Raziyeh Erfanifar | Mathematics | Research Excellence Award

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Dr. Raziyeh Erfanifar | Mathematics | Research Excellence Award

Shahid Beheshti University | Iran

Dr. Raziyeh Erfanifar is a researcher in applied mathematics and computational engineering whose work centers on high-order iterative methods, nonlinear equations, matrix and tensor computations, and their applications in control theory, signal processing, image processing, data mining, and fractional calculus. The research contributions emphasize the development of efficient, inversion-free, and high-convergence iterative algorithms for solving nonlinear systems, algebraic Riccati equations, nonlinear matrix and tensor equations, and computing Moore–Penrose and Drazin inverses. A significant portion of the work advances fixed-point theory, weight-splitting strategies, Newton-type schemes, and parametric multi-step methods, with rigorous convergence analysis and efficiency evaluation. These methods have been successfully applied to problems in electrical engineering, vibration and control systems, differential equations, tensor equations with Einstein products, data whitening, and numerical simulation. The scholarly output includes 36 peer-reviewed journal articles published in leading journals such as Journal of the Franklin Institute, Journal of Complexity, Computational and Applied Mathematics, Circuits, Systems, and Signal Processing, Applied Numerical Mathematics, and Engineering Computations. According to Google Scholar metrics, this body of work has received 274 citations, with an h-index of 11 and an i10-index of 11, reflecting sustained impact and strong visibility in numerical analysis, computational mathematics, and engineering applications.

 

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Featured Publications

Several efficient iterative algorithms for solving nonlinear tensor equation
X + AT*N X−1*N A = I with Einstein product
– Computational and Applied Mathematics, 2024

Splitting iteration methods to solve non-symmetric algebraic Riccati matrix equation
YAY − YB − CY + D = 0
– Numerical Algorithms, 2023

Miraxmat Mirsaburov | Mathematics | Excellence in Research Award

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Mr. Miraxmat Mirsaburov | Mathematics | Excellence in Research Award

Termez State University | Uzbekistan

Mr. Miraxmat Mirsaburov is a mathematician whose research focuses on boundary-value and nonlocal problems for mixed-type and degenerate hyperbolic equations, with particular emphasis on singular coefficients, transmission conditions, and characteristic-based constraints. Across a corpus of 41 documents, his work—which has accrued 81 citations  yields an h-index of 5—systematically develops existence, uniqueness, and formulation results for classes of Gellerstedt-, Tricomi- and Bitsadze–Samarskii–type problems, addressing challenges such as missing Goursat or shift conditions, Frankl and Bitsadze–Samarskii analogues on degeneration segments, and problems posed in unbounded domains. His publications combine rigorous analytical techniques with careful handling of singularities and degeneracy lines, producing solvability theorems and novel transmission conditions that extend classical theory to more physically and geometrically complex settings. Collaborative work with colleagues has produced advances in generalizing the Tricomi problem, treating singular coefficients, and proposing integral and boundary frameworks adaptable to mixed elliptic–hyperbolic regimes. Mirsaburov’s contributions appear in respected journals (including Russian Mathematical Surveys, Differential Equations, and Lobachevskii Journal of Mathematics), and his sustained focus on mixed-type equations has provided useful tools and formulations for researchers addressing applied problems where equation type and coefficient singularities complicate classical approaches.

Profile : Scopus

Featured Publications

Mirsaburov, M., & Mamatmuminov, D. T. (2025). A problem with an analogue of the Bitsadze–Samarskii condition on the segment of degeneracy and an internal segment parallel to it in the domain for a certain class of degenerate hyperbolic equations. Russian Mathematics, 69, 19–23.

Mirsaburov, M., & Turaev, R. N. (2024). On a nonlocal problem for the Gellerstedt equation with singular coefficients. Differential Equations, 60, 1074–1086.

Mirsaburov, M. M., & Allakova, S. I. (2024). An analogue of the Zhegalov problem with data on internal characteristics for a mixed-type equation with a singular coefficient. Lobachevskii Journal of Mathematics, 45, 5637–5648.

Mirsaburov, M., Berdyshev, A. S., Ergasheva, S. B., & Makulbay, A. B. (2024). The problem with the missing Goursat condition at the boundary of the domain for a degenerate hyperbolic equation with a singular coefficient. Bulletin of the Karaganda University: Mathematics Series, 2(114), 147–164.

Mirsaburov, M., & Turaev, R. N. (2023). A problem in an unbounded domain with combined Tricomi and Frankl conditions on one boundary characteristic for one class of mixed-type equations. Russian Mathematics, 67, 34–46.

Mirsaburov, M., & Ergasheva, S. B. (2023). The problem in the unbounded domain with the Frankl condition on the segment of the degeneration line and with a missing Gellerstedt condition for a class of mixed-type equations. Russian Mathematics, 67, 18–26.

Mirsaburov, M., & Khurramov, N. K. (2021). A problem with local and nonlocal conditions on the boundary of the ellipticity domain for a mixed-type equation. Russian Mathematics, 65, 68–81.

