Zammad Ali | Analysis (Real, Complex, Functional) | Best Researcher Award

Posted on by sciencefather

Dr. Zammad Ali | Analysis (Real, Complex, Functional) | Best Researcher Award

Researcher at Bahauddin Zakariya University, Pakistan

Zammad Ali is an emerging researcher in applied mathematics, specializing in convex analysis, fractional calculus, and information sciences. He holds an MPhil in Mathematics from Bahauddin Zakariya University, Pakistan, with expertise in computational geometry, integral inequalities, and machine learning applications. His research contributions include multiple publications in high-impact journals, focusing on generalized convex functions, fractional integral inequalities, and their applications in entropy and information science. Proficient in Mathematica, MATLAB, and Python, he integrates computational tools to solve complex mathematical problems. His international collaborations with researchers from China and Japan highlight his growing academic presence. While his work demonstrates innovation and relevance, expanding his research impact through higher citation counts, interdisciplinary applications, and independent projects will further strengthen his profile. With continued contributions and leadership in mathematical research, Zammad Ali is well-positioned to make significant advancements in applied mathematics and information sciences.

Professional Profile 

Google Scholar

ORCID Profile

Education

Zammad Ali holds an MPhil in Mathematics from Bahauddin Zakariya University (BZU), Multan, Pakistan, completed between 2021 and 2023 with a CGPA of 3.30 out of 4.0. His academic focus during this period included Computational Geometry, Calculus on Time Scales, Advanced Linear Algebra, Integral Inequalities, and applications in Machine Learning and Data Science. Prior to this, he earned a Bachelor’s degree in Mathematics from the University of Education (UE), Lahore, Pakistan, from 2017 to 2021, achieving a CGPA of 3.39 out of 4.0. His undergraduate studies encompassed Mathematical Methods of Physics, Mathematical Statistics, Complex Analysis, Calculus, Differential Geometry, Linear Algebra, Real Analysis, and Ordinary Differential Equations. With a strong foundation in both pure and applied mathematics, his educational background supports his research interests in convex analysis, integral inequalities, and fractional calculus. His coursework and research reflect a blend of theoretical and computational mathematics, equipping him with diverse analytical and problem-solving skills.

Professional Experience

Zammad Ali has developed strong technical and research expertise throughout his academic journey, contributing to advanced mathematical research. Although he has not held formal academic or industry positions, his professional experience primarily lies in his research contributions and collaborations with esteemed scholars. His proficiency in computational tools like Mathematica, MATLAB, Python, and MS Office enhances his analytical capabilities. He has actively participated in mathematical research, working under the supervision of experienced professors such as Dr. Asfand Fahad and Dr. Awais Younus. His research engagements involve solving complex mathematical problems related to convex functions, integral inequalities, and fractional calculus. His publications in high-impact journals highlight his ability to contribute to contemporary mathematical advancements. While he is at an early stage of his professional career, his expertise and research collaborations position him as a promising mathematician with potential for future academic and industrial contributions.

Research Interest

Zammad Ali’s research interests focus on mathematical analysis, particularly in convex functions, integral inequalities, and fractional calculus. His work explores the properties of generalized convex functions and their applications in information sciences. He is particularly interested in geometrically arithmetically convex functions, Hermite–Hadamard–Mercer inequalities, and fractional integral operators. His research integrates theoretical mathematics with computational approaches, allowing for the development of new mathematical inequalities and their applications in various scientific domains. He has contributed to studies on entropy, information systems, and mean inequalities, demonstrating the practical relevance of his research. His growing interest in machine learning and data science suggests potential interdisciplinary applications of his mathematical expertise in optimization problems, artificial intelligence, and statistical modeling. Through his contributions, he aims to advance the field of applied mathematics, developing innovative methods that bridge pure mathematical theories with real-world applications.

Awards and Honors

Zammad Ali has made significant contributions to mathematical research, publishing in well-regarded journals such as Information Sciences, Alexandria Engineering Journal, and Fractal and Fractional. While he has not yet received formal awards or honors, his scholarly impact is evident through his collaborations with international researchers and his contributions to the field of fractional calculus and integral inequalities. His publications are gaining recognition, with citations reflecting the influence of his work within the academic community. As his research progresses, he is well-positioned to receive prestigious awards and grants for his contributions to mathematical sciences. His potential for future recognition is strong, given his consistent engagement in high-level mathematical research. With further experience, his work is expected to attract broader academic and industrial recognition, establishing him as a leading researcher in applied mathematics.

Conclusion

Zammad Ali is an emerging researcher in mathematics, specializing in convex analysis, fractional calculus, and integral inequalities. His academic journey, marked by strong theoretical foundations and computational expertise, has led to impactful research contributions. His ability to collaborate with international scholars and publish in high-impact journals demonstrates his potential as a mathematician. While he is in the early stages of his research career, his growing influence in the field suggests a promising future. With further experience and recognition, he is likely to make substantial contributions to mathematical sciences, bridging theoretical advancements with practical applications. His dedication to research and continuous learning sets the foundation for a successful academic and professional career.

