Elements for the Control of Nonlinear Dynamic Systems (ISTE Group Editions, 2025), encapsulates innovative methodologies for enhancing system controllability and observer design in nonlinear environments. Prof. Dr. Assem Thabet’s research activities span multiple international collaborations across Tunisia, France, Canada, India, Italy, Algeria, and Spain, contributing to projects on AI-driven resource management, hybrid renewable energy systems, bio-inspired robotics, and smart grid optimization. His work often integrates machine learning with estimation and control theory, applying hybrid computational models to achieve system resilience under uncertain and cyber-threatened environments. With over 50 scientific publications, including 15+ papers in indexed international journals, 15+ international conference papers, and several book chapters, his scholarly influence is well-established. His studies on observer-based control, event-triggered mechanisms, and cyber-attack detection in industrial and power systems reflect his ongoing pursuit of intelligent and secure automation. Prof. Dr. Assem Thabet’s research output has garnered 125 citations across 32 documents, with an h-index of 7, reflecting the growing recognition of his scientific impact. His most recent works—such as Cyber-Attack Detection Strategy with Markovian Distribution Logic in Cyber-Physical Systems and Event-Triggered Observer-Based Control for Enhancing Resilience under Markovian Cyberattacks-demonstrate a deep engagement with contemporary challenges in resilient control and cyber-physical system security. Through his integrative and interdisciplinary approach, Prof. Dr. Assem Thabet continues to advance the frontier of intelligent control systems and sustainable automation technologies.

Profile: Scopus | ORCID | ResearchGate | Sci Profiles | IEEE Xplore | Academia | Web of Science

Featured Publications

  1. Thabet, A., Hassine, E., Gasmi, N., & Bel Haj Frej, G. (2025). Design and real-time application of explicit model-following techniques for nonlinear systems in reciprocal state space. Electronics, 14(20), 4089.

  2. Hassine, E., Thabet, A., Gasmi, N., & Bel Haj Frej, G. (2025). An event-triggered observer-based control approach for enhancing resilience of cyber–physical systems under Markovian cyberattacks. Actuators, 14(8), 412.

  3. Thabet, A., Bel Haj Frej, G., Gasmi, N., Mansouri, K., & Chauveau, E. (2022). State and output feedback control for Lipschitz nonlinear systems in reciprocal state space: Synthesis and real-time validation. Bulletin of Electrical Engineering and Informatics, 11(5), 2702–2712.

  4. Gasmi, N., Boutayeb, M., Thabet, A., Bel Haj Frej, G., & Aoun, M. (2021). Robust control of a class of nonlinear discrete-time systems: Design and experimental results on a real-time emulator. Actuators, 10(11), 303.

  5. Hassine, E., Thabet, A., Gasmi, N., Bel Haj Frej, G., & Metoui, B. (2023). Cyber-attack tolerant control of complex interconnected systems: Output feedback stabilization approach. In Proceedings of the 2023 IEEE International Workshop on Mechatronics Systems Supervision (IW_MSS 2023) (pp. 1–5). IEEE.