Ikram Ullah | Fractional Calculus | Young Scientist Award

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Dr. Ikram Ullah | Fractional Calculus | Young Scientist Award

Assistant professor at Central South University, China

Dr. Ikram Ullah is a dedicated researcher specializing in Applied Mathematics, particularly in Fractional Calculus. He earned his Ph.D. from Central South University, China, focusing on solitary wave phenomena in nonlinear fractional partial differential equations. With a strong academic background, including an M.Phil. and M.Sc. in Mathematics from Pakistan, he has held positions such as Assistant Researcher and Lecturer. Dr. Ullah has published extensively, contributing over 11 SCI-indexed papers and amassing more than 150 citations. His research emphasizes soliton dynamics and exact solutions of fractional differential equations. Recognized for his excellence, he has received several awards, including the Outstanding International Graduate Award and Best International Student Awards at Central South University. Skilled in LaTeX, Maple, and scientific writing, Dr. Ullah continues to make significant strides in mathematical sciences, supported by esteemed references from international academia. His global academic achievements and research outputs make him a promising young scientist.

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🎓 Education

Dr. Ikram Ullah possesses a solid academic foundation in mathematics, with a specialization in fractional calculus. He earned his Ph.D. in Applied Mathematics from the School of Mathematics and Statistics at Central South University, China, in 2025. His doctoral research focused on solitary wave phenomena in nonlinear fractional partial differential equations. Prior to this, he completed his M.Phil. in Mathematics at Qurtuba University of Science and Technology in 2021, presenting a thesis on collapsing models in f(R) gravitational theory. He began his formal mathematical training with an M.Sc. in Mathematics from the University of Malakand in 2018. Dr. Ullah’s academic journey reflects a consistent passion for mathematical rigor and its advanced applications. His progression through reputable institutions demonstrates both intellectual commitment and strategic focus on high-impact areas of applied mathematics. 📚✨

Professional Experience

Dr. Ikram Ullah brings a rich blend of academic and research experience to the field of mathematics. He is currently serving as an Assistant Researcher at Central South University, China (since October 2024), where he actively contributes to research in fractional differential equations and soliton dynamics. His earlier roles include Lecturer on Internship at the University of Malakand (2019–2020), Visiting Lecturer at Government Post Graduate College Dargai (2017–2018), and Lecturer on Internship at Qurtuba University (2016–2017). These roles honed his teaching and mentoring skills, preparing him for advanced research responsibilities. Dr. Ullah’s professional path underscores his evolution from a committed educator to a dynamic researcher in applied mathematics. His exposure to various academic environments has broadened his perspective, enabling him to engage with global scientific problems effectively. 🧠📈

🔬 Research Interest

Dr. Ikram Ullah’s research interests lie at the intersection of fractional calculus, soliton theory, and nonlinear partial differential equations. He is deeply engaged in modeling wave phenomena using modern mathematical frameworks, particularly in the context of space-time fractional equations. His work explores exact solutions, stability, and the dynamics of traveling waves in complex systems. He has contributed to key mathematical areas such as the fractional Heisenberg ferromagnetic spin chain equation, Phi-4 models, and Kolmogorov–Petrovskii–Piskunov-type equations. His approach combines analytical techniques with symbolic computation tools like Maple and LaTeX, ensuring precision and efficiency. Dr. Ullah’s contributions are not only theoretical but also applicable in mathematical physics, engineering, and complex system modeling, bridging the gap between abstract mathematics and real-world applications. 🔎📊

🏅 Awards and Honors

Dr. Ikram Ullah has received numerous accolades in recognition of his academic excellence and research potential. He was awarded the Chinese Government Scholarship in 2021, marking the beginning of his international academic journey. He was also named Best International Student at Central South University for two consecutive years (2022 and 2023), reflecting his consistent performance and impact. In 2024, he was honored as the Outstanding International Graduate, a testament to his scholarly achievements and leadership in research. These honors underscore his dedication, innovation, and international academic presence. Dr. Ullah’s awards highlight not only his capabilities as a researcher but also his role as an ambassador for cross-cultural scientific collaboration. 🏆🌍

Conclusion

Dr. Ikram Ullah exemplifies the qualities of a rising mathematical scientist—deeply knowledgeable, globally trained, and passionately committed to research excellence. His strong educational background, progressive academic career, specialized research in applied mathematics, and a portfolio of impactful publications position him as an ideal candidate for young scientist recognitions. With over 150 citations and collaborations across continents, Dr. Ullah continues to make strides in solving complex mathematical problems relevant to science and technology. His trajectory reflects a balance of innovation, diligence, and a vision for interdisciplinary integration. As he moves forward, Dr. Ullah is poised to become a leading figure in mathematical modeling and fractional calculus research. 🚀

Publications Top Notes

📘 Application of modified extended direct algebraic method to nonlinear fractional diffusion reaction equation with cubic nonlinearity

  • Authors: Muhammad Bilal, Alamgir Khan, Ikram Ullah, Jehad O. Alzabut, Hisham Mohammad Alkhawar

  • Year: 2025

  • Source: Boundary Value Problems ✍️📐
    A powerful algebraic method applied to nonlinear fractional systems.

⚡ The effect of A-site strontium substitution on the energy storage properties of ferroelectric BaZr₀.₂Ti₀.₈O₃ system

  • Authors: Sajjad A. Ali, Salar Ahmad, Javeria Farooq, Ikram Ullah, Mohammad Mahtab Alam

  • Year: 2025

  • Source: Ceramics International 🔋🔬
    Exploring energy storage materials through elemental substitution.

🌊 Numerical study of Jeffrey fluid Jeffery-Hamel flow through interacting channels embedded in porous medium

  • Authors: Muhammad Hemayat, Ikram Ullah, Saira Shukat, Marouan Boubaker Kouki, Hamid Khan

  • Year: 2025

  • Source: Multiscale and Multidisciplinary Modeling, Experiments and Design 🧪🌐
    Advanced fluid dynamics simulation in porous environments.

🔦 Study of nonlinear wave equation of optical field for solitonic type results

  • Authors: Ikram Ullah, Muhammad Bilal, Dawood Shah, Jehad O. Alzabut, Hisham Mohammad Alkhawar

  • Year: 2025

  • Source: Partial Differential Equations in Applied Mathematics 📉🔮
    Analytical wave solutions for optical field phenomena.

🌪️ Lorentz force and Brownian motion features on entropy optimization in nanofluid swirling flow through porous configuration

  • Authors: Shabir Ahmad, Ikram Ullah, Saira Shukat, Murtaza Ali

  • Year: 2025

  • Source: Multiscale and Multidisciplinary Modeling, Experiments and Design 🧲💧
    Nanofluid flow dynamics under electromagnetic influences.

☀️ Thermodynamics and solar radiative analysis in Jeffery-Hamel flow through non-parallel channel by novel improved residual power series method

  • Authors: Mohamed Bouzidi, Mohsin Ul Haq, Ikram Ullah, Hamid Khan, Marouan Boubaker Kouki

  • Year: 2025

  • Citations: 1

  • Source: Case Studies in Thermal Engineering 🌡️🔆
    Solar-driven thermodynamic flow modeling using series methods.

🔥 A numerical approach to interpret melting and activation energy phenomenon on the magnetized transient flow of Prandtl–Eyring fluid with the application of Cattaneo–Christov theory

  • Authors: Zakir Ullah, Ikram Ullah, Gul Zaman, Tianchuan Sun

  • Year: 2025

  • Citations: 22

  • Source: Waves in Random and Complex Media 💥🧊
    Transient heat and flow behaviors in non-Newtonian fluids.

💫 Numerical investigation of thin-film flow over a rotating disk subject to the heat source and nonlinear radiation: Lobatto IIIA approach

  • Authors: Tianchuan Sun, Iftikhar Uddin, Muhammad Asif Zahoor Raja, Wasim Jamshed, Saeed Islam

  • Year: 2025

  • Citations: 11

  • Source: Waves in Random and Complex Media 🔄🔥
    Thin-film flow modeling using numerical integration techniques.

🧲 Activation energy with exothermic/endothermic reaction and Coriolis force effects on magnetized nanomaterials flow through Darcy–Forchheimer porous space with variable features

  • Author: Ikram Ullah

  • Year: 2025

  • Citations: 43

  • Source: Waves in Random and Complex Media 🌪️🧪
    Comprehensive magneto-fluid modeling in variable-porosity environments.

🧮 An innovative method for solving the nonlinear fractional diffusion reaction equation with quadratic nonlinearity analysis

  • Authors: Alamgir Khan, Ikram Ullah, Javed Iqbal, Kamal Shah, Muhammad Bilal

  • Year: 2025

  • Citations: 1

  • Source: Physica Scripta ✏️🧠
    New approaches to nonlinear fractional differential systems.

 

Shunli Wang | Mathematical Modeling | Lifetime Achievement Award

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Prof. Dr. Shunli Wang | Mathematical Modeling | Lifetime Achievement Award

Academic Dean at Inner Mongolia University of Technology, China

Professor Dr. Shunli Wang is an internationally esteemed leader in New Energy and Energy Storage Systems 🔋, serving as Executive Vice President of the Smart Energy Storage Research Institute and Academic Dean at Inner Mongolia University of Technology 🎓. A Fellow of the Institution of Engineering and Technology (IET) and an academician of the Russian Academy of Natural Sciences 🌍, he ranks among the world’s top 2% scientists according to Stanford University 📊. Dr. Wang has authored over 258 SCI-indexed papers 📚, secured 63 patents and standards ⚙️, and directed 56 significant national and international research projects 🧪. His pioneering work in battery modeling, fault diagnosis, and intelligent control has shaped the future of smart grid applications and energy storage technologies 🚀. Renowned for bridging academia and industry, he has led transformative collaborations and cultivated top-tier talent 👨‍🏫. Dr. Wang’s contributions are driving global progress toward sustainable, intelligent energy solutions 🌱🌐.

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Education 🎓📘

Professor Dr. Shunli Wang laid a strong academic foundation with a Ph.D. in Control Theory and Control Engineering from Northeastern University, China, where he honed his expertise in systems modeling and intelligent energy control. His early education was marked by academic excellence, leading to prestigious scholarships and research opportunities 🌟. Dr. Wang’s academic journey included postdoctoral research and collaborative projects with globally renowned institutions, further enriching his interdisciplinary knowledge base 🧠. His education not only equipped him with advanced technical skills but also ignited his passion for sustainable energy systems and automation ⚙️. With a commitment to lifelong learning, he continues to evolve through global academic exchanges and cutting-edge workshops, fostering innovative solutions in new energy technologies 🔬. Dr. Wang’s educational pathway is a model of intellectual rigor, strategic focus, and forward-thinking vision, laying the groundwork for his profound contributions to academia and industry alike 🌐.

Professional Experience 🏢🧑‍🏫

Dr. Shunli Wang brings over two decades of impactful leadership in academia and industry. Currently, he is the Executive Vice President of the Smart Energy Storage Research Institute and Academic Dean at the Inner Mongolia University of Technology 🏫. Previously, he held pivotal roles in major research institutions and high-tech enterprises, leading teams on energy storage, intelligent control, and fault diagnosis projects 🔋. His career highlights include directing 56 national and international research projects and mentoring hundreds of graduate students 👨‍🎓👩‍🎓. As a respected academician of the Russian Academy of Natural Sciences and IET Fellow 🌍, Dr. Wang bridges the gap between theoretical innovation and real-world application. He actively consults on policy and industrial strategy for smart grids and battery management systems ⚡. His professional journey exemplifies versatility, vision, and dedication, placing him at the forefront of global advancements in energy and automation technologies 🚀.