V., M., & Islomov, N. B. (2021). Problem with a Bitsadze–Samarskii condition on parallel characteristics for a mixed-type equation of the second kind. Differential Equations, 57, 1358–1371.

Mirsaburov, M., Begaliev, O., & Khurramov, N. K. (2019). Generalization of the Tricomi problem. Differential Equations, 55, 1084–1093.

Mirsaburov, M., & Khurramov, N. (2020). A problem with the Bitsadze–Samarskii condition on the characteristics of one family and with general transmission conditions on the degeneration line for the Gellerstedt equation with a singular coefficient. Differential Equations, 56, 1050–1071.

Mirsaburov, M. (2018). The problem with missing shift condition for the Gellerstedt equation with a singular coefficient. Russian Mathematics, 62, 44–54.

Sergio Manzetti | Mathematics | Best Researcher Award

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Dr. Sergio Manzetti | Mathematics | Best Researcher Award

Linnaeus University | France

Dr. Sergio Manzetti is a distinguished researcher whose interdisciplinary work bridges mathematics, quantum information theory, and nanotechnology. With an h-index of 26, 4,946 citations, and numerous scholarly documents, his research demonstrates both depth and global impact. His expertise spans mathematical analysis, Fourier analysis of partial differential equations (PDEs), quantum chemistry, computational systems, and nonlinear dynamics, contributing significantly to the understanding of quantum systems and wave phenomena. Dr. Manzetti’s academic foundation includes advanced degrees from Uppsala University, Linnaeus University, Queensland University of Technology, and Oslo University College, where he specialized in the mathematical and physical sciences. His professional experience is equally impressive—serving as an EU expert for Marie-Curie Fellowships, AI prompt reviewer at Mercor Intelligence, and researcher at Fjord-Research AS. He has co-authored influential publications in Analysis and Mathematical Physics, Advanced Theory and Simulations, and RSC Advances, addressing topics from eigenvalue problems of non-self-adjoint operators to supersymmetric wave equations and nanomaterial design. Skilled in Python, Mathematica, and MATLAB, Dr. Manzetti combines theoretical rigor with computational precision. His contributions to quantum information systems, rogue wave modeling, and nanotechnology continue to advance interdisciplinary research, positioning him as a leading figure in applied mathematics and theoretical chemistry.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Manzetti, S., & Khrennikov, A. (2025, September 28). Quantum and topological dynamics of GKSL equation in camel-like framework. Entropy.

Manzetti, S. (2025, September 22). Geometric formalism for quantum entanglement via B³ and S⁰ mappings. Preprint.

Manzetti, S., & Khrennikov, A. (2025, July 11). Quantum and topological dynamics of the GKSL equation in the camel-like framework. Preprint.

Kumar, R., Hiremath, K. R., & Manzetti, S. (2024, April). A primer on eigenvalue problems of non-self-adjoint operators. Analysis and Mathematical Physics.

Manzetti, S. (2021). Spectral properties of non-self adjoint operators: A review of the recent literature. Unpublished manuscript.

Kamerlin, N., Delcey, M. G., Manzetti, S., & van der Spoel, D. (2020, August 24). Toward a computational ecotoxicity assay. Journal of Chemical Information and Modeling.

Manzetti, S., & Trounev, A. (2020, January). Analytical solutions for a supersymmetric wave-equation for quasiparticles in a quantum system. Advanced Theory and Simulations.

Manzetti, S. (2020, January). Electromagnetic vorticity in a square-well crystal system described by a supersymmetric wave-equation. Advanced Theory and Simulations.

Ghisi, R., Vamerali, T., & Manzetti, S. (2019). Accumulation of perfluorinated alkyl substances (PFAS) in agricultural plants: A review. Environmental Research.

van der Spoel, D., Manzetti, S., Zhang, H., & Klamt, A. (2019, August 27). Prediction of partition coefficients of environmental toxins using computational chemistry methods. ACS Omega.

Manzetti, S., & Gabriel, J.-C. P. (2019, March 2). Methods for dispersing carbon nanotubes for nanotechnology applications: Liquid nanocrystals, suspensions, polyelectrolytes, colloids and organization control. International Nano Letters.

Manzetti, S., & Trounev, A. (2019, May). Supersymmetric Hamiltonian and vortex formation model in a quantum nonlinear system in an inhomogeneous electromagnetic field. Advanced Theory and Simulations.

Behzadi, H., Manzetti, S., Dargahi, M., Roonasi, P., & Khalilnia, Z. (2018). Application of calculated NMR parameters, aromaticity indices and wavefunction properties for evaluation of corrosion inhibition efficiency of pyrazine inhibitors. Journal of Molecular Structure.

Manzetti, S. (2018). Applied quantum physics for novel quantum computation approaches: An update. Computational Mathematics and Modeling.

Manzetti, S. (2018). Mathematical modeling of rogue waves, a review of conventional and emerging mathematical methods and solutions. Preprint.

Manzetti, S. (2018, November 8). Derivation and numerical analysis of an attenuation operator for non-relativistic waves. Scientific Reports.