Publications Top Noted

  • Title: Exploring properties and inequalities for geometrically arithmetically-Cr-convex functions with Cr-order relative entropy
    Authors: A. Fahad, Y. Wang, Z. Ali, R. Hussain, S. Furuichi
    Year: 2024
    Citations: 11
    Source: Information Sciences, Volume 662, Article ID 120219

  • Title: Novel fractional integral inequalities for GA-Cr-convex functions and connections with information systems
    Authors: A. Fahad, Z. Ali, S. Furuichi, Y. Wang
    Year: 2025
    Citations: 2
    Source: Alexandria Engineering Journal, Volume 113, Pages 509-515

  • Title: On generalization of Hermite–Hadamard–Mercer inequalities for interval-valued functions with generalized geometric–arithmetic convexity
    Authors: A. Fahad, Y. Qian, Z. Ali, A. Younus
    Year: 2024
    Citations: 2
    Source: International Journal of Geometric Methods in Modern Physics, Article ID 2440026

  • Title: New Inequalities for GA–h Convex Functions via Generalized Fractional Integral Operators with Applications to Entropy and Mean Inequalities
    Authors: A. Fahad, Z. Ali, S. Furuichi, S. I. Butt, Y. Wang
    Year: 2024
    Citations: Not available yet
    Source: Fractal and Fractional, Volume 8, Issue 12, Article ID 728

 

Maryam Alkandari | Analysis (Real, Complex, Functional) | Best Researcher Award

Posted on by sciencefather

Dr. Maryam Alkandari | Analysis (Real, Complex, Functional) | Best Researcher Award

Associate Professor at Kuwait University, Kuwait

Dr. Maryam Mohammad Alkandari is an accomplished Associate Professor in the Department of Mathematics at Kuwait University, specializing in Algebraic Geometric Coding Theory and Fractional Calculus. She earned her Ph.D. from the University of London, Imperial College, and has made significant contributions to mathematical research through numerous high-impact publications. Her work spans diverse areas, including differential equations, operational methods in fractional calculus, and mathematical education. She has secured multiple research grants and received institutional recognition for her contributions. In addition to her theoretical research, Dr. Alkandari has explored interdisciplinary applications, particularly in autism education and mathematical pedagogy. She has collaborated with esteemed researchers and co-authored a book on fractional operators published by Springer. With a strong academic background, a broad research portfolio, and a commitment to advancing mathematical knowledge, Dr. Alkandari continues to make valuable contributions to the field, enhancing both theoretical understanding and practical applications.

Professional Profile 

Google Scholar

Education

Dr. Maryam Mohammad Alkandari earned her Ph.D. from the University of London, Imperial College, specializing in Algebraic Geometric Coding Theory. Her doctoral research focused on decoding partial geometric codes, contributing to the field of algebraic coding theory. This strong mathematical foundation equipped her with expertise in pure and applied mathematics, particularly in algebraic structures and their applications. Her academic journey reflects a commitment to advancing mathematical theories and methodologies. She has since built on her education by expanding her research into operational calculus and fractional differential equations. With a solid background in both theoretical and computational mathematics, Dr. Alkandari has successfully applied her knowledge across multiple disciplines, making notable contributions to the field.

Professional Experience

Dr. Alkandari is an Associate Professor in the Department of Mathematics at Kuwait University, where she has played a pivotal role in research, teaching, and mentorship. She has successfully led multiple research projects, collaborating with national and international scholars in algebraic coding theory, fractional calculus, and differential equations. In addition to her research, she has contributed significantly to mathematical education, exploring innovative teaching methodologies, including the use of GeoGebra and applied behavior analysis for autism education. Her academic career has been marked by a dedication to fostering mathematical understanding among students and researchers. Through her involvement in curriculum development and her supervision of research projects, she has influenced the next generation of mathematicians. Dr. Alkandari’s commitment to interdisciplinary applications of mathematics further highlights her professional contributions, bridging theoretical knowledge with real-world problems.

Research Interest

Dr. Alkandari’s research interests lie in Algebraic Geometric Coding Theory, Fractional Calculus, and Differential Equations. She has explored the development of operational methods in fractional calculus and their applications to solving differential equations. Her work also extends to mathematical modeling, particularly in constructing partial algebraic geometric codes and exploring oscillation properties of differential equations. She has made notable contributions to fuzzy statistical analysis, demonstrating her ability to integrate various mathematical fields. Additionally, she has engaged in interdisciplinary research, investigating the effectiveness of mathematical teaching methods for autistic children. Her diverse research interests reflect a broad and deep commitment to advancing mathematical knowledge while addressing real-world challenges. By continually expanding the scope of her studies, Dr. Alkandari remains at the forefront of mathematical innovation.

Awards and Honors

Dr. Alkandari has received multiple awards and honors in recognition of her outstanding research contributions. She was awarded research grants for her work on operational methods in fractional calculus and has been recognized by Kuwait University’s Research Sector for her impactful publications. Several of her research papers have received unfunded rewards, highlighting their significance in advancing mathematical theories. Her collaborations with esteemed researchers and contributions to high-impact journals further reinforce her reputation as a distinguished mathematician. Additionally, her co-authored book on transmutations of fractional operators, published by Springer, stands as a testament to her scholarly excellence. These accolades reflect her dedication to the field and her ability to conduct research that has both theoretical and applied significance. Through her numerous achievements, Dr. Alkandari continues to contribute meaningfully to the global mathematical community.