Research Interests 🔬⚡

Professor Dr. Shunli Wang’s research spans cutting-edge domains in new energy systems and advanced control engineering. His primary focus lies in battery modeling, intelligent energy storage systems, smart grid applications, fault diagnosis, and predictive control technologies 🔋🧠. He has developed innovative algorithms for real-time system optimization, helping to improve the reliability, safety, and efficiency of large-scale energy infrastructures 🌐. Dr. Wang’s work often integrates artificial intelligence, machine learning, and digital twin technologies, creating adaptive and intelligent control systems that meet the demands of future energy needs 🤖📡. With over 258 SCI-indexed publications and dozens of patents, his research has significantly influenced policy, industry standards, and academic curricula. Passionate about bridging fundamental science and applied technology, he continuously fosters interdisciplinary collaborations that advance energy sustainability, automation, and environmental resilience 🌱. His research is a powerful catalyst for a cleaner, smarter, and more connected energy future 💡.

Awards and Honors 🏅🎖

Dr. Shunli Wang’s outstanding contributions have earned him numerous prestigious awards and honors worldwide. He is ranked among the top 2% of global scientists by Stanford University, recognizing his influential research output and academic impact 📈. As a Fellow of the Institution of Engineering and Technology (IET) and a member of the Russian Academy of Natural Sciences, his work is celebrated for its global reach and transformative outcomes 🌍. Dr. Wang has received multiple national science and technology awards, innovation prizes, and academic leadership honors 🏆. His patents and publications have been widely cited, further solidifying his status as a thought leader in smart energy and control systems ⚙️📘. He is frequently invited to serve on editorial boards, keynote panels, and international think tanks, reinforcing his role as a visionary in sustainable innovation. These accolades underscore not only his academic excellence but also his enduring commitment to technological progress and societal betterment 🌐✨.

Conclusion 🌟📌

Professor Dr. Shunli Wang stands as a beacon of excellence in the realm of intelligent energy systems, blending deep academic insight with practical innovation. His multifaceted contributions—from education and groundbreaking research to international collaborations and mentorship—have profoundly shaped the global energy landscape 🔋🌍. With a visionary approach and a relentless pursuit of excellence, Dr. Wang continues to influence emerging trends in energy sustainability, smart grid design, and AI-powered control systems ⚡🤖. His legacy is built on innovation, impact, and integrity, serving as an inspiration to scholars, engineers, and policymakers worldwide 🧑‍🎓🌱. As the world navigates the complexities of energy transition and climate resilience, thought leaders like Dr. Wang are lighting the path forward—empowering new generations to innovate boldly and act wisely 🌟🚀. His story is not only one of personal achievement but also of global significance in shaping a smarter, greener future for all 💡🌐.

Publications Top Notes

Online state of charge estimation for lithium-ion batteries using improved fuzzy C-means sparrow backpropagation algorithm

  • Authors: Hai Nan, Wang Shunli, Cao Wen, Blaabjerg Frede, Fernandez Carlos

  • Year: 2025

  • Source: Journal of Energy Storage ⚡🔋

    • Innovative fuzzy-based methods for battery state estimation.

A high-speed recurrent state network with noise reduction for multi-temperature state of energy estimation of electric vehicles lithium-ion batteries

  • Authors: Zou Yuanru, Shi Haotian, Cao Wen, Wang Shunli, Nie Shiliang, Chen Dan

  • Year: 2025

  • Source: Energy 🚗🔋

    • Advancements in multi-temperature battery state of energy estimation.

Improved particle swarm optimization-adaptive dual extended Kalman filtering for accurate battery state of charge and state of energy joint estimation with efficient core factor feedback correction

  • Authors: Wang Shunli, Zhou Heng, Fernandez Carlos, Blaabjerg Frede

  • Year: 2025

  • Source: Energy 💡🔋

    • Optimized algorithms for accurate battery performance estimation.

Joint state of charge and state of energy estimation of special aircraft lithium-ion batteries by optimized genetic marginalization-extended particle filtering

  • Authors: Wang Shunli, Luo Tao, Hai Nan, Blaabjerg Frede, Fernandez Carlos

  • Year: 2025

  • Source: Journal of Energy Storage ✈️🔋

    • Enhancing battery estimation for aviation applications.

Improved volumetric noise-adaptive H-infinity filtering for accurate state of power estimation of lithium-ion batteries with multi-parameter constraint considering low-temperature influence

  • Authors: Wang Shunli, Hu Bohan, Zhou Lei, Fernandez Carlos, Blaabjerg Frede

  • Year: 2025

  • Source: Journal of Energy Storage ❄️🔋

    • State-of-power estimation under extreme conditions.

Battery pack capacity estimation based on improved cooperative co-evolutionary strategy and LightGBM hybrid models using indirect health features

  • Authors: Zhou Yifei, Wang Shunli, Li Zhehao, Feng Renjun, Fernandez Carlos

  • Year: 2025

  • Source: Journal of Energy Storage 🔋💡

    • Capacity estimation with advanced hybrid modeling techniques.

Enhanced transformer encoder long short-term memory hybrid neural network for multiple temperature state of charge estimation of lithium-ion batteries

  • Authors: Zou Yuanru, Wang Shunli, Cao Wen, Hai Nan, Fernandez Carlos

  • Year: 2025

  • Citations: 1

  • Source: Journal of Power Sources 🧠🔋

    • A hybrid approach for temperature-aware battery state estimation.

A multi-timescale estimator for state of energy and maximum available energy of lithium-ion batteries based on variable order online identification

  • Authors: Chen Lei, Wang Shunli, Chen Lu, Fernandez Carlos, Blaabjerg Frede

  • Year: 2025

  • Source: Journal of Energy Storage 📊🔋

    • A multi-scale estimator for energy and battery performance.

Multiple measurement health factors extraction and transfer learning with convolutional-BiLSTM algorithm for state-of-health evaluation of energy storage batteries

  • Authors: Shi Zinan, Zhu Chenyu, Liang Huishi, Wang Shunli, Yu Chunmei

  • Year: 2025

  • Citations: 1

  • Source: Ionics 🔋💡

    • Health evaluation using advanced neural networks for energy storage.

Battery lumped fractional-order hysteresis thermoelectric coupling model for state of charge estimation adaptive to time-varying core temperature conditions

  • Authors: Zeng Jiawei, Wang Shunli, Takyi-Aninakwa Paul, Fernandez Carlos, Guerrero Josep Manuel Ramos

  • Year: 2025

  • Citations: 1

  • Source: International Journal of Circuit Theory and Applications ⚡❄️

    • State-of-charge estimation with adaptive temperature modeling.

Improved anti-noise adaptive long short-term memory neural network modeling for the robust remaining useful life prediction of lithium-ion batteries

  • Authors: Wang Shunli, Fan Y., Jin S., Takyi-Aninakwa P., Fernandez C.

  • Year: 2023

  • Citations: 371

  • Source: Reliability Engineering & System Safety 🔋🔮

    • Improved life prediction with noise-adaptive neural networks.

An improved feedforward-long short-term memory modeling method for the whole-life-cycle state of charge prediction of lithium-ion batteries considering current-voltage influence

  • Authors: Wang S., Takyi-Aninakwa P., Jin S., Yu C., Fernandez C., Stroe D.I.

  • Year: 2022

  • Citations: 309

  • Source: Energy ⚡🔋

    • A more accurate prediction of battery state-of-charge over its lifecycle.

Transforming knowledge systems for life on Earth: Visions of future systems and how to get there

  • Authors: Fazey I., Schäpke N., Caniglia G., Hodgson A., Kendrick I., Lyon C., Page G.

  • Year: 2020

  • Citations: 306

  • Source: Energy Research & Social Science 🌍🌱

    • Future sustainability through knowledge system transformations.

 

Majid Jabbari | Applied Mathematics | Best Researcher Award

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Dr. Majid Jabbari | Applied Mathematics | Best Researcher Award

Faculty member at iaukhsh, Iran

Dr. Majid Jabbari 🛠️ is a distinguished Assistant Professor in Mechanical Engineering at Islamic Azad University of Khomainishahr, renowned for his pioneering research in vibration-based energy harvesting ⚡, piezoelectric materials, and fracture mechanics. With a Ph.D. from Isfahan University of Technology 🎓, he has contributed impactful publications in top-tier journals and presented at prestigious global forums. His engineering acumen extends to advanced mechanical design projects, including aerospace structures ✈️ and industrial damping systems. Dr. Jabbari’s academic journey is marked by excellence in teaching cutting-edge software tools 💻 and mentoring future engineers with vision. Decorated with multiple accolades 🏅 from the aviation and mining industries, he exemplifies the fusion of theoretical depth and practical innovation. His authorship of specialized books and close collaborations with leading research institutes reflect a career committed to scientific advancement 🔬 and societal benefit. Dr. Jabbari is a dynamic force in modern mechanical research and a deserving candidate for global recognition 🌍.

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🎓 Education

Dr. Majid Jabbari’s academic pathway is a seamless blend of precision, passion, and perseverance. He completed all his higher education at the prestigious Isfahan University of Technology, Iran — earning a Bachelor’s, Master’s, and Ph.D. in Mechanical Engineering 🛠️. His master’s thesis explored “Crack Detection by Using Vibration Behavior,” while his doctoral dissertation ventured into the dynamic world of “Energy Harvesting from Vibration of Piezoelectric Multilayer Structures,” merging experimentation with numerical analysis 🔍. This robust foundation laid the groundwork for his future as a mechanical innovator. Throughout his studies, Dr. Jabbari received multiple academic distinctions 🏆, including superior student awards. His educational journey reflects a rare blend of theoretical depth, hands-on expertise, and a forward-thinking mindset, positioning him at the intersection of structural mechanics, materials science, and dynamic systems. His solid academic background empowers his future contributions to global mechanical advancements 🌐.

💼 Professional Experience

Dr. Majid Jabbari brings over two decades of hands-on teaching, research, and industry collaboration experience in mechanical engineering 🔧. Currently an Assistant Professor at the Islamic Azad University of Khomainishahr, he has served as a trusted instructor for numerous specialized subjects such as Fatigue and Fracture, Finite Element Methods, and Computer-Aided Machine Design 🖥️. He is also a software-savvy educator, proficient in CATIA, ADAMS, ANSYS, MARC, and PATRAN/NASTRAN, equipping students with essential industry tools. His engineering footprint spans across diverse sectors, including steel, automotive, aviation, and maritime domains 🛳️. Dr. Jabbari has led and supported major design projects such as airplane surface design, flutter analysis, and structural optimization. His collaborations with renowned universities and industrial giants like Foolad Mobarakeh Steel Company and PTDI Indonesia reflect his versatile professional scope. With practical brilliance and academic depth, Dr. Jabbari exemplifies a career driven by innovation, integrity, and interdisciplinary synergy 🚀.

🔬 Research Interests

Dr. Majid Jabbari’s research interests orbit around the intricate mechanics of materials, dynamic systems, and smart structures 🌟. His expertise thrives in vibration-based crack detection, piezoelectric energy harvesting, nonlinear dynamic analysis, and finite element modeling 📊. At the heart of his work lies the desire to convert ambient vibrations into usable energy, a frontier technology in sustainable engineering. He is also deeply invested in the study of fatigue, fracture behavior, and stress analysis under complex conditions — paving the way for safer and smarter mechanical designs 🧠. His explorations into advanced coatings, such as TiO2/SiC/SiO2 layers for graphite electrodes, signal a strong focus on durability and innovation in manufacturing. Bridging theory and practice, Dr. Jabbari seamlessly integrates computational simulations with experimental validation 🔎. His dynamic portfolio reflects a forward-looking vision aimed at enhancing structural health monitoring, energy efficiency, and robust mechanical systems that meet future industrial demands ⚙️.