Manzetti, S., & Lu, T. (2018, August 20). Addendum: Solvation energies of butylparaben, benzo[a]pyrene diol epoxide, perfluorooctanesulfonic acid, and DEHP in complex with DNA bases. Chemical Research in Toxicology.

Manzetti, S. (2018, June 20). Mathematical modeling of rogue waves: A survey of recent and emerging mathematical methods and solutions. Axioms.

Seyedeh Azadeh Fallah Mortezanejad | Mathematics | Best Researcher Award

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Dr. Seyedeh Azadeh Fallah Mortezanejad | Mathematics | Best Researcher Award

Jiangsu University | China

Author Profile

Scopus

Orcid

Google Scholar

Early Academic Pursuits

Dr. Seyedeh Azadeh Fallah Mortezanejad began her academic journey with a strong foundation in statistics, completing her undergraduate and postgraduate studies at Guilan University, Iran. Her master’s research on semi-parametric estimation of conditional copula reflected her interest in statistical theory and dependence structures. She advanced her academic training with doctoral research at Ferdowsi University of Mashhad, focusing on applications of entropy in statistical quality control, which laid the groundwork for her later interdisciplinary research.

Professional Endeavors

Following her doctoral studies, Dr. Mortezanejad pursued postdoctoral research at Jiangsu University in China, under the guidance of Professor Ruochen Wang. Supported by the National Natural Science Foundation of China, her work explored advanced applications of statistical inference in engineering systems. Her professional engagements span teaching, collaborative research, and presenting at international conferences, reflecting her role as both a researcher and an academic contributor.

Contributions and Research Focus

Her research lies at the intersection of statistics, data science, and engineering. She has significantly contributed to areas such as time series analysis, dependence data, deep learning, and statistical quality control. Her expertise in copula functions and entropy has enabled novel methods for addressing challenges in multivariate data analysis and control charts. More recently, her work integrates machine learning and physics-informed neural networks for solving complex problems in multivariate time series and image processing.

Accolades and Recognition

Dr. Mortezanejad’s scholarly contributions have been recognized through numerous publications in leading journals, including Entropy, Sankhya B, and Physica A. She has been invited to present her findings at international workshops in Germany, France, Vietnam, and Spain, underscoring her recognition in global research communities. Her role as a reviewer for reputed journals and conferences further reflects her professional standing in the field.

Impact and Influence

Through her interdisciplinary research, Dr. Mortezanejad has bridged the gap between theoretical statistics and practical applications in fields such as healthcare, engineering, and financial modeling. Her contributions to statistical quality control, machine learning applications, and Bayesian inference have influenced both academic discourse and applied research, making her work relevant across diverse scientific domains.

Legacy and Future Contributions

With her strong background in both theoretical and applied statistics, Dr. Mortezanejad is poised to continue advancing research in modern statistical methods, particularly in integrating entropy-based approaches with machine learning. Her future work is expected to focus on enhancing predictive analytics, developing robust statistical tools for big data, and contributing to sustainable innovations in engineering and healthcare.

Publications

Article: Physics-Informed Neural Networks with Unknown Partial Differential Equations: An Application in Multivariate Time Series
Authors: Seyedeh Azadeh Fallah Mortezanejad, Ruochen Wang, Ali Mohammad-Djafari
Journal: Entropy
Year: 2025

Article: Variational Bayesian Approximation (VBA): Implementation and Comparison of Different Optimization Algorithms
Authors: Seyedeh Azadeh Fallah Mortezanejad, Ali Mohammad-Djafari
Journal: Entropy
Year: 2024

Article: Variational Bayesian Approximation (VBA) with Exponential Families and Covariance Estimation
Authors: Seyedeh Azadeh Fallah Mortezanejad, Ali Mohammad-Djafari
Journal: Physical Sciences Forum
Year: 2023

Article: Variational Bayesian Approximation (VBA): A Comparison between Three Optimization Algorithms
Authors: Seyedeh Azadeh Fallah Mortezanejad, Ali Mohammad-Djafari
Journal/Conference: MaxEnt 2022 (Conference Proceedings)
Year: 2023

Article: Evaluation of Anti-lice Topical Lotion of Ozonated Olive Oil and Comparison of its Effect with Permethrin Shampoo
Authors: Omid Rajabi, Atoosa Haghighizadeh, Seyedeh Azadeh Fallah Mortezanejad, Saba Dadpour
Journal: Reviews on Recent Clinical Trials
Year: 2022

Conclusion

Dr. Seyedeh Azadeh Fallah Mortezanejad’s career reflects a rare blend of statistical rigor, innovative application, and international recognition. Her early commitment to statistical theory, coupled with her interdisciplinary contributions, has positioned her as a rising figure in applied statistics and data science. With her expanding research footprint, she is set to leave a lasting impact on statistical research and its applications in science, technology, and industry.

