Yuanheng Wang | Mathematics | Outstanding Scientist Award

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Prof. Yuanheng Wang | Mathematics | Outstanding Scientist Award

Prof. Yuanheng Wang | Mathematics | Outstanding Scientist Award | Professor | Zhejiang Normal University | China

Prof. Yuanheng Wang is a distinguished Chinese mathematician and professor at the School of Mathematical Sciences, Zhejiang Normal University (formerly Zhejiang where he has combined teaching, research, and academic administration for many years. He earned his doctoral degree in Mathematics from Shanghai Normal University, having earlier studied functional analysis and Banach space theory, and also spent time as a visiting scholar at the University of New South Wales in Australia. Over his long and productive career, he has taught a broad range of undergraduate and graduate courses — including real analysis, functional analysis, variational inequality theory, and the geometry of Banach spaces — and has supervised many master’s and doctoral students. As a researcher, Prof. Wang’s principal interests lie in nonlinear functional analysis, fixed-point theory, Banach space geometry, variational inequalities, and non-linear optimization, where he has developed and analyzed iterative methods, projection algorithms, and convergence theorems. His research skills include deep theoretical analysis, convergence proof techniques, hybrid iterative schemes, and the design of projection-based algorithms. Throughout his career, he has held leadership and service roles: he has served as a reviewer for Mathematical Reviews (USA) and contributed peer review for dozens of international journals, acted as vice-dean of the mathematics/information faculty at his university, and participated in minority-staff associations. He has received several honors, including the “First Ten Teachers in Students’ Minds” award at Zhejiang Normal University, the Zheng Xiaocang Prize, and membership in the 10th Zhejiang Provincial Committee of the Chinese People’s Political Consultative Conference. He has successfully led and completed multiple research grants at national and provincial levels, and his more than seventy published papers include over thirty indexed by SCI and Mathematical Reviews. Prof. Wang is also active in community engagement, mentoring students and promoting participation of ethnic minority faculty in academic life. In sum, Prof. Yuanheng Wang represents a rare blend of scholarly excellence, pedagogical dedication, and institutional leadership, deeply committed to advancing mathematical theory and nurturing future generations of researchers.

Profile:  ORCID 

Featured Publications

  1. Wang, Y. (2012). Strong Convergence Theorems for Asymptotically Weak G-Pseudo-Ψ-Contractive Non-Self-Mappings with the Generalized Projection in Banach Spaces. Abstract and Applied Analysis, 2012, Article ID 651304.

  2. Wang, Y. (2014). Strong Convergence Theorems for Common Fixed Points of an Infinite Family of Asymptotically Nonexpansive Mappings. Abstract and Applied Analysis, 2014, Article ID 809528.

  3. Wang, Y. (2016). Complement Theorem for Solutions of Two Congruence Systems .2016.

  4. Wang, Y. (2016). Convergence of Mann Iteration for Solutions of a Strongly Proliferating Operator Equation. 2016.

  5. Wang, Y. (2017). Approximation by an Iterative Algorithm for Generalized Equilibrium and Fixed Points of Asymptotically Nonexpansive Mappings].

  6. Wang, Y. (2017).Irrationality of the Square Root and a Rational Iteration Algorithm. 2017.

  7. Wang, Y. (2016). Convergence of a Layered Fixed-Point Viscous Continuous Generalized Approximation Scheme in a Banach Space.2016.

 

Muhammad Zahid | Mathematics | Best Researcher Award

Published on by Research Hypothesis

Muhammad Zahid | Mathematics | Best Researcher Award

Mr Muhammad Zahid, Abdus Salam School of Mathematical Sciences, Pakistan

Muhammad Zahid is a dedicated mathematics scholar 🎓, currently pursuing a PhD at ASSMS, GCU Lahore (2022-2025) with a perfect CGPA of 4.00/4.00 🌟. He earned an M.Phil. from BZU Multan (2016-2019) and an M.Sc. from GCU Faisalabad (2014-2016), securing 2nd position and a silver medal 🏅. With over six years of teaching experience as a lecturer 📚, he has supervised multiple BS and MPhil research projects. His research focuses on Fixed Point Theory, Fractals, and Quaternion Differential Equations 🔬. An active researcher, he has published in renowned journals and participated in international conferences 🌍.