🏅 Awards and Honors

Dr. Majid Jabbari is the recipient of numerous awards that celebrate both academic excellence and industrial innovation 🎖️. He earned the prestigious Superior Student Award and multiple research grants during his academic years at Isfahan University of Technology. His exceptional work in the aviation industry has been recognized multiple times — securing accolades in 2000, 2001, 2003, 2004, 2005, and 2006 for his outstanding design and technical contributions ✈️. In addition, he has been honored with the Top Expert Award from the Aviation Industry and received recognition from the mining sector for his applied engineering solutions ⛏️. His commitment to research excellence is further validated by accolades from Islamic Azad University and internationally recognized certification programs from Russia and Germany. These distinctions reflect not only his deep technical competence but also his role as a bridge between academia and industry. Dr. Jabbari’s accolades are a testimony to his dedication, brilliance, and visionary impact 🌐.

Conclusion

Dr. Majid Jabbari emerges as a multi-dimensional engineer, educator, and researcher whose career radiates intellectual brilliance and practical ingenuity 🔧. His journey—from a passionate student to a nationally and internationally recognized scholar—reflects consistency in excellence and a commitment to innovation. With extensive academic credentials, hands-on industrial involvement, and cutting-edge research, he has impacted fields ranging from energy harvesting to structural integrity. His published works, teaching legacy, and collaborative projects across top institutions and industries illustrate a profile that is both inspiring and influential 📘. Dr. Jabbari stands as a role model in engineering education, known not just for problem-solving but for visionary foresight. His work pushes the envelope in mechanical systems and sustainable design, making him a compelling contender for any prestigious recognition 🏆. As technology evolves, his contributions continue to shine as a beacon for emerging researchers and engineers ready to shape the future 💡.

Publications Top Notes

  • 🛠️ Crack Detection in Beams Using Experimental Modal Data and Finite Element Model
    Authors: H. Nahvi, M. Jabbari
    Year: 2005
    Citations: 341
    Published In: International Journal of Mechanical Sciences, Vol. 47(10), pp. 1477–1497
    📌 Summary: A pioneering study combining vibration analysis with FEM to identify structural cracks in beams.

  • 🔥 Effects of TiO₂/SiC/SiO₂ Coating on Graphite Electrode Consumption in Sublimation and Oxidation States via EAF Simulation and Experimentation
    Authors: H.A. Moghadam, M. Jabbari, S. Daneshmand, S.R. Jazi, A. Khosravi
    Year: 2021
    Citations: 12
    Published In: Surface and Coatings Technology, Vol. 420, Article 127340
    📌 Summary: Investigates triple-layer coatings on electrodes to reduce wear in high-temperature environments.

  • 🎢 Experimental and Numerical Insights into the Dynamics of a Nonlinear Piezoelectric Beam
    Authors: M. Jabbari, M. Ghayour, H.R. Mirdamadi
    Year: 2016
    Citations: 12
    Published In: Mechanics of Advanced Materials and Structures, Vol. 23(8), pp. 853–864
    📌 Summary: Explores complex vibrational behavior in smart piezoelectric structures under dynamic conditions.

  • 🔋 Energy Harvesting of a Multilayer Piezoelectric Beam: Resonant vs Off-Resonant Behavior
    Authors: M. Jabbari, M. Ghayour, H.R. Mirdamadi
    Year: 2017
    Citations: 10
    Published In: Journal of Engineering Materials and Technology, Vol. 139(3), Article 031008
    📌 Summary: Evaluates how multi-layer designs affect energy capture from mechanical oscillations.

  • 🎯 Strain Nodes and Their Influence on Energy Output of Cantilever Piezoelectric Beams Under Modal Excitation
    Author: M. Jabbari
    Year: 2018
    Citations: 9
    Published In: Modares Mechanical Engineering, Vol. 17(10), pp. 65–72
    📌 Summary: Targets optimal energy zones in beam configurations based on nodal strain distribution.

  • 🧪 Free Vibration Analysis of Piezoelectric Actuators with Graded BN Nanotube Reinforcements via Timoshenko Theory
    Authors: R. Abdellahi, M. Jabbari, A. Shamshiri
    Year: 2024
    Citations: 4
    Published In: Results in Engineering, Vol. 23, Article 102374
    📌 Summary: Blends functional nanotech with classic mechanics to study smart actuator dynamics.

  • ⚙️ Impact of TiO₂/SiC/SiO₂ Coating on Wear Resistance of Needle Graphite Electrodes in EDM Context
    Authors: H.A. Moghadam, M. Jabbari, S. Daneshmand, S.R. Jazi, A. Khosravi
    Year: 2021
    Citations: 2
    Published In: International Journal of Advanced Design & Manufacturing Technology, Vol. 14(2)
    📌 Summary: Applies coating science to improve endurance during electrical discharge machining.

  • 🧪 Fabrication of Protective SiC/TiO₂/SiO₂ Coating for Graphite Electrodes
    Authors: H.A. Moghadam, M. Jabbari, S. Daneshmand, S.R. Jazi, A. Khosravi
    Year: 2021
    Citations: 2
    Published In: Surface Review and Letters, Vol. 28(05), Article 2150038
    📌 Summary: Describes the synthesis and performance evaluation of multilayer protective coatings.

  • 🔄 Enhancing Energy Harvesting through Vibration Mode Shape Optimization
    Authors: M. Jabbari, M. Ghayour, H.R. Mirdamadi
    Year: 2016
    Citations: 2
    Published In: Advanced Computational Design, Vol. 1(2), pp. 155–173
    📌 Summary: Focuses on maximizing piezoelectric beam output by tuning vibrational response.

  • 🔍 Finite Element Analysis of Transient and Steady Dynamics in Nonlinear Piezoelectric Beams
    Authors: M. Jabbari, M. Ghayour, H.R. Mirdamadi
    Year: 2016
    Citations: 2
    Published In: Journal of Solid Mechanics, Vol. 8(2), pp. 247–261
    📌 Summary: Delivers an in-depth simulation approach to nonlinear smart beam behavior.

  • 🧠 Optimization of Piezoelectric MEMS for Power Output via Genetic Algorithms
    Authors: M. Jabbari, M. Eghdami
    Year: 2023
    Citations: 1
    Published In: Aerospace Knowledge and Technology Journal, Vol. 11(2), pp. 165–181
    📌 Summary: Introduces AI-driven material and shape tuning for better MEMS energy conversion.

  • ⚡ Dynamic Stiffness-Based Electric Response Prediction in Piezoelectric Beams
    Authors: M. Jabbari, B. Ahmadi
    Year: 2020
    Citations: 1
    Published In: Journal of Applied and Computational Sciences in Mechanics, Vol. 31(2)
    📌 Summary: Models the electrical reaction of smart materials under dynamic excitation using advanced stiffness methods.

Dipesh | Applied Mathematics | Best Researcher Award

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Dr. Dipesh | Applied Mathematics | Best Researcher Award

Assistant Professor at SR University, India

Dr. Dipesh is a dynamic and visionary scholar 🌟 whose research bridges the frontiers of mathematics, engineering, and innovation. With a profound commitment to academic excellence 📚, he has contributed significantly to applied mathematics and interdisciplinary modeling. His scholarly journey is marked by a trail of high-impact publications, collaborative projects, and a passion for advancing scientific knowledge through innovative methods 🧠🔬. Dr. Dipesh’s work seamlessly integrates theory and application, addressing real-world challenges with mathematical precision. As a dedicated educator and researcher 👨‍🏫, he inspires students and peers alike, fostering a culture of curiosity and discovery. Known for his strategic thinking and problem-solving acumen 🎯, he is a driving force in the global research community. His contributions not only elevate his field but also pave the way for future innovations in science and technology 🌐. Dr. Dipesh embodies the spirit of intellectual rigor, innovation, and global impact. 🚀

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Education 🎓

Dr. Dipesh’s academic voyage began with a thirst for discovery, leading him to earn top distinctions across his educational milestones. From undergraduate brilliance to postgraduate mastery, he consistently demonstrated scholarly agility. His doctoral pursuit was nothing short of transformative, delving deep into the realms of applied mathematics and computational modeling. With a blend of analytical sharpness and creative thought 💡, he shaped a thesis that resonated across disciplines. Through internships, fellowships, and global academic exposure 🌍, Dr. Dipesh embraced both classical theory and cutting-edge advancements, enriching his intellectual toolkit. His academic record reflects not just excellence, but evolution — an unrelenting quest for understanding the mathematical patterns that shape our world. With each degree, he built not just knowledge, but vision — a vision that continues to inspire every academic and professional arena he enters.

Professional Experience 

With a career rooted in purpose and propelled by passion, Dr. Dipesh has crafted a vibrant professional canvas. From research institutions to academic think tanks, he has donned multiple hats — as a lecturer, mentor, consultant, and principal investigator. His work echoes across domains like mathematical modeling, computational simulations, and interdisciplinary analytics 🔍. Through strategic collaborations and leadership in diverse research initiatives, he has translated theory into impact. His roles have spanned curriculum development, peer review, and technological innovation, each enriching his expertise. Dr. Dipesh brings not just experience, but engagement — an unwavering drive to uplift scientific inquiry and educational transformation 📈. Whether guiding students or steering complex projects, he embodies professionalism with a human touch. His journey is marked by meaningful milestones that reflect both depth and diversity — a true blend of intellect and initiative in motion.

Research Interest 🔬

Dr. Dipesh’s research universe orbits around the fusion of abstract theory and practical relevance. He thrives at the intersection of applied mathematics, machine learning, data-driven modeling, and real-world system optimization 🌐. Passionate about unraveling complex dynamics, his work ventures into fractional calculus, differential equations, computational intelligence, and interdisciplinary simulations. Dr. Dipesh views research as a living organism — evolving, adapting, and contributing to the scientific ecosystem. His investigations are not limited to academic curiosity; they aim to decode pressing global issues using mathematical clarity and innovation 🧠. From predictive algorithms to mathematical physics, he embraces complexity with elegance. A firm believer in cross-domain synergy, his inquiries often collaborate with fields like biology, environmental science, and artificial intelligence 🤝. Driven by both rigor and relevance, his research is a beacon for transformative insight and sustainable innovation.

Awards and Honors 🏆

Dr. Dipesh’s accolades reflect his commitment to excellence and his pioneering spirit. Recognized both nationally and internationally, he has received honors that celebrate not just his research, but his contribution to education and societal advancement 🌟. From best paper awards to research fellowships, he has built a distinguished legacy of merit. These recognitions stem from competitive platforms where innovation meets influence. Whether through academic forums, institutional commendations, or international conferences 🌍, his work has earned applause and admiration. His awards are more than trophies — they are testaments to his intellectual resilience, collaborative ethos, and trailblazing ideas. A mentor to many and a leader in thought, Dr. Dipesh’s decorated career is a living narrative of perseverance, curiosity, and global contribution 🏅. These honors reaffirm his role as a changemaker in the ever-expanding sphere of mathematical sciences.

Conclusion 🧭

Dr. Dipesh stands as a luminary whose path fuses intellect, imagination, and impact. His academic roots, professional ventures, and research brilliance have built a profile defined by depth and dynamism 🌈. More than just a mathematician, he is a storyteller of systems, a bridge between theory and transformation. Every equation he solves and every model he constructs echoes his belief in knowledge as a catalyst for change. As a scholar, mentor, and visionary, he continues to shape minds and spark innovation across continents 📚✨. Dr. Dipesh doesn’t just follow the path — he crafts it, inspiring future thinkers to ask bold questions and dream without limits. His legacy is not only found in published pages or professional positions, but in the lives he touches and the paradigms he shifts 🔄. He is a vibrant force — ever-evolving, ever-inspiring, and ever-forward.