Qiuping Li | Mathematics | Best Researcher Award

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Dr. Qiuping Li | Mathematics | Best Researcher Award

Gansu University of Political Science and Law | China

Author Profile

Orcid

Early Academic Pursuits 🎓

Dr. Qiuping Li embarked on his academic journey with a Bachelor of Science in Information and Computational Science from Jilin University, where he developed a strong foundation in mathematical modeling and computational analysis. His passion for theoretical mathematics led him to pursue a Ph.D. in Applied Mathematics at the Academy of Mathematics and Systems Science, Chinese Academy of Sciences in Beijing. During this time, he honed his expertise in graph theory, delving into its complex structures and applications.

Professional Endeavors 🏛️

As a dedicated academic, Dr. Li has held key positions in prestigious institutions. He served as a lecturer at the School of Computer Science and Technology at Hengyang Normal University from 2018 to 2024, where he mentored aspiring mathematicians and contributed significantly to research in graph theory and cryptography. In 2025, he transitioned to the School of Cyber Security at Gansu University of Political Science and Law, focusing on integrating graph theory with network security, reinforcing his role as a leading researcher in these domains.

Contributions and Research Focus 🔬

Dr. Li's research spans several critical areas, including graph theory, network security, and cryptographic algorithms. His work on graph energy, order-energetic graphs, and lightweight cryptography has provided valuable insights into mathematical structures and their real-world applications. His contributions to the field are reflected in multiple SCI-indexed publications, including his studies on infinite classes of L-borderenergetic graphs and graph energy changes due to edge deletion. His research has enhanced the understanding of structural properties in computational chemistry and network systems.

Accolades and Recognition 🏆

Dr. Li’s groundbreaking research has earned him recognition in the academic community. His publications in prestigious journals such as MATCH Communications in Mathematical and Computer Chemistry have been widely cited and referenced by fellow researchers. His expertise in cryptography has also led to the development of novel block cipher algorithms, with several patents granted for innovative encryption methodologies. His contributions to lightweight block ciphers have positioned him as a thought leader in secure communication technologies.

Impact and Influence 🌍

Beyond academia, Dr. Li’s research has profound implications for cybersecurity and mathematical modeling. His advancements in graph theory contribute to network security by optimizing encryption methods, ensuring more robust data protection. His patented cryptographic algorithms offer practical solutions for secure digital communication, addressing modern challenges in information security. Through his teachings and mentorship, he continues to inspire the next generation of researchers, fostering a new wave of innovation in applied mathematics and cryptography.

Legacy and Future Contributions 🔮

Dr. Qiuping Li’s legacy is defined by his relentless pursuit of knowledge and his commitment to advancing mathematical research. His work in graph theory and cryptography will continue to influence academic discourse and practical applications in cybersecurity. As he progresses in his career, he is poised to further bridge the gap between theoretical mathematics and real-world problem-solving, paving the way for new breakthroughs in secure systems and network analysis. His dedication to research and education ensures that his contributions will leave a lasting imprint on both academia and industry.

Publications

  • 📄 A New Family of Multipartition Graph Operations and Its Applications in Constructing Several Special Graphs

    • Authors: Qiuping Li, Liangwen Tang, Qingyun Liu, Mugang Lin

    • Journal: Symmetry

    • Year: 2025

  • 📄 Infinite Numbers of Infinite Classes of L-Borderenergetic Graphs

    • Authors: Qiuping Li, Liangwen Tang

    • Journal: MATCH Communications in Mathematical and Computer Chemistry

    • Year: 2023

  • 📄 Construction of Order-Energetic Graphs

    • Authors: Qiuping Li, Liangwen Tang, Qingyun Liu, Mugang Lin

    • Journal: MATCH Communications in Mathematical and Computer Chemistry

    • Year: 2024

  • 📄 Graph Energy Change on Edge Deletion

    • Authors: Liangwen Tang, Mugang Lin, Qiuping Li

    • Journal: MATCH Communications in Mathematical and Computer Chemistry

    • Year: 2023

  • 📄 Lightweight Block Ciphers

    • Authors: Li Lang, Li Qiuping

    • Publisher: Huazhong University of Science and Technology Press

    • Year: 2020

 

Qi Han | Mathematics | Best Researcher Award

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Mr. Qi Han | Mathematics | Best Researcher Award

Northwest Normal University | China

Author Profile

Scopus

Orcid

Early Academic Pursuits 🏫🔬

Mr. Qi Han has dedicated his academic career to the study of quantum stochastic analysis and its applications. His early research laid the foundation for groundbreaking contributions in quantum information science, probability theory, and financial modeling.

Professional Endeavors 💼🧠

As a committed researcher, Mr. Qi Han has pioneered the development of local quantum entropy, local quantum conditional entropy, local quantum mutual entropy, and local quantum joint entropy. His work extends to the exploration of quantum mutual information in multi-body quantum systems, significantly enriching the field of quantum probability. Mr. Han has also applied quantum probability theories to quantum random walks on various graphs, including cyclic graphs, integer lattices, 2D lattices, and hypercubes. His research delves into hitting time, mixing time, and multi-particle quantum walks on graphene graphs and 2D lattices, advancing quantum computing methodologies. Additionally, he has contributed to quantum finance, innovatively integrating quantum random walk theories into the binomial model for option pricing. His novel approach facilitates more precise modeling of asset price dynamics, leading to the quantization of continuous-time stochastic processes. His research has introduced a new method for pricing European options, transforming the problem into one of quantum amplitude estimation within continuous-time quantum stochastic processes, thereby improving the accuracy of option pricing.

