Prof. Ahmed Aberqi 🎓, a distinguished scholar at the National School of Applied Sciences of Fez, Morocco, specializes in nonlinear analysis, partial differential equations, optimal control, and fractional calculus. With a Ph.D. and habilitation in mathematics, his extensive academic portfolio includes impactful research publications 📚, guest editorships for renowned journals 📰, and leadership roles in applied sciences and emerging technologies 💡. As an educator, he has taught across diverse engineering and mathematics disciplines, nurturing future innovators 🧠. His contributions to AI and big data applications in smart systems underscore his commitment to interdisciplinary innovation 🤖📊. With expertise in high-dimensional statistics, operator theory, and control systems, Prof. Aberqi exemplifies excellence in mathematical research and applied science integration 🌐🔬.
Professional Profile
Education 🎓
Prof. Ahmed Aberqi holds a Ph.D. in Mathematics and a Habilitation à Diriger des Recherches (HDR), affirming his high-level academic competence in guiding doctoral research. He completed his studies at prestigious institutions, where he built a strong foundation in nonlinear analysis, partial differential equations, and control theory. His education reflects a blend of rigorous training, deep theoretical knowledge, and applied mathematical insight. He consistently pursues academic growth through workshops, seminars, and international collaborations 📖🌍. His academic journey has been shaped by a commitment to excellence and an enduring passion for learning. These qualifications position him as a respected educator and researcher in both engineering and mathematics domains 🧠📐.
Professional Experience 💼
Prof. Ahmed Aberqi serves as a professor at the National School of Applied Sciences, Fez (Morocco), where he has taught numerous undergraduate and postgraduate courses in engineering mathematics, systems theory, and optimization 🏫📊. With a robust background in academic leadership, he has contributed to curriculum development and research supervision. He has also held editorial roles in scientific journals, coordinated multidisciplinary research projects, and participated in international conferences 🌐✍️. His extensive experience extends to mentoring doctoral students and collaborating with institutions worldwide. Prof. Aberqi’s professional path is marked by intellectual rigor, impactful contributions, and a forward-looking vision of integrating mathematics with real-world challenges 🔬🤝.
Research Interest 🔍
Prof. Aberqi’s research spans nonlinear analysis, optimal control, partial differential equations, and fractional calculus 🔢📉. His recent work explores artificial intelligence, big data analytics, and smart systems, revealing a strong inclination towards interdisciplinary applications of mathematics 🤖📊. He is particularly interested in dynamic systems governed by fractional operators, mathematical modeling, and stability analysis. His studies in high-dimensional statistics and operator theory have practical implications in modern engineering and technological advancements. He actively contributes to solving real-world problems using advanced mathematical tools, making his research relevant to today’s rapidly evolving scientific landscape 🌐📈. Through his work, he bridges theoretical mathematics with practical innovations.
Awards and Honors 🏅
Prof. Ahmed Aberqi has received multiple accolades in recognition of his academic and research achievements. His distinguished contributions to applied mathematics and control theory have earned him invitations to serve as a keynote speaker and guest editor in renowned international journals and conferences 🎤📘. He is honored for his interdisciplinary research, especially for integrating AI and smart technology into mathematical frameworks. His excellence in mentorship and scholarly publishing further solidifies his reputation as a thought leader in applied sciences 🧠🌟. These honors underscore his enduring influence in the global academic community and his commitment to mathematical advancement and innovation.
Research Skills 🧪
Prof. Aberqi exhibits outstanding proficiency in mathematical modeling, fractional differential equations, stability theory, and optimal control 🧮🔁. His technical toolkit includes numerical simulations, system identification, AI-based optimization algorithms, and data-driven problem solving 🤖📊. He is skilled in using computational platforms to test theoretical outcomes and extend mathematical theories to practical systems. His ability to lead collaborative research, write scholarly articles, and edit scientific content for high-impact journals highlights his organizational and analytical skills. His cross-disciplinary fluency empowers him to integrate advanced mathematics into engineering, physics, and data science domains seamlessly ⚙️📐. His research skills reflect depth, versatility, and innovation.