Publications Top Notes

  • 🌿 Effect of time delay on dynamic of plant competition under allelopathy
    Authors: P.K. Dipesh
    Year: 2022
    Citations: 11
    Source: Mathematical Methods in the Applied Sciences

  • 🌲 Optimizing industrial growth through alternative forest biomass resources: A mathematical model using DDE
    Authors: Dipesh, P. Kumar, C. Cattani
    Year: 2023
    Citations: 10
    Source: International Journal of Mathematics and Computer in Engineering

  • 🌱 Effect of time-lag on two mutually competing plant populations under allelochemicals
    Authors: P.K. Dipesh
    Year: 2022
    Citations: 10
    Source: Journal of Physics: Conference Series 2267 (1), 012019

  • 🔬 Enhancing high frequency magneto-dielectric performance with exchange-coupled garnet/spinel ferrite composites
    Authors: Dipesh, A. Sharma, H. Mahajan, N. Aggarwal, S. Sinha, A.K. Srivastava
    Year: 2023
    Citations: 6
    Source: Nano-Structures & Nano-Objects 36, 101035

  • 🧪 Investigating the impact of toxicity on plant growth dynamics through the zero of a fifth-degree exponential polynomial: A mathematical model using DDE
    Authors: Dipesh, P.K.
    Year: 2023
    Citations: 6
    Source: Chaos, Solitons & Fractals 171, 113457

  • 🌾 Modelling the stimulatory and inhibitory allelopathic effects on competing plant populations
    Authors: Dipesh, P. Kumar
    Year: 2022
    Citations: 6
    Source: AIP Conference Proceedings 2435 (1)

  • 📈 Modeling and analysis of demand-supply dynamics with a collectability factor using DDE in economic growth via the Caputo operator
    Authors: Dipesh, Q. Chen, P. Kumar, H.M. Baskonus
    Year: 2024
    Citations: 5
    Source: AIMS Mathematics 9 (3), 7471–7191

  • 🌿 Sensitivity and Directional Analysis of Two Mutually Competing Plant Population Under Allelopathy Using DDE
    Authors: Dipesh, P. Kumar
    Year: 2023
    Citations: 3
    Source: Mathematics and Computing, 605–620

  • 🌱 Role of Delay on Two Competing Plant Populations Under the Allelopathic Effect
    Authors: Dipesh, P. Kumar
    Year: 2022
    Citations: 2
    Source: Emerging Advancements in Mathematical Sciences, 39–58

  • 💰 Stability Analysis of GDP-National Debt Dynamics using Delay Differential Equation
    Authors: Q. Chen, Dipesh, P. Kumar, H.M. Baskonus
    Year: 2024
    Citations: 1
    Source: Fractals, 2540059

  • 🌿 A novel approach to 6th-order DDEs in toxic plant interactions and soil impact: beyond Newton-Raphson
    Authors: Dipesh, P. Kumar
    Year: 2024
    Citations: 1
    Source: Physica Scripta 99 (6), 065236

  • 🧲 Exchange-coupling enhanced: Tailoring structural and magnetic properties of Dy iron garnet ferrite nanoparticles via La substitution
    Authors: Dipesh, A. Sharma, P. Kumar, J.V. Vas, R. Medwal, A.K. Srivastava
    Year: 2024
    Citations: 1
    Source: Journal of Materials Research, 1–18

  • 📊 On the equilibrium point and Hopf-Bifurcation analysis of GDP-national debt dynamics under delayed investment: A new DDE model
    Authors: Dipesh, Q. Chen, P. Kumar, H.M. Baskonus
    Year: 2024
    Citations: 1
    Source: Alexandria Engineering Journal 91, 510–515

  • 🔍 Unlocking the Potential of Garnet Ferrites: A Comprehensive Review on Properties, Preparation Methods, and Applications
    Authors: A. Sharma, Dipesh
    Year: 2024
    Citations: 1
    Source: Materials Performance and Characterization 13 (1), 1–36

  • 🔋 Status and Prospects of GdIG Garnet Ferrites for Energy Storage Devices: A Review
    Authors: A. Sharma, Dipesh, H. Mahajan, A.K. Srivastava
    Year: 2024
    Citations: 1
    Source: Next Generation Materials for Sustainable Engineering, 174–186

  • 🌲 Delay DDE model of forest biomass and competition between wood‐based and synthetic‐based industries
    Authors: Dipesh, P. Kumar
    Year: 2023
    Citations: 1
    Source: Mathematical Methods in the Applied Sciences

  • 🫀 Modelling the Role of Delay in Blood Flow Dynamics in the Human Body using DDE
    Authors: Dipesh, P. Kumar
    Year: 2025
    Citations:
    Source: Physica A: Statistical Mechanics and its Applications, 130602

  • 💹 On modeling the impact of delay on stock pricing fluctuations using DDE
    Authors: Y. Wang, Dipesh, P. Kumar, H.M. Baskonus, W. Gao
    Year: 2025
    Citations:
    Source: Physica A: Statistical Mechanics and its Applications, 130601

  • 🍃 Modeling and analyzing delay in plant responses under toxicity
    Authors: Dipesh, P. Kumar, H.M. Baskonus
    Year: 2025
    Citations:
    Source: Advances in Computational Methods and Modeling for Science and Engineering

  • 🌱 Effect of time delay on directional and stability analysis of plant competition for allelochemicals study
    Authors: Dipesh, P. Kumar, H.M. Baskonus, A. Ciancio
    Year: 2025
    Citations:
    Source: Advances in Computational Methods and Modeling for Science and Engineering

 

Ghanem Aicha | Game Theory | Best Researcher Award

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Dr. Ghanem Aicha | Game Theory | Best Researcher Award

Ph.D at Laboratory of Fundamental and Numerical Mathematics (LMFN), Algeria

Dr. Ghanem Aicha 🎓, a rising scholar from the Laboratory of Fundamental and Numerical Mathematics at Ferhat Abbas University, Setif 1 🇩🇿, is carving a niche in the sophisticated realms of Differential Games and Optimal Control Theory. Her research brilliance shines through her dynamic application of programming tools like MATLAB, Python, Java, and C++ 💻 to develop theoretically sound and numerically robust solutions. With a solid academic foundation and guided by distinguished mentors Dr. Bouremani Touffik and Prof. Benterki Djamel, she has actively presented her work in prestigious international and national conferences 🌍. Her recent publication in the Journal of Computational and Applied Mathematics 📘 marks a pivotal achievement, validating her innovative approach to complex mathematical problems. Multilingual and methodical, Dr. Aicha embodies the essence of a forward-thinking researcher, harmonizing analytical depth with computational precision. She stands as a beacon of promise for the future of applied mathematics and control systems 🔍✨.

Professional Profile 

ORCID Profile

Education 🎓📚

Dr. Ghanem Aicha’s academic odyssey began with a Baccalaureate in Mathematics in Batna (2014), paving the way to her Bachelor’s degree in Mathematics at the University of Msila (2014–2017). She then embarked on a focused journey in Optimization and Control, earning her Master’s degree from Setif University (2017–2019). Her quest for deeper mathematical understanding led her into a Ph.D. program (2021–2025) at the Laboratory of Fundamental and Numerical Mathematics, Ferhat Abbas University, Setif 1 🧠. Under the mentorship of Dr. Bouremani Touffik and Professor Benterki Djamel, she has delved into the challenging fields of Differential Games and Optimal Control Theory, building a rigorous theoretical and computational foundation. Her educational path showcases a blend of resilience, precision, and unwavering commitment to mathematical excellence—laying a robust framework for her future in academia and scientific innovation 🚀.

Professional Experience 👩‍💼🔬

Though early in her professional voyage, Dr. Ghanem Aicha has already demonstrated the makings of an impactful researcher. As a dedicated Ph.D. scholar at Ferhat Abbas University, she has engaged deeply with theoretical and numerical modeling, contributing to scholarly discourse through national and international platforms 🌍. Her experience includes collaborating with esteemed researchers, co-authoring peer-reviewed journal articles, and presenting at symposiums such as IMSSRS (USA) and the Institute of Mathematics, NAS of Ukraine. Dr. Aicha is also proficient in scientific computing, harnessing the power of Matlab, Python, Java, and C++ to model and simulate complex control systems ⚙️💻. She regularly analyzes technical reports and applies dynamic programming approaches to multifaceted differential problems. Her academic engagements extend beyond research, encompassing mentoring peers and contributing to collaborative investigations, all while nurturing a global scientific perspective. A future thought leader in applied mathematics, her professional journey is gaining momentum with precision and purpose 🌟.

Research Interest 🔎📐

Dr. Ghanem Aicha’s research orbit revolves around Differential Games, Optimal Control Theory, and Dynamic Programming, where mathematics meets decision-making under constraints. She explores intricate systems where strategy, optimization, and real-time control intersect—a crucial foundation for aerospace, economics, and cybernetics 🚀📊. Her fascination lies in characterizing admissible trajectories in differential games, especially under Dolichobrachistochrone and Isaacs’ frameworks. Bridging theory with application, she seeks solutions that are both mathematically elegant and computationally verifiable. With an affinity for numerical simulation and algorithmic development, her work is powered by a synthesis of abstract reasoning and practical modeling. She is particularly interested in non-singular and singular solution cases, extending Hamiltonian flows, and optimizing complex parametric curves. Through her interdisciplinary lens, she aims to push the frontiers of how we model and manage real-world dynamical systems. A true advocate for precision and possibility, Dr. Aicha is poised to become a trailblazer in the control sciences and applied game theory 🧠🎯.

Awards and Honors 🏆🌟

While still navigating the early stages of her career, Dr. Ghanem Aicha has already begun gathering academic accolades through her impactful contributions. Her co-authored paper—“On the solution of the dolichobrachistochrone differential game via dynamic programming approach”—was accepted in the prestigious Journal of Computational and Applied Mathematics 📘, a milestone for emerging researchers. She has been invited to present her work at top-tier international platforms including the Institute of Mathematics of NAS Ukraine and the International Mathematics and Statistics Student Research Symposium (IMSSRS), USA 🌐—a testament to the growing recognition of her mathematical insight. Though formal awards may still be on the horizon, her consistent selection for speaking engagements, collaborations with senior academics, and invitations to advanced workshops reflect an evolving trajectory of academic merit. With her strong foundation and innovative mindset, many honors undoubtedly await this promising mathematician on the global research stage 🥇✨.

Conclusion ✨📈

Dr. Ghanem Aicha is a bright luminary rising through the constellation of contemporary mathematics 🌠. With a focused specialization in Differential Games and Optimal Control Theory, she melds elegance of theory with the power of computation—producing impactful results that resonate across academia and beyond. Her academic perseverance, technical dexterity, and early achievements position her as not only a researcher of today but a pioneer of tomorrow 💡. Fluent in multiple languages and skilled in diverse programming tools, she bridges cultures and codes with equal fluency. Through every paper published, presentation delivered, and problem solved, she reflects dedication, innovation, and precision. As she continues her scholarly ascent, Dr. Aicha embodies the spirit of a next-generation thinker—methodical, curious, and deeply committed to the advancement of science. A compelling candidate for any research honor, she is truly a name to watch in the mathematical sciences 🔭📊.