Contributions and Research Focus 🔍🧑‍🏫

Mr. Qi Han has made significant contributions to academia, with over 50 research publications in esteemed journals. As a first author and corresponding author, he has published over 30 papers in leading SCI journals, including:

  • Journal of Statistical Physics
  • Reviews in Mathematical Physics
  • EPL
  • Physics Letters A
  • Quantum Information Processing
  • Physica Scripta

He currently leads a National Natural Science Foundation project and participates in another national-level project. Additionally, he is the principal investigator for a Provincial Natural Science Foundation project, a Provincial Science and Technology Association Talent Program project, and an Education Department Innovation project. Beyond research, Mr. Han has authored three independent textbooks, further cementing his role as a key contributor to quantum studies.

Accolades and Recognition 🏆✨

Mr. Qi Han is widely respected for his expertise and scholarly contributions. He serves as a reviewer for Mathematical Reviews and is an esteemed peer reviewer for multiple international journals, including:

  • Computational Economics
  • Intelligent Computing
  • New Journal of Physics
  • Acta Mathematica Sinica
  • Journal of Mathematical Physics
  • Acta Applicandae Mathematicae

Impact and Influence 🌍🔗

His extensive research on quantum probability and quantum finance has bridged the gap between theoretical advancements and real-world applications. His methodologies in quantum computing, financial modeling, and quantum information processing have paved the way for further interdisciplinary research.

Legacy and Future Contributions 🚀📈

With a firm foothold in quantum stochastic processes and finance, Mr. Qi Han continues to explore new frontiers in quantum computing, quantum finance, and information theory. His work is expected to influence future research in quantum technology applications across multiple disciplines. His textbooks and research publications will serve as invaluable resources for upcoming scholars and professionals in the field. Mr. Han’s dedication to quantum sciences ensures that his legacy will be a cornerstone in the development of next-generation computational models and financial analysis tools.

Publications

  • 📄Quantum capacity of quantum channels with localization characteristics

    • Journal: Chinese Journal of Physics
    • Year: 2025
    • Authors: Qi Han, Shuai Wang, Lijie Gou, Rong Zhang

  • 📄Quantum walk option pricing model based on binary tree

    • Journal: Physica A: Statistical Mechanics and its Applications
    • Year: 2025
    • Authors: Qi Han, Xuan Song

  • 📄Dynamics of quantum coherence and correlations in a transverse Ising spin chain environment

    • Journal: International Journal of Modern Physics B
    • Year: 2024
    • Authors: Qi Han, Huan Wang, Shuai Wang, Lijie Gou, Rong Zhang

  • 📄Quantum state transfer between cells and binary tree model

    • Journal: Physics Letters A
    • Year: 2024
    • Authors: Qi Han, Ning Bai

  • 📄Quantum conditional entropy and classical-quantum conditional entropy with localization characteristics

    • Journal: Physica Scripta
    • Year: 2024
    • Authors: Qi Han, Shuai Wang, Lijie Gou, Rong Zhang

 

Sana Habib | Mathematics | Best Researcher Award

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Dr. Sana Habib | Mathematics | Best Researcher Award

Shaanxi Normal Unversity | China

Author Profile

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Google Scholar

Early Academic Pursuits 📚✨

Dr. Sana Habib's academic journey began with a Master's in Mathematics from the School of Mathematics and Statistics, University of Punjab, Lahore, Pakistan, in 2014. Her keen interest in the mathematical sciences led her to pursue a Ph.D. in Mathematics at Northwestern Polytechnical University, Xi'an, China, which she completed in 2020. Supported by a prestigious Chinese Government Scholarship (CSC) and research funding for five years, she participated in international workshops like the one at Tsinghua University in Sanya, China, further honing her expertise in advanced mathematical concepts.

Professional Endeavors 🏢🔍

Dr. Habib embarked on a dynamic career in academia and research, serving as an Assistant Professor and Research Coordinator at Sir Syed CASE Institute of Technology, Islamabad, Pakistan, from 2021 to 2023. In this role, she supervised master's students, coordinated impactful research projects, and taught advanced topics such as algebra and fuzzy set theory. Currently, she is a Postdoctoral Fellow at Shaanxi Normal University, Xi'an, China, where she conducts advanced research on possibility multi-fuzzy soft ordered semigroups and their applications in decision sciences while collaborating with international research teams.

Contributions and Research Focus 🔬📖

A prolific researcher, Dr. Habib has made significant contributions to pure and applied mathematics, particularly in ordered semigroups, fuzzy set theory, and Multi-Criteria Decision-Making (MCDM). Her groundbreaking work includes innovative approaches to possibility fuzzy soft ordered semigroups and their applications. Her research articles have been widely recognized, addressing topics such as multi-propositions logic, hybrid optimization for electric vehicle infrastructure, and theoretical advancements in mathematical frameworks.