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Title: Blow-up and global existence for a new class of parabolic p(x,⋅)-Kirchhoff equation involving double phase operator
Authors: A. Aberqi, P.D. Nguyen, A. Ouaziz, M.A. Ragusa
Year: 2025
Citations: 3
Source: Journal of Mathematical Analysis and Applications, Vol. 542(2), Article 128807
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Title: Infinitely many solutions to a Kirchhoff-type equation involving logarithmic nonlinearity via Morse’s theory
Authors: A. Ouaziz, A. Aberqi
Year: 2024
Citations: 3
Source: Boletín de la Sociedad Matemática Mexicana, Vol. 30(1), Article 10
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Title: Existence and L∞-estimates for non-uniformly elliptic equations with non-polynomial growths
Authors: O. Benslimane, A. Aberqi, M. Elmassoudi
Year: 2023
Citations: 3
Source: Filomat, Vol. 37(16), pp. 5509–5522
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Title: Existence results for some nonlinear degenerate problems in the anisotropic spaces
Authors: M. Boukhrij, B. Aharrouch, J. Bennouna, A. Aberqi
Year: 2021
Citations: 3
Source: Boletim da Sociedade Paranaense de Matemática, Vol. 39, pp. 53–66
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Title: Non-uniformly degenerated parabolic equations with L1-data
Authors: A. Aberqi, J. Bennouna, M. Hammoumi
Year: 2019
Citations: 3
Source: AIP Conference Proceedings, Vol. 2074(1)
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Title: On some nonlinear hyperbolic p(x,t)-Laplacian equations
Authors: T. Ahmedatt, A. Aberqi, A. Touzani, C. Yazough
Year: 2018
Citations: 3
Source: Journal of Applied Analysis, Vol. 24(1), pp. 55–69
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Title: Nonlinear elliptic equations with measure data in Orlicz spaces
Authors: A. Aberqi, J. Bennouna, M. Elmassoudi
Citations: 3
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Title: Singular fractional double-phase problems with variable exponent via Morse’s theory
Authors: A. Ouaziz, A. Aberqi
Year: 2024
Citations: 2
Source: Filomat, Vol. 38(21), pp. 7579–7595
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Title: On some doubly nonlinear system in inhomogeneous Orlicz spaces
Authors: A. Aberqi, J. Bennouna, M. Elmassoudi
Year: 2018
Citations: 2
Source: Electronic Journal of Mathematical Analysis and Applications, Vol. 6(1), pp. 156–173
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Title: Infinitely Many Solutions to the Neumann Problem for Elliptic systems in Anisotropic Variable Exponent Sobolev Spaces
Authors: A. Ahmed, M.S.B.E. Vall, A. Touzani, A. Benkirane
Year: 2017
Citations: 2
Source: Marrocain Journal of Pure and Applied Analysis, Vol. 3, pp. 70–82
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Title: Existence result for a class of doubly nonlinear parabolic systems
Authors: A. Aberqi, J. Bennouna, H. Redwane
Year: 2014
Citations: 2
Source: Applied Mathematics (Warsaw), pp. 1–11
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Title: Approximate controllability of fractional differential systems with nonlocal conditions of order q∈(1, 2) in Banach spaces
Authors: Z. Ech-chaffani, A. Aberqi, T. Karite
Year: 2024
Citations: 1
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Title: Singular fractional double-phase problems with variable exponent via Morse’s theory
Authors: A. Aberqi, A. Ouaziz
Year: 2023
Citations: 1
Source: arXiv
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Title: Stabilization of semilinear systems in Banach space
Authors: A. El Alami, Z. Echchaffani, A. Aberqi
Year: 2023
Citations: 1
Source: Honored Guests, p. 81
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Title: Discrete solution for a nonlinear parabolic equation with diffusion terms in Musielak spaces
Authors: A. Aberqi, M. Elmassoudi, M. Hammoumi
Year: 2021
Citations: 1
Source: arXiv
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Title: Sub-supersolution method for nonlinear elliptic equations with non-coercivity in divergent form in Orlicz spaces
Authors: A. Ahmed, B. Jaouad, E. Mhamed
Year: 2019
Citations: 1
Source: AIP Conference Proceedings, Vol. 2074(1)
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Title: Controllability for impulsive neutral semilinear evolution systems with nonlocal conditions
Authors: A. Aberqi, Z. Ech-chaffani, T. Karite
Year: 2025
Source: Journal of Dynamics and Games
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Title: Blow-up and global existence of solutions for a new class of parabolic Kirchhoff equation involving nonlinearity logarithmic
Authors: A. Aberqi, A. Ouaziz
Year: 2025
Source: Journal of Pseudo-Differential Operators and Applications, Vol. 16(1), pp. 1–33
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Title: Investigation into double-phase elliptic problems with boundary conditions, incorporating a logarithmic convection term
Authors: A. El Ouardani, A. Aberqi, O. Benslimane, M. El Massoudi
Year: 2025
Source: Journal of Pseudo-Differential Operators and Applications, Vol. 16(1), pp. 1–21
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Title: On Neumann Systems with Singularity Applied in Quenching Phenomena in Musielak Spaces
Authors: A. Elouardani, A. Aberqi, M. Elmassoudi
Year: 2025
Source: Nonlinear Dynamics & Systems Theory, Vol. 25(1)
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Title: Double Phases Problems: Insight and new trends
Authors: A. Aberqi
Year: 2024
Source: 5th International Conference on Applied Mathematics, p. 112
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Title: Approximate Controllability of Fractional Differential Systems with Nonlocal Conditions of Order
Authors: A. Aberqi, Z. Ech-chaffani, T. Karite
Year: 2024
Source: arXiv (arXiv:2411.10766)
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Title: Fractional Caputo Operator and Takagi–Sugeno Fuzzy Modeling to Diabetes Analysis
Authors: E. Mustapha, E.O. Abdellatif, E.M. Karim, A. Ahmed
Year: 2024
Source: Symmetry, Vol. 16(10), Article 1395
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Title: Double Phase Problem with Singularity and Homogeneous Choquard Type Term
Authors: O. Benslimane, A. Aberqi, M. Elmassoudi
Year: 2024
Source: Journal of Applied Analysis & Computation, Vol. 14(4), pp. 2109–2124
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Title: Approximate controllability of fractional differential systems with nonlocal conditions of order q∈(1, 2) in Banach spaces
Authors: Z. Ech‐chaffani, A. Aberqi, T. Karite
Year: 2024
Source: Asian Journal of Control
Prof. Ahmed Aberqi stands as a visionary academic whose multifaceted expertise in mathematics, engineering, and technology drives impactful innovation 🌟📚. His scholarly contributions, teaching excellence, and research leadership collectively elevate the field of applied mathematics. From fractional calculus to AI integration, his work reflects a deep commitment to solving modern challenges through mathematical insight 🔬🤝. With a strong international presence, numerous publications, and mentorship roles, he continues to shape the next generation of scientists and engineers. Prof. Aberqi exemplifies academic rigor, collaborative spirit, and intellectual curiosity, making him a key contributor to contemporary mathematical science and interdisciplinary progress 🌐🎓.