Publication Profile

Orcid

Education

Muhammad Zahid 🎓 is a dedicated PhD Mathematics Scholar (In Progress, 2022-2025) at ASSMS, GCU, Lahore, Pakistan, with a perfect CGPA of 4.00/4.00. 🏆 He earned his M.Phil. in Mathematics (2016-2019) from Bahauddin Zakariya University, Multan, with a CGPA of 3.68/4.00. 📚 His Master’s in Mathematics (2014-2016) from Govt. College University, Faisalabad, was marked by excellence, securing 2nd position and a silver medal 🥈 with a CGPA of 3.93/4.00. His academic journey began with a B.Sc. (2011-2013) and F.Sc. (2009-2011), building a strong foundation in Mathematics and Physics. 🔢✨ His passion for learning continues to drive his scholarly pursuits. 🚀

Experience

Mr. Muhammad Zahid served as a Lecturer at the Institute of Southern Punjab, Multan, from October 2016 to March 2022 📚, teaching BS and Master’s courses with a six-course workload each semester. He supervised 3 MPhil students 🎓 and guided 10 BS students in their research projects. As a Visiting Lecturer at Mian Muhammad Nawaz Shareef Agriculture University (2017-2018) and the University of Management Sciences (2024-2025) 🎓, he managed a three-course workload at the BS level. His dedication to academia and research supervision has significantly contributed to student success and institutional growth 📖✨.

Research Interest

Mr. Muhammad Zahid is a dedicated researcher specializing in Fixed Point Theory 🔄, contributing to mathematical analysis and its applications. His expertise extends to Best Proximity Point Theory 📏, focusing on optimal approximations in non-self mappings. He also explores the fascinating world of Fractals Theory 🌀, delving into self-replicating geometric patterns. Additionally, he investigates Quaternion Differential Equations ➗📐, applying them to complex dynamic systems. Through his work, he advances mathematical frameworks with significant theoretical and practical implications. His research plays a crucial role in broadening the understanding of nonlinear analysis and differential equations in various scientific domains. 📚✨

Achievement

Muhammad Zahid has demonstrated outstanding academic excellence 🎓. He was honored with a Silver Medal 🥈 for his remarkable performance in his Master of Mathematics. His dedication and hard work also earned him a Shield 🏆 for securing 1st position in his class. Recognizing his academic achievements, he was awarded a Laptop 💻 under the Prime Minister’s Laptop Scheme, further supporting his educational journey. His passion for mathematics and commitment to excellence continue to inspire those around him. With these prestigious accolades, Muhammad Zahid stands as a symbol of perseverance and success in the field of mathematics 📚🔢.

Research Focus

Muhammad Zahid’s research focuses on mathematical modeling, fractal geometry, and fixed-point theory 🔢📐. His work explores proximal F-iterated function systems, contributing to the study of fractals and their applications 🌿🔄. He also investigates multivalued proximal contractions and their role in integral equations, providing insights into nonlinear analysis and functional analysis 📊➗. His contributions extend to metric spaces, iterative function systems, and optimization techniques, impacting areas such as computational mathematics and applied analysis 🖥️📈. Through his studies, Zahid advances mathematical tools for solving complex equations and modeling intricate structures, enhancing theoretical and practical applications in diverse fields 🌍✨.

Publication Top Notes

  • “Some Results on Multivalued Proximal Contractions with Application to Integral Equation” (2024) – This paper discusses multivalued proximal contractions in rectangular metric spaces, providing examples to illustrate the findings.

  • “Proximal Contractions for Multivalued Mappings with an Application to 2D Volterra Integral Equations” (2024) – This study explores Geraghty-type proximal contractions for multivalued mappings, offering practical examples and applications.

  • “Best Proximity Points for Multivalued Mappings and Equation of Motion” (2023) – This article introduces z-type proximal contractions using alternating distance functions in b-metric spaces, presenting novel best proximity point results.

  • “Common Best Proximity Results for Multivalued Proximal Contractions in Metric Space with Applications” (2023) – The paper introduces the concept of α*-proximal contractions for multivalued mappings in complete metric spaces, establishing common best proximity point results and applications.