Publications Top Notes

📘 Title:On the Solution of Dolichobrachistochrone Differential Game via Dynamic Programming Approach

👩‍🔬 Authors: Ghanem Aicha, Touffik Bouremani, Djamel Benterki
📆 Year: December 2024
📚 Source: Journal of Computational and Applied Mathematics
🧠 Vibe: A thrilling journey into the core of differential games, this paper revives Isaacs’ 1965 brainchild using the sharp blade of Mirică’s 2004 dynamic programming. The twist? It pioneers feedback strategies—giving this classical conundrum a futuristic edge 🎯🤖.

📗 Title:New Proceeding CNMA’2022

🧑‍🤝‍🧑 Authors: Ichrak Bouacida, Mourad Kerboua, Sami Segni, Ghanem Aicha
🗓️ Year: July 2023
🏛️ Source: Conference on Nonlinear Mathematical Analysis (CNMA’2022) – Full Text Available
🌟 Essence: A symphony of minds tackling nonlinear mysteries. Dr. Aicha joins forces with renowned peers to spotlight fresh insights at CNMA’2022—a scholarly pulse on the national stage with global echoes 📈🌐.

Saeed Ahmad | Applied Mathematics | Best Researcher Award

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Assist. Prof. Dr. Saeed Ahmad | Applied Mathematics | Best Researcher Award

Assistant Professor at University of Malakand Chakdara, Pakistan

Dr. Saeed Ahmad is a distinguished researcher and academic in the field of applied mathematics, with a strong focus on dynamical systems, nonlinear analysis, and mathematical biology 🔬📈. He earned his Ph.D. from the University of Nottingham, UK 🇬🇧, where his work on semifluxons in long Josephson junctions gained international recognition 🌍. With over 20 high-impact publications in reputable journals such as Chaos, Solitons and Fractals and Physical Review B 📚🧠, Dr. Ahmad has contributed significantly to the understanding of fractional differential models in epidemiology and physics. Currently serving as an Assistant Professor at the University of Malakand 🇵🇰, he also mentors M.Phil. and Ph.D. scholars, fostering future generations of researchers 🎓👨‍🏫. His expertise spans real and complex analysis, PDEs, and nonlinear waves, underlining his versatility in mathematics 🧮📊. A recipient of a prestigious HEC scholarship, his academic journey is a testament to excellence and dedication ⭐🏅.

Professional Profile

Google Scholar
Scopus Profile

Education 🎓📘

Dr. Saeed Ahmad holds an impressive academic background rooted in excellence and global exposure. He completed his Ph.D. in Applied Mathematics from the prestigious University of Nottingham, United Kingdom 🇬🇧, focusing on the mathematical modeling of semifluxons in long Josephson junctions—a complex area blending physics and nonlinear analysis 🔬📐. Prior to his doctoral studies, he obtained his M.Phil. and M.Sc. degrees in Mathematics from leading Pakistani institutions, laying a strong foundation in real and complex analysis, differential equations, and functional analysis 📖🧠. Throughout his academic journey, Dr. Ahmad consistently achieved top ranks and received multiple scholarships for his outstanding performance 🏅✍️. His educational credentials are a testimony to his dedication, intellectual rigor, and commitment to advancing mathematical sciences on both theoretical and applied fronts 📊📏.

Professional Experience 🧑‍🏫💼

Dr. Saeed Ahmad is currently serving as an Assistant Professor in the Department of Mathematics at the University of Malakand, Pakistan 🇵🇰, where he plays a pivotal role in teaching, mentoring, and leading research initiatives. With over a decade of academic experience, he has guided M.Phil. and Ph.D. students in areas like nonlinear dynamics, fractional calculus, and mathematical biology 🎓🔬. His teaching philosophy blends analytical precision with real-world relevance, inspiring students to approach mathematics as a powerful problem-solving tool 🧮🧑‍🎓. In addition to his academic duties, Dr. Ahmad actively contributes to curriculum development, seminars, and interdisciplinary collaborations across departments 🤝📋. He has also participated in international conferences and workshops, enhancing his global academic engagement 🌍📢. His professional journey reflects a balanced blend of scholarly depth and educational leadership, making him a cornerstone of the university’s mathematical research community 🏛️📚.

Research Interests 🔍🧠

Dr. Saeed Ahmad’s research interests lie at the intersection of applied mathematics, nonlinear analysis, and mathematical modeling 📈🧬. He specializes in dynamical systems, fractional differential equations, and nonlinear wave phenomena—applying these concepts to real-world systems in physics, epidemiology, and engineering 🔧⚛️. His work on Josephson junctions, a quantum mechanical device, has garnered international recognition and continues to influence modern theoretical physics 🧲🌐. Additionally, Dr. Ahmad explores the dynamics of infectious disease models using fractional calculus to improve predictive accuracy in biological systems 🧫🦠. He has authored over 20 impactful research papers in leading journals such as Chaos, Solitons & Fractals and Physical Review B, demonstrating both depth and innovation 📚🚀. His interdisciplinary approach bridges theoretical rigor with practical applications, positioning him as a thought leader in mathematical sciences and beyond 🔬🧮.

Awards and Honors 🏆🎖️

Dr. Saeed Ahmad has been recognized for his academic and research excellence with numerous awards and honors that highlight his contributions to mathematics both nationally and internationally 🌟🌐. He was the recipient of a prestigious Higher Education Commission (HEC) scholarship for his Ph.D. studies in the UK, a testament to his exceptional academic merit and potential 🇵🇰🎓. His research publications have earned accolades in the form of high-impact citations, reflecting their value within the global scientific community 📖💡. Additionally, Dr. Ahmad has been invited as a speaker at various international conferences, recognizing his expertise in applied mathematics and nonlinear dynamics 🎤📊. His achievements underscore a career built on dedication, innovation, and the pursuit of knowledge. These honors not only reflect individual excellence but also contribute to raising the academic profile of his home institution and country 🏅📘.

Conclusion 📝📌

In summary, Dr. Saeed Ahmad stands as a dedicated scholar, educator, and researcher whose work in applied mathematics continues to make a lasting impact on both theory and real-world applications 🌍🔢. With a solid educational foundation, substantial teaching experience, and a strong portfolio of research contributions, he exemplifies the spirit of academic excellence and innovation 🧑‍🏫🧠. His interdisciplinary focus bridges mathematics with physics and biology, demonstrating the versatility and necessity of mathematical tools in solving modern scientific challenges 🧮🔬. Dr. Ahmad’s recognition through awards and international collaborations further cements his reputation as a respected figure in the global mathematical community 🏆🌐. As he continues to mentor students and publish groundbreaking research, his contributions will undoubtedly shape the future of applied mathematics and inspire the next generation of mathematical thinkers 📚🚀.

Publications Top Notes

  • Controllability of pantograph-type nonlinear non-integer order differential system with input delay

    • Authors: I. Ahmad, S.F. Ahmad, G. ur Rahman, Y. Karaca, Z.A. Khan

    • Year: 2025

    • Source: AEJ – Alexandria Engineering Journal

    • Topic: Control Theory, Delay Systems, Fractional Calculus

  • Vectorial spatial solitons of left and right circularly polarized beams in a chiral atomic medium using complex light fields with spatial structure

    • Authors: R.T. Ahmad, B.A. Bacha, S.F. Ahmad, I. Ahmad

    • Year: 2025

    • Source: [Unspecified Journal]

    • Topic: Optics, Nonlinear Physics

  • Exposure to Acute Concentration of Malathion Induced Behavioral, Hematological, and Biochemical Toxicities in the Brain of Labeo rohita

    • Authors: S. Ullah, S.F. Ahmad, M.K. Ashraf, T. Iqbal, M.M. Azzam

    • Year: 2025

    • Source: Life

    • Topic: Ecotoxicology, Behavioral Neuroscience

  • Empowering silver and copper nanoparticles through aqueous fruit extract of Solanum xanthocarpum for sustainable advancements

    • Authors: G. Rahman, H. Fazal, A. Ullah, G. Zengin, A. Farid

    • Year: 2025

    • Citations: 6

    • Source: Biomass Conversion and Biorefinery

    • Topic: Green Chemistry, Nanotechnology

  • A new fractional infectious disease model under the non-singular Mittag–Leffler derivative

    • Authors: X. Liu, M. Ur Rahmamn, S.F. Ahmad, D.I. Baleanu, Y. Nadeem Anjam

    • Year: 2025

    • Citations: 15

    • Source: Waves in Random and Complex Media

    • Topic: Epidemic Modeling, Fractional Calculus

  • Control of scabies fluctuation during COVID-19 pandemic

    • Authors: Abdullah, S.F. Ahmad, W. Albalawi, N. Omer

    • Year: 2025

    • Source: AEJ – Alexandria Engineering Journal

    • Topic: Infectious Disease Modeling, Public Health

  • Stability analysis and optimal control of a generalized SIR epidemic model with harmonic mean type of incidence and nonlinear recovery rates

    • Authors: S.R. Chawla, S.F. Ahmad, A. Khan, K.S. Nisar, H.M. Ali

    • Year: 2024

    • Source: AEJ – Alexandria Engineering Journal

    • Topic: Mathematical Epidemiology, Optimal Control

  • Coherent manipulation of vectorial soliton beam in sodium like atomic medium

    • Authors: B.A. Bacha, S.F. Ahmad, R.T. Ahmad, I. Ahmad

    • Year: 2024

    • Citations: 3

    • Source: Chaos, Solitons and Fractals

    • Topic: Quantum Optics, Solitons

  • Atom localization by damping spectrum of surface plasmon polariton waves

    • Authors: I. Shah, M.D.L. De la Sen, S.F. Ahmad, T.A. Alrebdi, A.H. Abdel-Aty

    • Year: 2024

    • Citations: 1

    • Source: AEJ – Alexandria Engineering Journal

    • Topic: Plasmonics, Atomic Physics

  • Beneficial Effects of Natural Alkaloids from Berberis glaucocarpa as Antidiabetic Agents: An In Vitro, In Silico, and In Vivo Approach

    • Authors: M. Alamzeb, S.T.A. Shah, H. Hussain, R.Q. Ullah, E.A. Ali

    • Year: 2024

    • Citations: 6

    • Source: ACS Omega

    • Topic: Drug Discovery, Natural Products, Diabetes

 

Hoger Ghahramani | Pure Mathematics | Best Researcher Award

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Prof. Hoger Ghahramani | Pure Mathematics | Best Researcher Award

Professor of Pure Mathematics at University of Kurdistan, Iran

Dr. Hoger Ghahramani 🎓, an esteemed Associate Professor at the University of Kurdistan 🇮🇷, stands as a distinguished scholar in Functional Analysis, Banach Algebras, and Operator Theory 🔍. With a Ph.D. in Mathematics from Tarbiat Modares University, his research illuminates the depths of non-commutative algebra and computability theory 💡. A prolific contributor to mathematical science, Dr. Ghahramani has authored over 20 impactful research papers in prestigious international journals 📚, and actively shares his expertise through conference presentations and invited talks across Iran and beyond 🌍. His excellence extends to education, where he inspires future mathematicians in advanced topics like Real and Functional Analysis, Operator Algebras, and Logic 📐. As a reviewer for Mathematical Reviews and referee for numerous journals, his academic footprint reflects both depth and leadership 🏅. Passionate, innovative, and dedicated, Dr. Ghahramani exemplifies the spirit of mathematical exploration and academic excellence 🌟.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

🎓 Education

Dr. Hoger Ghahramani embarked on his mathematical journey at Amirkabir University of Technology, where he earned both his B.Sc. and M.Sc. in Mathematics 🧠. His master’s thesis explored subnormal operators under the guidance of Prof. A. Riazi. Driven by a passion for deep theoretical frameworks, he pursued his Ph.D. in Mathematics at Tarbiat Modares University 🎓. Under the mentorship of Prof. G.H. Esslamzadeh, his doctoral work focused on the intricate world of derivations in Banach algebras. From foundational analysis to specialized algebraic structures, his academic formation laid a rock-solid base 🧱 for a lifelong pursuit of discovery. Dr. Ghahramani’s education not only sharpened his analytical acumen but also instilled a lifelong dedication to uncovering mathematical truths 🔍. His academic rigor, combined with a curiosity for abstraction and logic, paved the way for his impactful contributions in both theoretical and applied branches of mathematics 🌐.