Accolades and Recognition 🏆🌟

Dr. Habib's achievements have been acknowledged through numerous honors, including the Chinese Government Scholarship for her doctoral studies and recognition as an approved supervisor for Master's and Ph.D. programs by Pakistan's Higher Education Commission (HEC). Her academic excellence and professional impact have positioned her as a leading voice in mathematics and decision sciences.

Impact and Influence 🌍💡

Through her teaching and research, Dr. Habib has influenced countless students and peers. Her collaborative international projects and extensive publication record in SCI journals reflect her dedication to advancing mathematical knowledge and its practical applications. By addressing complex mathematical problems with innovative solutions, she continues to contribute meaningfully to academia and industry.

Legacy and Future Contributions 🚀🌠

With a proven track record of excellence and a commitment to fostering innovation, Dr. Sana Habib is poised to leave an enduring legacy in mathematics. Her future endeavors aim to deepen the understanding of fuzzy set theory and ordered semigroups while exploring their applications in emerging fields. As a dedicated educator and researcher, her work promises to inspire and shape the next generation of mathematicians.

 

Publications

📖 Exploring the Structure of Possibility Multi-Fuzzy Soft Ordered Semigroups Through Interior Ideals
 Authors: Sana Habib, Kashif Habib, Violeta Leoreanu-Fotea, Faiz Muhammad Khan
Journal: Mathematics
Year: 2025

📖 A Hybrid Optimization Approach for Strategically Placing Electric Vehicle Charging Stations in a Radial Distribution IEEE-33 Bus System
Authors: K. Habib, S. Habib, S. Khan, A. Jafaripournimchahi, X. Xing
Journal: Engineering Research Express
Year: 2024

📖 An Experimental Study of Classical Truth Logic on Multi-Propositions Consistent and Incompatible: Dual-Process Theories and Modal Syllogistic of Deduction
 Authors: S. Waheed, A. Waheed, S. Habib
 Journal: PLOS ONE
 Year: 2024

📖 A Progressive Outlook on Possibility Multi-Fuzzy Soft Ordered Semigroups: Theory and Analysis
 Authors: S. Habib, F. M. Khan, V. Leoreanu-Fotea
Journal: Axioms
Year: 2024

📖 A Truth Logic of Modalities Consistent and Incompatible: A Computational Program and Experimental Studies Among College Students
 Authors: S. Waheed, M. Wang, A. Waheed, S. Habib
 Journal: Journal of Tertiary Education and Learning
 Year: 2023

 

Okechukwu Obulezi | Mathematics | Editorial Board Member

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Dr. Okechukwu Obulezi | Mathematics | Editorial Board Member

Nnamdi Azikiwe University | Nigeria

Author Profile

Scopus

Orcid

🎓 Early Academic Pursuits

Dr. Okechukwu Obulezi began his academic journey with a focus on statistical sciences, obtaining an ND in Statistics from Abia State Polytechnic in 2006. Driven by his passion, he continued with an HND in Statistics from the same institution, culminating in a strong foundation in quantitative analysis and data interpretation. Pursuing higher learning, he completed a PGD in Statistics at Nnamdi Azikiwe University in 2012, with a thesis on the "Discriminant Analysis of the Nigerian Fixed Assets." His master's thesis focused on "BIC-Based Relative Influence Measure for Outlier Detection and Variable Selection in Regression Analysis," setting the stage for his current Ph.D. in Statistics, where he explores complex statistical methods for predictive and analytical modeling.

💼 Professional Endeavors

Dr. Obulezi’s professional career spans several academic roles, starting as an Instructor at Abia State Polytechnic in 2011, where he advanced to Senior Instructor by 2015. In 2019, he joined Nnamdi Azikiwe University as an Assistant Lecturer in the Statistics Department, quickly progressing to Lecturer II and then Lecturer I by 2023. His responsibilities include teaching specialized courses such as Biostatistics, Statistical Methods, Probability Theory, and Matrix Algebra, where he imparts knowledge to the next generation of statisticians. Beyond teaching, he plays critical roles in advising undergraduates, coordinating seminars and projects, and contributing to departmental committees, such as the Faculty ICT Committee and Faculty Repair and Maintenance Committee.

🔬 Contributions and Research Focus

Dr. Obulezi’s research interests lie at the intersection of probability distributions, machine learning, and statistical modeling, with applications in survival analysis, acceptance sampling, and censored data analysis. His contributions to these fields include publications in high-impact journals, focusing on new statistical models for various real-world applications. Some of his significant research includes new distribution models for engineering, biomedical, and environmental data, optimization of GARCH models for financial volatility, and innovative sampling plans for reliability testing. His publications reflect his commitment to advancing the fields of statistics and machine learning by creating robust, practical solutions for complex data challenges.

🏆 Accolades and Recognition

Dr. Obulezi has earned recognition for his academic and research excellence, serving as a reviewer for several prestigious journals, such as Cogent Engineering, Scientific African, and Alexandria Engineering Journal. His expertise has also led him to contribute as a reviewer for academic book chapters, particularly in mathematical and computer science research. This engagement underscores his prominence as a thought leader in the statistical community and highlights the respect he commands among peers for his critical insights and expertise.