Conclusion

Dr. Maryam Mohammad Alkandari is a distinguished mathematician whose work spans algebraic coding theory, fractional calculus, and mathematical education. With a Ph.D. from Imperial College London, she has established herself as a leading researcher in her field, publishing extensively in high-impact journals and securing prestigious research grants. Her contributions extend beyond pure mathematics, incorporating interdisciplinary applications such as autism education and advanced computational methods. Through her role as an Associate Professor at Kuwait University, she has influenced many students and researchers, fostering a deeper understanding of complex mathematical concepts. Her numerous awards and recognitions highlight her excellence and dedication to the field. Dr. Alkandari’s ongoing research, international collaborations, and commitment to mathematical advancement continue to solidify her position as a respected figure in academia, making significant contributions to both theoretical and applied mathematics.

Publications Top Noted

  • Operational calculus for the general fractional derivatives of arbitrary order
    M. Al-Kandari, L.A.-M. Hanna, Y. Luchko
    Year: 2022 | Citations: 18

  • Operational method for solving fractional differential equations with the left-and right-hand sided Erdélyi-Kober fractional derivatives
    L.A.-M. Hanna, M. Al-Kandari, Y. Luchko
    Year: 2020 | Citations: 16

  • A fuzzy-statistical tolerance interval from residuals of crisp linear regression models
    M. Al-Kandari, K. Adjenughwure, K. Papadopoulos
    Year: 2020 | Citations: 13

  • Half-linear differential equations of fourth order: oscillation criteria of solutions
    O. Bazighifan, K.S. Al-Ghafri, M. Al-Kandari, F. Ghanim, F. Mofarreh
    Year: 2022 | Citations: 7

  • Delay differential equations of fourth-order: oscillation and asymptotic properties of solutions
    O. Bazighifan, M. Al-Kandari, K.S. Al-Ghafri, F. Ghanim, S. Askar, G.I. Oros
    Year: 2021 | Citations: 7

  • Calculus 1 college students’ concept of function
    A.H. Alajmi, M.M. Al-Kandari
    Year: 2022 | Citations: 5

  • New Criteria for Oscillation of Half-Linear Differential Equations with p-Laplacian-like Operators
    O. Bazighifan, F. Ghanim, J. Awrejcewicz, K.S. Al-Ghafri, M. Al-Kandari
    Year: 2021 | Citations: 4

  • Enhancing Kuwaiti Teachers’ Technology-Assisted Mathematics Teaching Practices
    M. Soliman, Z. Lavicza, T. Prodromou, M. Al-Kandari, T. Houghton
    Year: 2019 | Citations: 4

  • Some oscillation results for even-order differential equations with neutral term
    M. Al-Kandari, O. Bazighifan
    Year: 2021 | Citations: 3

  • On the Laplacian Energy of an Orbit Graph of Finite Groups
    V. Bhat, M. Singh, K. Sharma, M. Alkandari, L. Hanna
    Year: 2024

  • Nonlinear differential equations with neutral term: Asymptotic behavior of solutions
    M. Al-Kandari
    Year: 2024

  • Conditions for the Oscillation of Solutions to Neutral Differential Equations of Higher Order
    M. Al-Kandari
    Year: 2023

  • Enhanced criteria for detecting oscillations in neutral delay Emden-Fowler differential equations
    M. Al-Kandari
    Year: 2023

  • Completely Semiprime Ideals of Ore Extensions
    V.K. Bhat, M. Alkandari, L. Hanna, S.K. Sharma
    Year: 2023

  • Half-linear differential equations of fourth order: oscillation criteria of solutions
    B. Omar, K.S. Al-Ghafri, M. Al-Kandari, F. Ghanim, M. Fatemah
    Year: 2022

  • The Effectiveness of a Suggested Program in Developing College Students’ Ability to Write Proofs and their Beliefs Towards it
    A.H. Alajmi, M.M. Alkandari
    Year: 2022

  • On an extension of the Mikusiński type operational calculus for the Caputo fractional derivative
    M. Al-Kandari, L.A.-M. Hanna, Y. Luchko
    Year: 2021 | Citations: 3

  • A convolution family in the Dimovski sense for the composed Erdélyi-Kober fractional integrals
    M. Al-Kandari, L.A.-M. Hanna, Y.F. Luchko
    Year: 2019 | Citations: 3

  • Operational Calculus for the 1st Level General Fractional Derivatives and its Applications
    M. Alkandari, Y. Luchko
    Year: 2024 | Citations: 2

  • A new modification of an iterative method based on inverse polynomial for solving Cauchy problems
    A.H. Ali, O. Alabdali, M.T. Yaseen, M. Al-Kandari, O. Bazighifan
    Year: 2023 | Citations: 2