👨‍🏫 Professional Experience

With unwavering dedication, Dr. Ghahramani began his academic career as an Assistant Professor at the University of Kurdistan in 2008 🏛️. His dynamic teaching style, coupled with his depth in subjects such as Functional Analysis, Operator Theory, and Mathematical Logic, quickly earned him recognition among students and peers alike. In 2015, he rose to the rank of Associate Professor 👏, a testament to his academic leadership and prolific research output. Over the years, he has delivered a wide range of graduate and undergraduate courses, sparking curiosity and excellence across multiple generations of learners 📘. He has played an active role in mentoring students, shaping research directions, and enriching the university’s academic culture 🧑‍🏫. Beyond the classroom, Dr. Ghahramani contributes extensively to the scholarly community by reviewing for Mathematical Reviews and refereeing for international journals, reinforcing his reputation as a reliable and respected voice in the global mathematics arena 🌍.

🧠 Research Interests

Dr. Ghahramani’s research is a masterful blend of classical and modern mathematical disciplines, primarily rooted in Functional Analysis, Banach and Operator Algebras, and Non-commutative Algebra 🔬. His scholarly curiosity extends into Computer Science through Computability Theory, showcasing his interdisciplinary reach 💡. At the heart of his work lies a deep investigation into derivations, Jordan maps, and algebraic structures through zero product techniques. With over 20 peer-reviewed publications, he has unraveled complex relationships and introduced elegant formulations that push the boundaries of contemporary mathematical thought 📈. Whether through investigating the reflexive closures of operator algebras or exploring the behavior of linear maps on *-algebras, his work resonates with precision, originality, and rigor 📚. Dr. Ghahramani’s theoretical innovations contribute profoundly to the structural understanding of algebraic and analytical systems, positioning him as a thought leader in his fields of interest 🌌.

🏅 Awards and Honors

Dr. Hoger Ghahramani’s academic journey is decorated with well-earned distinctions and professional recognition 🎖️. His long-standing role as a reviewer for Mathematical Reviews reflects the scholarly trust placed in his expertise and insight 🔍. Over the years, his participation as an invited speaker at national and international conferences has further solidified his place as a thought-provoking voice in advanced mathematics 🗣️. Moreover, his editorial and peer review contributions to respected journals underline his active involvement in shaping contemporary mathematical research 🧾. While not always formally titled, his honors shine through the widespread citation and relevance of his work, his mentorship impact, and the respect he commands in both academic and research communities 🤝. These recognitions are a natural outgrowth of a life committed to mathematical excellence and intellectual integrity. Dr. Ghahramani’s legacy continues to grow with every paper published, class taught, and theory illuminated ✨.

 Conclusion

In the vibrant landscape of modern mathematics, Dr. Hoger Ghahramani stands as a beacon of intellectual rigor, innovation, and mentorship 🌟. From his deep-rooted expertise in Banach algebras and operator theory to his impactful teaching and global academic collaborations, he has made remarkable contributions that resonate far beyond his home institution 🎯. His career reflects a perfect balance of theoretical exploration and practical dissemination—nurturing future mathematicians while expanding the frontiers of knowledge 📐. With a strong publication record, conference participation, and academic service, Dr. Ghahramani exemplifies the ideal scholar: driven, insightful, and ever-curious 🧭. His journey is not only a story of personal academic achievement but also an inspiration to those who believe in the transformative power of mathematics to decode the universe’s deepest structures 💫. As he continues to build upon his legacy, the mathematical world watches with anticipation and admiration 🚀.

Publications Top Notes

  • Functional identities of degree 2 at two-sided zero products on triangular algebras

    • Authors: Nurcan Argaç, Hoger Ghahramani

    • Year: 2025 📅

    • Citations: 0 🌟

    • Source: Journal of Algebra 📖

  • Linear mappings like Lie homomorphisms in zero products on a class of locally convex algebras

    • Authors: Hoger Ghahramani, Abbas Zivari-Kazempour

    • Year: 2025 📅

    • Citations: 0 🌟

    • Source: Asian-European Journal of Mathematics 📘

  • On Lie n-centralizers, n-commuting linear maps and related mappings of algebras

    • Author: Hoger Ghahramani

    • Year: 2025 📅

    • Citations: 0 🌟

    • Source: Communications in Algebra 📰

  • Additive maps related to Lie structure on factor von Neumann algebras

    • Authors: Behrooz Fadaee, Hoger Ghahramani

    • Year: 2024 📅

    • Citations: 0 🌟

    • Source: Journal of Analysis 📙

  • Posner’s First Theorem for Prime Modules

    • Authors: Hoger Ghahramani, Mohammad Nader Ghosseiri, Tahereh Rezaei

    • Year: 2024 📅

    • Citations: 0 🌟

    • Source: Khayyam Journal of Mathematics 📑

  • Derivable maps at commutative products on Banach algebras

    • Authors: Abbas Zivari-Kazempour, Hoger Ghahramani

    • Year: 2024 📅

    • Citations: 2 🌱

    • Source: Acta Scientiarum Mathematicarum 🧮

  • On derivations and Jordan derivations through zero products

    • Author: Hoger Ghahramani

    • Year: 2014 📅

    • Citations: 46 🏆

    • Source: Operators and Matrices 📚

  • On centralizers of Banach algebras

    • Author: Hoger Ghahramani

    • Year: 2015 📅

    • Citations: 42 🌟

    • Source: Bulletin of the Malaysian Mathematical Sciences Society 🌏

  • Additive mappings derivable at non-trivial idempotents on Banach algebras

    • Author: Hoger Ghahramani

    • Year: 2012 📅

    • Citations: 37 💡

    • Source: Linear and Multilinear Algebra 🔢

  • Jordan derivations on trivial extensions

    • Author: Hoger Ghahramani

    • Year: 2013 📅

    • Citations: 34 🌟

    • Source: Bulletin of the Iranian Mathematical Society 🌍

  • Characterizing Jordan maps on triangular rings through commutative zero products

    • Author: Hoger Ghahramani

    • Year: 2018 📅

    • Citations: 32 💼

    • Source: Mediterranean Journal of Mathematics 🌊

  • Zero product determined triangular algebras

    • Author: Hoger Ghahramani

    • Year: 2013 📅

    • Citations: 31 ✨

    • Source: Linear and Multilinear Algebra 🔢

  • Linear maps on group algebras determined by the action of the derivations or anti-derivations on a set of orthogonal elements

    • Author: Hoger Ghahramani

    • Year: 2018 📅

    • Citations: 29 🧑‍🔬

    • Source: Results in Mathematics 📈

  • Lie centralizers at zero products on a class of operator algebras

    • Authors: Hoger Ghahramani, W. Jing

    • Year: 2021 📅

    • Citations: 26 💫

    • Source: Annals of Functional Analysis 📔

  • *Linear Maps on -Algebras Behaving like (Anti-)derivations at Orthogonal Elements

    • Authors: Behrooz Fadaee, Hoger Ghahramani

    • Year: 2020 📅

    • Citations: 25 🌟

    • Source: Bulletin of the Malaysian Mathematical Sciences Society 🌏

  • Linear maps on standard operator algebras characterized by action on zero products

    • Authors: A. Barari, B. Fadaee, Hoger Ghahramani

    • Year: 2019 📅

    • Citations: 24 ✨

    • Source: Bulletin of the Iranian Mathematical Society 🧮

  • *Linear maps on -algebras acting on orthogonal elements like derivations or anti-derivations

    • Authors: Hoger Ghahramani, Z. Pan

    • Year: 2018 📅

    • Citations: 23 🧑‍🔬

    • Source: Filomat 📰

  • Additive maps on some operator algebras behaving like (α, β)-derivations or generalized (α, β)-derivations at zero-product elements

    • Author: Hoger Ghahramani

    • Year: 2014 📅

    • Citations: 23 🏅

    • Source: Acta Mathematica Scientia ✍️

  • Lie maps on triangular algebras without assuming unity

    • Authors: R. Behfar, Hoger Ghahramani

    • Year: 2021 📅

    • Citations: 22 🌟

    • Source: Mediterranean Journal of Mathematics 📖

 

Guangdong Zhou | Artificial Intelligence in Mathematics | Best Researcher Award

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Prof. Guangdong Zhou | Artificial Intelligence in Mathematics | Best Researcher Award

Professor at Southwest university, China

Prof. Guangdong Zhou, a distinguished Professor at Southwest University, is a leading researcher in neuromorphic computing systems, focusing on the theory, integration, and evolution of next-generation memory and computational devices. With over 156 journal publications—including papers in Advanced Science, Nano Letters, and Nature Communications—his research has earned over 5,000 citations, an H-index of 24, and five ESI Top 1% Highly Cited Papers. Prof. Zhou has spearheaded 15 research projects, contributed to 20 consultancy initiatives, authored five books, and holds 20 patents. His work on resistive synaptic states in memristors and smart chip integration has advanced the field of artificial intelligence hardware. With a strong publication record and significant innovations bridging academic and industrial domains, he exemplifies research excellence. His achievements position him as a prominent candidate for the Best Researcher Award, reflecting his lasting impact on science, technology, and the future of computing.

Professional Profile

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🎓 Education

Prof. Guangdong Zhou’s academic journey began with a passion for innovation and discovery. He pursued advanced degrees in electronic and information engineering, culminating in a doctorate focused on cutting-edge hardware systems. With a strong foundation in device physics and computational models, he developed a keen interest in merging theory with real-world technology. His formative years were marked by rigorous training in circuits, microelectronics, and algorithmic systems—disciplines that later shaped his breakthrough contributions to neuromorphic computing. Prof. Zhou’s education has been characterized by academic excellence and forward-looking research ambitions, preparing him for a career that blends science with revolutionary thinking. 📘💡

💼 Professional Experience

With a prolific career as a Professor at Southwest University, Prof. Zhou has served as a cornerstone in the fields of nanoelectronics and intelligent systems. He has led over 15 prestigious research projects and collaborated extensively with industries on 20 consultancy ventures. His work is deeply rooted in hands-on experimental design, device modeling, circuit architecture, and algorithm optimization. A guiding mentor, academic leader, and research strategist, he contributes to shaping the next generation of researchers while driving innovation in the post-Moore’s law era. His depth of experience in integrating theory with functional hardware has cemented his role as a visionary academic and a tech pioneer. 🧠🔬

🔍 Research Interest

Prof. Zhou’s research is primarily focused on neuromorphic computing systems—next-gen architectures that emulate human cognition. He explores core devices, theories, and integration processes that power artificial intelligence chips. His discoveries in resistive synaptic states in memristors have opened new avenues for memory-computation fusion, offering solutions that are faster, smarter, and more energy-efficient. His recent breakthroughs in sensor-memory-compute integrated chips represent a step forward for embedded AI. Prof. Zhou’s work blends material science, electrical engineering, and machine learning, propelling the frontier of post-Moore computing technologies. His goal is to create intelligent hardware that bridges human-like cognition and silicon precision. 🤖⚡