🌍 Impact and Influence

Dr. Obulezi's work in developing statistical models and distributions has had a significant impact, particularly in the areas of biomedicine, engineering, and environmental science. His innovative methodologies have helped refine statistical tools for better data analysis, contributing to improved outcomes in public health research, environmental risk assessment, and financial risk management. His influence also extends to mentoring students and collaborating with other academics, which enriches the statistical field and inspires the next generation of statisticians.

🔮 Legacy and Future Contributions

Looking forward, Dr. Obulezi aims to further his research in advanced statistical modeling, focusing on machine learning applications and data-driven decision-making in complex fields. His commitment to exploring new statistical approaches for big data and predictive analysis places him at the forefront of his field, positioning him to make enduring contributions that will drive innovation in statistical methodologies and applications for years to come.

 

Publications

  • 📄 Parameter estimation for reduced Type-I Heavy-Tailed Weibull distribution under progressive Type-II censoring scheme
  • Authors: Prakash, A., Maurya, R.K., Alsadat, N., Obulezi, O.J.
  • Journal: Alexandria Engineering Journal
  • Year: 2024
  • 📄 Sine generalized family of distributions: Properties, estimation, simulations and applications
  • Authors: Oramulu, D.O., Alsadat, N., Kumar, A., Bahloul, M.M., Obulezi, O.J.
  • Journal: Alexandria Engineering Journal
  • Year: 2024
  • 📄 A more flexible Lomax distribution: Characterization, estimation, group acceptance sampling plan and applications
  • Authors: Ekemezie, D.-F.N., Alghamdi, F.M., Aljohani, H.M., El-Raouf, M.M.A., Obulezi, O.J.
  • Journal: Alexandria Engineering Journal
  • Year: 2024
  • 📄 A new extension of Burr-Hatke exponential distribution with engineering and biomedical applications
  • Authors: Anyiam, K.E., Alghamdi, F.M., Nwaigwe, C.C., Aljohani, H.M., Obulezi, O.J.
  • Journal: Heliyon
  • Year: 2024
  • 📄 Group acceptance sampling plan based on truncated life tests for Type-I heavy-tailed Rayleigh distribution
  • Authors: Nwankwo, M.P., Alsadat, N., Kumar, A., Bahloul, M.M., Obulezi, O.J.
  • Journal: Heliyon
  • Year: 2024

 

Massimo Bertaccini | Computer Science | Best Innovation Award

Published on by Book of Award

Dr. Massimo Bertaccini | Computer Science | Best Innovation Award

Cryptolab Inc | United States

Author Profile

Google Scholar

Early Academic Pursuits 🎓

Dr. Massimo Bertaccini's journey into cryptography and cybersecurity began with a strong foundation in finance and mathematics. He obtained his Bachelor’s degree in Science of Finance from the University of Bologna, where he developed an early interest in computational finance and its applications. This passion led him to pursue a Ph.D. in Mathematics and Computational Finance, further honing his skills in cryptographic algorithms and secure data management techniques. Through advanced studies, he acquired a robust technical background that later shaped his career in cyber innovation and cryptographic research.

Professional Endeavors 🚀

Dr. Bertaccini has made significant strides in the field of cryptography. In 2009, he founded Cryptolab, a research laboratory focused on pioneering solutions in cryptography, blockchain, and cybersecurity. His innovative leadership at Cryptolab attracted substantial financial backing from private investors, international venture capitalists, and the European Union. Under his guidance, Cryptolab earned recognition as one of the best cybersecurity start-ups in California in 2023. Dr. Bertaccini also served as CEO for PrimeCash, contributing to his reputation as an expert in both cybersecurity and cryptographic finance. His experience includes consulting in finance and security, holding academic roles, and serving as a contract professor at EMUNI University and a lecturer in national cybersecurity programs.

Contributions and Research Focus 📚

Throughout his career, Dr. Bertaccini has focused on advancements in cryptographic algorithms and secure data systems. His groundbreaking work led to the development of the first Homomorphic Crypto-Searching-Engine (CSE), a revolutionary tool that allows encrypted data to be searched without compromising security or privacy. His research interests encompass areas such as symmetric and asymmetric encryption, blockchain, zero-knowledge protocols, and quantum cryptography. He holds several patents, including those in homomorphic encryption, zero-knowledge protocols, and innovative brain-wave authentication technologies. In addition, he is a published author of numerous scientific articles and has written the popular book Cryptography Algorithms, which has been widely recognized in cryptographic literature.

Accolades and Recognition 🏆

Dr. Bertaccini’s pioneering contributions have been celebrated globally. His book Cryptography Algorithms became a #1 bestseller on Amazon Worldwide in 2022, staying in the top 10 for cryptography literature for 40 weeks. He has received numerous prestigious awards, including the "Inventors of Silicon Valley" award by the U.S. Patent and Trademark Office in 2016 and the "Seal of Excellence" by Horizon 2020 in 2017, 2018, and 2019. In 2023, he was honored with the American Innovation Prize by the Italian-American Foundation, further cementing his status as a leading figure in the field.

