Prof. Hong Zheng | Computational Mechanics | Best Researcher Award

Posted on by Academic achievements

Prof. Hong Zheng | Computational Mechanics | Best Researcher Award

Prof. Hong Zheng | Computational Mechanics – Beijing University of Technology, China

Prof. Hong Zheng is a highly accomplished academic and researcher in the field of geotechnical and computational civil engineering. With more than three decades of research experience, he has become a key figure in the development of numerical modeling methods for rock and soil mechanics. His scholarly work integrates traditional engineering models with modern computational approaches, particularly artificial intelligence and numerical manifold methods, making his research widely applicable and forward-looking in civil infrastructure and geomechanical analysis.

Profile Verified:

Orcid | Scopus 

Education:

Prof. Zheng earned his Ph.D. in Civil Engineering from Beijing University of Technology. His doctoral training focused on structural and geotechnical modeling, providing him with a strong foundation in both theoretical and applied mechanics. His academic excellence during this period shaped the trajectory of his research in advanced numerical techniques for solving complex civil engineering problems.

Experience:

Prof. Zheng’s professional experience spans several renowned institutions. He began his research career at the Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, where he worked for over two decades (1988–2013), contributing extensively to slope stability and rock mechanics research. From 2001 to 2014, he was affiliated with China Three Gorges University, participating in research projects related to dam safety and hydropower infrastructure. Since 2013, he has been a full-time faculty member at Beijing University of Technology, where he is actively involved in teaching, supervising Ph.D. students, and leading research initiatives in computational geomechanics.

Research Interests:

Prof. Zheng’s research interests center around advanced computational methods for civil and geotechnical engineering problems. He specializes in the Numerical Manifold Method (NMM), Finite-Discrete Element Method (FDEM), and deep learning applications for slope and tunnel stability analysis. His recent work includes physics-informed neural networks for 3D seepage prediction and hybrid numerical-AI models for complex unconfined flow problems. His interdisciplinary approach addresses real-world engineering challenges with innovative computational techniques.

Awards:

While not formally listed with individual honors, Prof. Zheng’s recognition comes through consistent publications in prestigious international journals, extensive citation by peers, and influential roles in large-scale engineering projects. His sustained academic output, institutional leadership, and role as a mentor to numerous graduate students underscore his eligibility for high-level research recognition.

Selected Publications:

  • 🧠 “The pre-trained explainable deep learning model with stacked denoising autoencoders for slope stability analysis” (2024, Engineering Analysis with Boundary Elements) – cited by 12 articles.
  • 🌊 “Three-dimensional seepage analysis for the tunnel in nonhomogeneous porous media with physics-informed deep learning” (2025, Engineering Analysis with Boundary Elements) – cited by 8 articles.
  • 🧱 “Modeling variably saturated flows in porous media using the numerical manifold method” (2024, Engineering Analysis with Boundary Elements) – cited by 10 articles.
  • 🧩 “Boundary settings for seismic dynamic analysis of rock masses using the nodal-based continuous-discontinuous deformation analysis method” (2025, Computer Methods in Applied Mechanics and Engineering) – cited by 7 articles.
  • ⚙️ “Preconditioned smoothed numerical manifold methods with unfitted meshes” (2023, International Journal for Numerical Methods in Engineering) – cited by 15 articles.
  • 🔍 “A new procedure for locating free surfaces of complex unconfined seepage problems using fixed meshes” (2024, Computers and Geotechnics) – cited by 6 articles.
  • 🧮 “Shear band static evolution based on complementarity method and the improved numerical manifold method” (2024, Engineering Analysis with Boundary Elements) – cited by 9 articles.

Conclusion:

In summary, Prof. Hong Zheng exemplifies the profile of a highly innovative, dedicated, and impactful researcher. His extensive career in academia, combined with deep technical knowledge and modern interdisciplinary integration, positions him as an ideal candidate for the Best Researcher Award. His research has not only advanced the academic understanding of geomechanical processes but also contributed to the safety and sustainability of large civil infrastructure. His commitment to excellence, mentorship, and research leadership continues to shape the field and inspire emerging engineers worldwide.

 

 

Mudassar Razzaq | Multiphysics | Best Researcher Award

Posted on by Academic achievements

Dr. Mudassar Razzaq | Multiphysics | Best Researcher Award

Dr. Mudassar Razzaq | Multiphysics – Research Associate at University of applied sciences Bochum, Germany

 Dr. Mudassar Razzaq is an accomplished academic and researcher specializing in applied mathematics, computational science, and high-performance computing. With over two decades of experience in STEM education and industry collaborations, he has significantly contributed to mathematical modeling, numerical simulations, and data science applications. Currently, he serves as a Visiting Professor at the International School of Management (ISM) in Dortmund, Germany, and leads research in multiphase flow simulation at the Bochum University of Applied Sciences. His expertise spans mathematical modeling for coupled problems, fluid-structure interaction (FSI), computational fluid dynamics (CFD), and artificial intelligence-driven simulations. Dr. Razzaq has supervised numerous undergraduate, graduate, and Ph.D. students and has played a key role in organizing international conferences and workshops.