🏅 Awards and Honors

Prof. Zhou’s groundbreaking contributions have earned him widespread acclaim. He has published more than 156 journal articles in top-tier publications, including Nature Communications, Nano Letters, and Advanced Science. With over 5,000 citations and five ESI Top 1% Highly Cited Papers, his research is recognized globally for its originality and depth. His patents, innovations, and editorial roles underscore his academic influence and technological foresight. As an author of five published books and holder of 20 patents, Prof. Zhou is widely respected across the academic and industrial spheres. These achievements firmly establish him as a top contender for international recognition such as the Best Researcher Award. 🥇📚

📝 Conclusion

Prof. Guangdong Zhou stands at the confluence of scientific brilliance and technological transformation. His vast expertise in neuromorphic systems, proven leadership in research, and consistent contributions to high-impact innovation highlight his unwavering commitment to progress. A pioneer of the post-Moore computing era, his work addresses today’s digital demands while paving the way for tomorrow’s breakthroughs. With a career adorned by publications, patents, projects, and partnerships, Prof. Zhou exemplifies the essence of a modern research trailblazer. His remarkable journey is not only an inspiration for aspiring scholars but also a beacon for the global research community. 🌐🚀

Publications Top Notes

📘 1. Evolution from CRS to SRS in a Multifunctional Ag/TiO₂@MoO₃/Ti Memristor for Emotional Perception Application

  • 🧑‍🔬 Authors: Jiajia Qin, Bai Sun, Shuangsuo Mao, Yulong Yang, Yong Zhao

  • 📅 Year: 2025

  • 📊 Citations: 0

  • 📰 Source: Applied Materials Today

  • 💡 Theme: Emotional computing with multifunctional memristors 💖

🌟 2. Photoelectric Reservoir Computing Based on TiOx Memristor for Analog Signal Processing

  • 🧑‍🔬 Authors: Zimu Li, Dengshun Gu, Xuesen Xie, Shukai Duan, Guangdong Zhou

  • 📅 Year: 2025

  • 📊 Citations: 0

  • 📰 Source: ACS Applied Nano Materials

  • 💡 Theme: Memristive analog signal computing powered by light 💡🔁

🌱 3. An Organic Artificial Synaptic Memristor for Neuromorphic Computing

  • 🧑‍🔬 Authors: Kaikai Gao, Bai Sun, Bo Yang, Xiaoliang Chen, Jinyou Shao

  • 📅 Year: 2025

  • 📊 Citations: 0

  • 📰 Source: Applied Materials Today

  • 💡 Theme: Bio-inspired computing using organic materials 🧠🌿

🧠 4. Self-Rectifying Switching Memory Based on HfOx/FeOx Semiconductor Heterostructure for Neuromorphic Computing

  • 🧑‍🔬 Authors: Haofeng Ran, Zhijun Ren, Jie Li, Shukai Duan, Guangdong Zhou

  • 📅 Year: 2025

  • 📊 Citations: 1

  • 📰 Source: Advanced Functional Materials

  • 💡 Theme: Efficient and selective memory switching for AI 🧠⚡

💡 5. Polymer Optoelectronic Synapse with Tunable Negative Photoconductance Memory for Sequential Signal Processing

  • 🧑‍🔬 Authors: Zhaohui Yang, Dengshun Gu, Bochang Zhang, Shukai Duan, Guangdong Zhou

  • 📅 Year: 2025

  • 📊 Citations: 0

  • 📰 Source: ACS Applied Electronic Materials

  • 💡 Theme: Light-controllable memory synapses for AI logic 📲🔦

❤️‍🩹 6. TiOx-Based Implantable Memristor for Biomedical Engineering

  • 🧑‍🔬 Authors: Chuan Yang, Hongyan Wang, Zelin Cao, Yong Zhao, Bai Sun

  • 📅 Year: 2025

  • 📊 Citations: 0

  • 📰 Source: ACS Applied Materials and Interfaces

  • 💡 Theme: Future-ready implantables for bio-interfacing tech 🧬🩺

🫁 7. A High-Stability Pressure-Sensitive Implantable Memristor for Pulmonary Hypertension Monitoring

  • 🧑‍🔬 Authors: Zelin Cao, Yiwei Liu, Bai Sun, Jinyou Shao, Sida Qin

  • 📅 Year: 2025

  • 📊 Citations: 5

  • 📰 Source: Advanced Materials

  • 💡 Theme: Real-time pressure detection for advanced health monitoring 🌡️🫁

🧪 8. Investigation of the TaOx Unipolar Switching Memory on High-Efficiency Computing

  • 🧑‍🔬 Authors: Chunrong Du, Xiaoyue Ji, Zhekang Dong, Shukai Duan, Guangdong Zhou

  • 📅 Year: 2025

  • 📊 Citations: 0

  • 📰 Source: Journal of Alloys and Compounds

  • 💡 Theme: Accelerating computing with advanced memory systems 💻⚙️

🔊 9. Flexible Artificial Vision Computing System Based on FeOx Optomemristor for Speech Recognition

  • 🧑‍🔬 Authors: Jie Li, Yue Xin, Bai Sun, Shukai Duan, Guangdong Zhou

  • 📅 Year: 2025

  • 📊 Citations: 1

  • 📰 Source: Journal of Semiconductors

  • 💡 Theme: Bridging vision and sound through flexible AI tech 🎤👁️

 

Hany Ahmed | Numerical Analysis | Best Researcher Award

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Prof. Hany Ahmed | Numerical Analysis | Best Researcher Award

Professor at Faculty of Technology and Education, Helwan University, Egypt

Professor Hany Mostafa Ahmed is a distinguished scholar 🧠 and visionary researcher 🔬 known for his groundbreaking contributions across mathematics and interdisciplinary sciences 🌐. With a remarkable academic journey marked by excellence, innovation, and leadership 🏆, he has significantly advanced the frontiers of applied mathematics, engineering, and computational modeling 💡. His prolific research output, impactful publications 📚, and global collaborations reflect a relentless passion for solving real-world challenges using mathematical insights 🔎. As a dedicated educator 👨‍🏫 and mentor, Professor Ahmed inspires countless students and researchers to push boundaries and think creatively 🚀. His work continues to resonate across academic and industrial spheres, earning him widespread recognition and admiration 🌟. With a deep commitment to innovation, integrity, and scientific progress 🔝, he stands as a beacon of excellence in the international research community 🌍. Professor Ahmed’s legacy is one of brilliance, inspiration, and transformative impact ✨.

Professional Profile 

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📘 Education

Professor Hany Mostafa Ahmed’s academic voyage is a tale of brilliance and perseverance 🌟. He laid his foundational stones in mathematics with distinction 🎓, advancing through rigorous academic institutions that nurtured his analytical spirit and sharpened his problem-solving acumen 🧠. With an unwavering thirst for knowledge, he pursued postgraduate studies with a keen focus on applied mathematics and interdisciplinary science 🔍. Every step of his journey was marked by academic excellence, earning him recognition as a top-performing scholar 🏅. His educational background forms a rich mosaic of theoretical depth and real-world application 📐, enabling him to seamlessly navigate the frontiers of mathematics and engineering. From foundational concepts to complex modeling, his studies have empowered him to make significant strides in research and academia 📊. Professor Ahmed’s educational roots have blossomed into a flourishing tree of knowledge, deeply grounded yet reaching boldly toward the future 🌳🚀.

💼 Professional Experience

Professor Ahmed’s professional path is paved with excellence, innovation, and impact 💼⚙️. With a career spanning esteemed universities and research institutions 🏛️, he has held pivotal roles as a professor, research leader, and mentor 👨‍🏫. His portfolio includes spearheading research projects that bridge theory with transformative real-world applications 🌍🔧. A dynamic contributor to both academia and industry, he has served in advisory and leadership roles, bringing visionary strategies to scientific and technological challenges 🎯. His professional experience reflects not just longevity, but depth—shaped by collaborations across continents and disciplines 🌐. Whether mentoring young scholars or leading cutting-edge initiatives, Professor Ahmed demonstrates an unwavering commitment to excellence and progress 🚀. His presence in conferences, editorial boards, and international panels speaks volumes of his standing in the global academic community 🌟. With every milestone, he leaves behind a legacy of wisdom, curiosity, and forward-thinking innovation 🧭📈.

🔬 Research Interest

Professor Ahmed’s research interests are as vibrant and expansive as a mathematical universe in motion 🌌📊. His intellectual curiosity drives him into the depths of applied mathematics, mathematical modeling, and computational methods 🔢🧮. Passionate about solving complex real-world problems, he integrates disciplines like physics, engineering, and information theory to craft holistic, data-driven solutions 🔄🔍. His innovative mindset has led to pioneering research in nonlinear systems, optimization, and numerical simulation, revealing the hidden structures that govern dynamic systems 🎯🔬. From theoretical frameworks to computational algorithms, his work breathes life into abstract equations and transforms them into practical tools for science and society 🛠️🌍. With a future-forward approach, Professor Ahmed explores intersections between AI, mathematics, and engineering to foster impactful discoveries 🤖📘. His research philosophy combines precision, creativity, and utility—making mathematics not just a subject, but a powerful language of innovation and progress 🧠✨.

🏅 Award and Honor

A trailblazer in his field, Professor Hany Mostafa Ahmed has been decorated with numerous prestigious awards and honors 🏆🎓. These accolades reflect his profound influence on the global research landscape and his unwavering commitment to academic excellence 🌟. Recognized by leading scientific bodies and institutions, his achievements celebrate groundbreaking discoveries, visionary leadership, and unparalleled scholarly contributions 📜🏅. Whether through best-paper recognitions, excellence-in-teaching awards, or international fellowships, his accolades speak volumes of a career that has consistently pushed the boundaries of knowledge 🚀📚. Each award he receives is a testament to the passion and dedication he pours into his research, mentorship, and community engagement 🌍👏. His decorated journey inspires both peers and emerging scholars to strive for greatness, making him not only a recipient of honors but a beacon of excellence in the mathematical sciences 🧭✨. These recognitions form the crown jewels of a legacy still in the making 👑🔝.

Conclusion

Professor Hany Mostafa Ahmed stands tall as a luminary in mathematics and beyond 🌟📐. With an impressive blend of intellect, innovation, and integrity, he continues to illuminate pathways for discovery and impact 🚀📚. His journey from a passionate learner to a globally respected thought leader is a testament to relentless dedication and a visionary mindset 🧠🔥. Whether in the classroom, the lab, or the pages of scholarly journals, his presence leaves a lasting imprint on the minds he mentors and the fields he transforms 🌍💫. A pioneer at heart, Professor Ahmed thrives at the intersections of theory and application, tradition and transformation 🔄🔬. His legacy is not just measured in accolades, but in the countless minds he inspires and the solutions he crafts for a better world 🌱🔧. With every endeavor, he proves that mathematics, when driven by purpose and passion, becomes a force of limitless potential 💡🧮.

 Publications Top Notes

📘 Recent & Noteworthy Publications of Prof. Hany Mostafa Ahmed

  • 🔬 Efficient Spectral Galerkin and Collocation Approaches Using Telephone Polynomials for Solving Some Models of Differential Equations with Convergence Analysis
    👨‍🔬 Authors: R.M. Hafez, H.M. Ahmed, O.M. Alqubori, A.K. Amin, W.M. Abd-Elhameed
    🗓️ Year: 2025 | 🏛️ Journal: Mathematics (Open Access)
    🚀 Highlight: Introduces hybrid spectral techniques with Telephone polynomials—mathematical speed meets precision!