Impact and Influence 🌐

Dr. Bertaccini has had a profound impact on the fields of cybersecurity and cryptography. His innovations have set new standards for data security, influencing policies on GDPR compliance and data privacy. His Homomorphic Crypto-Searching-Engine has inspired advancements in data encryption, particularly for GDPR-compliant technologies. Through his international speaking engagements at conferences like CES Las Vegas, he has shared his insights on cybersecurity trends and cryptographic solutions, shaping the future of data security practices. His work has also contributed to building resilient infrastructure for smart cities and secure digital frameworks.

Legacy and Future Contributions 🔮

Looking to the future, Dr. Bertaccini’s vision continues to push the boundaries of cybersecurity and cryptographic applications. His upcoming project, Brain_Waves, is a neural interface designed to authenticate users through brainwave recognition, a groundbreaking step in neural cryptography. His legacy will likely endure through both his published works and the widespread adoption of his cryptographic patents. Dr. Bertaccini remains dedicated to advancing cybersecurity, blockchain, and cryptographic innovations, setting a lasting example for future generations of researchers and cybersecurity professionals.

 

Publications

📘 Cryptography Algorithms 2nd Edition: Explore New Algorithms in Zero-Knowledge, Homomorphic Encryption, and Quantum Cryptography

Author: M. Bertaccini
Publisher: Packt Publishing Ltd
Year: 2024

📘 An Introduction to a New Lightweight Encryption Algorithm: Cybpher

Author: JW Massimo Bertaccini Ph.D.
Publication: Cryptography Algorithms 2nd Edition
Year: 2023

📘 Cryptography Algorithms: A Guide to Algorithms in Blockchain, Quantum Cryptography, Zero-Knowledge Protocols, and Homomorphic Encryption

Author: M. Bertaccini
Publisher: Packt Publishing Ltd
Year: 2022

 

Megha Varshney | Mathematics | Best Researcher Award

Published on by Book of Award

Ms. Megha Varshney | Mathematics | Best Researcher Award

Dr. APJ Abdul Kalam Technical University | India

Author profile

Orcid

Google Scholar

Early Academic Pursuits 🎓

Ms. Megha Varshney’s academic journey began with a strong foundation in mathematics and science. She completed her Bachelor of Science from SM Degree College, Chandausi, District Sambhal, U.P., with a focus on Physics, Chemistry, and Mathematics, achieving a percentage of 74.07%. She further pursued her Master of Science in Pure Mathematics at Banasthali Vidyapith, Tonk, Rajasthan, where she graduated with a CGPA of 8.03. Her intermediate studies, which secured her 1st rank in her district and a Gold Medal, and her high school education, demonstrate her consistent academic excellence from an early age.

Professional Endeavors 💼

Ms. Varshney has been engaged in various roles that highlight her versatility and dedication. As a Research Scholar at Dr. APJ Abdul Kalam Technical University, Lucknow, she has made significant strides in her research, focusing on optimization and nature-inspired metaheuristic algorithms. Her research achievements include publishing articles in SCIE journals, contributing book chapters, and presenting at both national and international conferences. Her role as a Guest Faculty Assistant Professor at SM Degree College allowed her to develop and implement innovative teaching methods, enhancing student engagement and learning outcomes.

Contributions and Research Focus 🔬

Ms. Varshney's research contributions are centered around optimization techniques and metaheuristic algorithms. Notable works include her publications on the hybridization of algorithms, structural engineering problems, and advanced optimization methods. Her research has been showcased in various prestigious journals and conferences, reflecting her commitment to advancing the field of computational mathematics and optimization.

Accolades and Recognition 🏅

Her academic excellence has been recognized through several accolades, including a Certificate of Excellence in Academics awarded by the Chief Minister of Uttar Pradesh in 2013 and securing 1st rank in her district's intermediate examination. Additionally, she is a GATE Qualified candidate with a rank of AIR-339 and a score of 544.

Impact and Influence 🌟

Ms. Varshney's impact extends beyond her research through her innovative teaching methods and curriculum development at SM Degree College. Her contributions to the field of optimization and computational mathematics have influenced both academic circles and practical applications in structural engineering and algorithm development.

Legacy and Future Contributions 🔮

Looking ahead, Ms. Varshney is poised to continue her impactful research and teaching career. Her focus on nature-inspired algorithms and optimization techniques positions her as a leading figure in her field. Her dedication to both research and education ensures that her future contributions will likely advance the boundaries of computational mathematics and inspire future scholars and practitioners.

 

Publications

  • 📄Dynamic Random Walk and Dynamic Opposition Learning for Improving Aquila Optimizer: Solving Constrained Engineering Design Problems
    • Journal: Biomimetics
    • Year: 2024
    • Authors: Megha Varshney, Pravesh Kumar, Musrrat Ali, Yonis Gulzar
  • 📄Using the Grey Wolf Aquila Synergistic Algorithm for Design Problems in Structural Engineering
    • Journal: Biomimetics
    • Year: 2024
    • Authors: Megha Varshney, Pravesh Kumar, Musrrat Ali, Yonis Gulzar