Professional Profile

ORCID | Scopus  | Google Scholar

Education

Dr. Razzaq obtained his Ph.D. in Applied Mathematics from the Technical University of Dortmund, Germany, in 2011, where he specialized in finite element methods for fluid-structure interaction. His dissertation focused on simulation techniques for incompressible fluid-structure interaction, particularly in bioengineering and optimization. Prior to his Ph.D., he completed an M.Phil. in Applied Mathematics at Quaid-i-Azam University, Islamabad, with a focus on fluid dynamics and magnetohydrodynamics. His academic journey began with an M.Sc. in Mathematics from Quaid-i-Azam University, followed by a B.Sc. in Mathematics and Physics from the University of Punjab, Lahore, Pakistan. His strong educational foundation has enabled him to excel in both academia and research.

Professional Experience

Dr. Razzaq has held various prestigious academic and industrial positions. He has been a Visiting Professor at ISM Dortmund since January 2024, where he teaches management information systems, software engineering, and business intelligence. As a research lead in multiphase flow simulation at Bochum University of Applied Sciences, he is involved in projects such as virtual multiscale wave measurement and riverbed sedimentation modeling. His previous roles include Senior CFD Engineer at IANUS-Simulation GmbH, Assistant Professor at Lahore University of Management Sciences (LUMS), and research positions at the Weierstrass Institute (WIAS) and Technical University of Dortmund. His extensive teaching portfolio covers subjects like numerical analysis, computational fluid dynamics, and advanced calculus.

Research Interests

Dr. Razzaq’s research primarily focuses on computational mathematics, fluid-structure interaction, and artificial intelligence applications in numerical simulations. His work in high-performance computing has led to advancements in multiphase flow modeling, thermodynamic analysis of phase transitions, and Bayesian statistics. He has actively contributed to the development of numerical solvers using FEniCS and has explored AI-driven techniques for predicting stock prices. His interdisciplinary approach combines applied mathematics, data science, and engineering to solve complex real-world problems.

Awards and Achievements

Dr. Razzaq’s contributions to academia and research have been recognized through numerous awards and grants. He received a faculty travel grant for the International Multigrid Conference in China (2019) and a faculty start-up research grant (2017). His research project, “ExtremSimOpt: Modeling, Simulation, and Optimization of Fluids in Extreme Conditions,” secured funding from the Federal Ministry of Education and Research (BMBF) in 2020. He was awarded the prestigious HEC-DAAD scholarship for his Ph.D. studies. His excellence in research was further acknowledged when he won first prize for a poster presentation in 2021. These accolades highlight his dedication to advancing computational science and engineering.

Publications

  1. “Finite Element Simulation Techniques for Incompressible Fluid-Structure Interaction” (2011) – Published in Computational Methods in Applied Mathematics, cited by 120+ articles. 📖
  2. “Multiphase Flow Modeling Using Euler-Euler Framework” (2019) – Published in Journal of Computational Physics, cited by 80+ articles. 🔬
  3. “Application of AI in Stock Price Forecasting: A Comparative Study” (2023) – Published in Data Science and Financial Analytics, cited by 50+ articles. 📊
  4. “Bayesian Statistics and its Application in Decision-Making” (2020) – Published in Journal of Statistical Computation, cited by 70+ articles. 📈
  5. “Thermodynamic Modeling of Phase Transitions in Complex Fluids” (2022) – Published in Journal of Nonlinear Mechanics, cited by 60+ articles. 🔍
  6. “Computational Fluid Dynamics for Industrial Applications” (2018) – Published in Industrial & Engineering Chemistry Research, cited by 90+ articles. ⚙️
  7. “High-Performance Computing for Large-Scale Numerical Simulations” (2021) – Published in Applied Computational Mathematics, cited by 65+ articles. 💻

Conclusion

Dr. Mudassar Razzaq is a distinguished academic and researcher whose contributions to applied mathematics, computational science, and high-performance computing have had a lasting impact on both academia and industry. His expertise in numerical simulations, fluid-structure interaction, and artificial intelligence-driven modeling has enabled groundbreaking research in diverse fields. Through his extensive teaching experience and student mentorship, he continues to shape the next generation of scientists and engineers. His numerous awards, research grants, and influential publications reflect his dedication to advancing knowledge and solving complex engineering challenges. Dr. Razzaq’s commitment to innovation and interdisciplinary research makes him a highly deserving candidate for this award nomination.