  • ⚙️ New Generalized Jacobi–Galerkin Operational Matrices of Derivatives: An Algorithm for Solving the Time-Fractional Coupled KdV Equations
    👨‍🔬 Author: H.M. Ahmed
    🗓️ Year: 2024 | 🏛️ Journal: Boundary Value Problems
    🔧 Highlight: A solo-authored gem bringing power to fractional calculus using Jacobi polynomial tools!

  • 🧩 Spectral Solutions of Specific Singular Differential Equations Using A Unified Spectral Galerkin-Collocation Algorithm
    👨‍🔬 Authors: H.M. Ahmed, W.M. Abd-Elhameed
    🗓️ Year: 2024 | 🏛️ Journal: Journal of Nonlinear Mathematical Physics
    📈 Citations: 8
    Highlight: Tackles singular equations with a robust algorithm fusion—accuracy meets elegance!

  • 📐 Tau and Galerkin Operational Matrices for Singular and Emden–Fowler Third-Order-Type Equations
    👨‍🔬 Author: W.M. Abd-Elhameed, H.M. Ahmed
    🗓️ Year: 2022 | 🏛️ Journal: Int. J. of Modern Physics C
    📈 Citations: 41
    🔭 Highlight: A solid framework blending operational matrices and singular modeling.

  • 🧮 Recurrences and Explicit Formulae in Series of Bessel Polynomials
    👨‍🔬 Authors: E.H. Doha, H.M. Ahmed
    🗓️ Year: 2004 | 🏛️ Journal: Journal of Physics A: Math & General
    📈 Citations: 34
    🧠 Highlight: A foundational work in spectral expansion methods still referenced decades later!

  • 🌪️ New Fractional Derivative Expression of Shifted Third-Kind Chebyshev Polynomials
    👨‍🔬 Authors: Y.H. Youssri, W.M. Abd-Elhameed, H.M. Ahmed
    🗓️ Year: 2022 | 🏛️ Journal: Journal of Function Spaces
    📈 Citations: 30
    ⚙️ Highlight: Innovative fractional application to pantograph equations—where memory meets mathematics.

  • 🌀 Computational Strategy for Nonlinear Time-Fractional Generalized Kawahara Equation
    👨‍🔬 Authors: H.M. Ahmed, R.M. Hafez, W.M. Abd-Elhameed
    🗓️ Year: 2024 | 🏛️ Journal: Physica Scripta
    📈 Citations: 23
    🎯 Highlight: A dynamic spectral method for high-order nonlinear systems.

  • 📊 Linearization Formulae for Certain Jacobi Polynomials
    👨‍🔬 Authors: W.M. Abd-Elhameed, E.H. Doha, H.M. Ahmed
    🗓️ Year: 2016 | 🏛️ Journal: The Ramanujan Journal
    📈 Citations: 23
    🌀 Highlight: Unlocks Jacobi polynomials for modern applications in spectral methods.

  • 🔎 Explicit Formulae for Integrated Expansions of Laguerre & Hermite Polynomials
    👨‍🔬 Authors: E.H. Doha, H.M. Ahmed, S.I. El-Soubhy
    🗓️ Year: 2009 | 🏛️ Journal: Integral Transforms and Special Functions
    📈 Citations: 23
    🧮 Highlight: A key resource for integral polynomial expansions.

  • 🧱 Coefficients of Differentiated Expansions for Double & Triple Jacobi Polynomials
    👨‍🔬 Authors: E. Doha, W.M. Abd-Elhameed, H. Ahmed
    🗓️ Year: 2012 | 🏛️ Journal: Bulletin of the Iranian Mathematical Society
    📈 Citations: 22
    ⚙️ Highlight: A multi-level polynomial solution structure for complex systems.

  • 🔭 Numerical Solutions for Singular Lane-Emden Equations Using Shifted Chebyshev Polynomials
    👨‍🔬 Author: H.M. Ahmed
    🗓️ Year: 2023 | 🏛️ Journal: Contemporary Mathematics
    📈 Citations: 21
    🔥 Highlight: Elegant solution strategies for astrophysical differential models.

  • 📈 New Generalized Jacobi-Galerkin Operational Matrices for Multi-Term Variable-Order Time-Fractional Diffusion-Wave Equations
    👨‍🔬 Author: H.M. Ahmed
    🗓️ Year: 2024 | 🏛️ Journal: Fractal and Fractional
    📈 Citations: 13
    🌊 Highlight: Wave equations meet variable-order fractional operators—analytical beauty!

  • 🎯 Enhanced Shifted Jacobi Operational Matrices for Fractional Differential Equations
    👨‍🔬 Author: H.M. Ahmed
    🗓️ Year: 2024 | 🏛️ Journal: Boundary Value Problems
    📈 Citations: 8
    🧠 Highlight: Powerful integral tools for both classical and fractional ODEs.

  • 💫 New Shifted Generalized Chebyshev Approach for Multi-Dimensional Sinh-Gordon Equation
    👨‍🔬 Authors: W.M. Abd-Elhameed, H.M. Ahmed, M.A. Zaky, R.M. Hafez
    🗓️ Year: 2024 | 🏛️ Journal: Physica Scripta
    📈 Citations: 8
    🌐 Highlight: Tackles nonlinear multidimensional PDEs with a modern Chebyshev twist.

 

Sara Sadeghi | Mathematical Engineering | Best Researcher Award

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Dr. Sara Sadeghi | Mathematical Engineering | Best Researcher Award

PhD candidate at Isfahan University of Art, Iran

Dr. Sara Sadeghi is a distinguished Ph.D. candidate in Architectural Engineering at the Art University of Isfahan, Iran, with a strong academic foundation built through full scholarships and top student honors across her undergraduate and graduate studies. Her research focuses on the intersection of architectural aesthetics and structural performance, as evidenced by her numerous Q1 and Q2 international journal publications, including works in Elsevier and Springer. With extensive teaching experience at top Iranian universities and practical design roles in residential and urban architecture, she merges academic rigor with professional insight. Dr. Sadeghi has also demonstrated technological fluency through certifications in Python programming, 3D modeling, and sustainable architecture. Her commitment to innovation is reflected in her thesis on qualitative structural performance and her role in R&D for precast construction. A proactive member of professional engineering and scientific communities, she exemplifies leadership, research excellence, and interdisciplinary expertise in architectural engineering.

Professional Profile

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🎓 Education

Dr. Sara Sadeghi’s academic path reflects brilliance, precision, and passion for innovation. 🌟 With a GPA of 3.92, she is currently pursuing her Ph.D. in Architectural Engineering at the prestigious Art University of Isfahan. Her academic journey is rooted in excellence, starting with her Bachelor’s from Ferdowsi University, followed by a Master’s from the Iran University of Science and Technology — both achieved with full scholarships and academic honors. 📚 She earned direct admission into her master’s without an entrance exam due to her outstanding undergraduate performance, showcasing her intellectual sharpness. Her research has consistently revolved around the intersection of architectural beauty and engineering precision, creating a powerful fusion of art and science. Each thesis — from undergraduate to doctoral — is a testament to her passion for sustainable, aesthetic, and structurally intelligent design. 🎯 Her academic milestones are not just educational—they are architectural blueprints of brilliance. 🏛️💡

🏢 Professional Experience

Dr. Sadeghi’s career sparkles with academic and industry synergy! ✨ As an instructor and research assistant at renowned institutions like Ferdowsi University and the Art University of Isfahan, she’s been shaping minds while deepening her research roots. 👩‍🏫 Her role as a TA in both undergraduate and graduate courses reflects a flair for teaching and a heart for mentoring. Parallel to her academic contributions, she has held key industry roles, including being an architectural designer for prestigious projects like Kooh Noor and Dornika Residential Towers in Mashhad. 🏗️ Her experience as R&D Manager at a science-based firm also highlights her aptitude for merging technology with creative vision. With over a decade of architectural engagement, from detailed technical office work to sustainable design consultation, she embodies a rare blend of thinker, maker, and mentor. 💼🧠 Her footprint spans classrooms, conference halls, and construction sites alike — a true architectural force. 🔧🖋️

🔬 Research Interests

Dr. Sadeghi’s research is where creativity meets calculation. 📐💡 Her core interest lies in exploring the qualitative and quantitative performance of architectural structures, especially in spaceframe systems — a niche that fuses mathematical rigor with aesthetic brilliance. 🧩🔍 She is passionate about architectural aesthetics, sustainable design, smart material use, and multi-criteria decision-making methods. Her Ph.D. thesis boldly aims to define a qualitative measurement model for structural performance, offering groundbreaking insights into how architecture can be both expressive and efficient. 🌱💎 With publications in Q1 and Q2 journals like Elsevier and Springer, she’s pushing the boundaries of knowledge with each article. Her toolbelt includes Python programming, AI-informed modeling, and 3D design, reflecting her commitment to technologically-driven, eco-conscious architecture. 💻🌍 From green architecture to fuzzy logic applications, she transforms theories into structural art, redefining how buildings should look and behave. 🏛️🔬

🏆 Awards & Honors

Dr. Sara Sadeghi’s journey is paved with prestigious accolades and shimmering recognition. 🏅✨ From her earliest academic days, she has consistently earned top-tier scholarships from Iran’s leading universities — including Ferdowsi University and Iran University of Science and Technology. 📘 She was honored with straight admission to her master’s program and inducted into the “Talented Students’ Community,” a distinction reserved for academic elites. 🎓🌟 Her achievements don’t stop there. She’s a published author in highly ranked international journals, and her research has been lauded for its innovative methods and real-world application. 🏗️📈 As a certified Professional Engineer, and member of elite scientific and architectural communities, she commands respect in both academic and professional circles. 🧠 Her awards highlight more than merit—they reflect passion, perseverance, and a commitment to excellence that inspires students and peers alike. 🔥👩‍🎓 Her honors speak volumes, echoing her impact across the architectural realm.

🧩 Conclusion

In the architecture of academia and innovation, Dr. Sara Sadeghi is a cornerstone of excellence. 🏛️✨ With a perfect balance of research depth, educational devotion, and professional versatility, she exemplifies what it means to be a forward-thinking, globally minded scholar. 🌍 Her journey from a bright undergraduate to a Ph.D. candidate, author, instructor, and designer is stitched with curiosity, brilliance, and relentless pursuit of knowledge. 📚🔍 Whether analyzing structural performance, teaching aspiring architects, or designing spaces that breathe beauty and purpose, Dr. Sadeghi does it with grace and mastery. 💡 With an eye on the future, and her feet firmly grounded in scientific rigor, she is not only suitable — but eminently deserving — of the Best Researcher Award. 🏆 Her story is still unfolding, but each chapter so far is nothing short of inspiring. 🌟 Let the world watch as she builds the future—one structure, one study, one success at a time. 🧱📖

Publications Top Notes

  • Title: Investigation of Aesthetic Styles in Iranian Architectural Styles
    Authors: S. Sadeghi, A. Ekhlassi, H. Kamelnia
    Year: 2018
    Citation: Sadeghi, S., Ekhlassi, A., & Kamelnia, H. (2018). Investigation of Aesthetic Styles in Iranian Architectural Styles. International Conference of Civil, Architecture and Urban Management, Tehran.
    Source: International Conference of Civil, Architecture and Urban Management, Tehran

  • Title: Analysis of Architectural Aesthetic Principles
    Authors: S. Sadeghi, A. Ekhlassi, H. Kamelnia
    Year: 2016
    Citation: Sadeghi, S., Ekhlassi, A., & Kamelnia, H. (2016). Analysis of Architectural Aesthetic Principles. National Conference in Architecture and Civil, Khajeh Nasir University.
    Source: National Conference in Architecture and Civil, Khajeh Nasir University