Davron Juraev | Mathematics | Best Researcher Award

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Prof. Dr. Davron Juraev | Mathematics | Best Researcher Award

Turon University | Uzbekistan

Prof. Dr. Davron Juraev is a leading mathematical scientist recognized for his profound contributions to mathematical physics, numerical analysis, and applied mathematics, with a citation record of 1421 citations, an h-index of 22, and an i10-index of 39. His extensive publication portfolio covers topics such as the Cauchy problem, Helmholtz equations, fractional calculus, and ill-posed problems, making significant theoretical and computational advancements. Prof. Juraev has served as Editor-in-Chief of the Karshi Multidisciplinary International Scientific Journal (KMISJ) and on editorial boards of numerous international journals, including IETI Transactions on Data Analysis and Forecasting (iTDAF), Computational Algorithms and Numerical Dimensions (CAND), and Advanced Engineering Science (AES). He has also acted as a Guest Editor for special issues in Axioms (Switzerland) and Global and Stochastic Analysis (India). His research leadership extends to major projects funded by the Academy of Sciences of Uzbekistan and the Ministry of Innovative Development, focusing on dynamic systems and anti-radar missile trajectory optimization. Widely respected as a reviewer, collaborator, and innovator, Prof. Juraev’s works continue to influence contemporary research in computational modeling, differential equations, and mathematical problem-solving worldwide.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Efendiev, R. F., Juraev, D. A., & Elsayed, E. E. (2025). PT-symmetric Dirac inverse spectral problem with discontinuity conditions on the whole axis. Symmetry, 17(10), 1603.

Martin, N., Yue, G. X. G., & Juraev, D. A. (2025). Plithogenic machine learning solutions to material selection in renewable energy systems. IETI Transactions on Data Analysis and Forecasting (iTDAF), 3(3), Article 57085.

Juraev, D. A. (2025). A mathematical model for the maintenance scheduling problem with disturbance effect and single maintenance team. Advanced Mathematical Models and Applications, 10(2), 304.

Basholli, F., Hayal, M. R., Elsayed, E. E., & Juraev, D. A. (2025). Deep learning for skin disease classification: A comparative study of CNN and CNN-LSTM architectures. Journal of Computing and Data Technology, 1(1), 40–49.

Niyozov, I. E., Juraev, D. A., Efendiev, R. F., & Abdalla, M. (2025). Cauchy problem for the biharmonic equation. Journal of Umm Al-Qura University for Applied Sciences, 5(2), 244.

Liu, T., Ding, B., Nemati Saray, B., Juraev, D. A., & Elsayed, E. E. (2025). On the pseudospectral method for solving the fractional Klein–Gordon equation using Legendre cardinal functions. Fractal and Fractional, 9(3), 177.

Annaghili, S., Efendiev, R., Juraev, D. A., & Abdalla, M. (2025). Spectral analysis for the almost periodic quadratic pencil with impulse. Boundary Value Problems, 2025(1), 27.

Abdulwahid, M. M., Kurnaz, S., Kurnaz Türken, A., Hayal, M. R., Elsayed, E. E., & Juraev, D. A. (2025). Performance analysis of input power variations in high data rate DWDM-FSO systems under various rain conditions. Journal of Optics, 54(1), 47.

Juraev, D. A., Agarwal, P., Shokri, A., & Elsayed, E. E. (2024). Cauchy problem for matrix factorizations of Helmholtz equation on a plane. In Recent Trends in Fractional Calculus and Its Applications (pp. 245–258). Elsevier.

Juraev, D. A., Agarwal, P., Shokri, A., & Elsayed, E. E. (2024). Integral formula for matrix factorizations of Helmholtz equation. In Recent Trends in Fractional Calculus and Its Applications (pp. 233–243). Elsevier.

Juraev, D. A., Noeiaghdam, S., Agarwal, P., & Agarwal, R. P. (2024). On the Cauchy problem for systems of linear equations of elliptic type of the first order in the space R^m. Turkish World Mathematical Society Journal of Applied and Engineering Mathematics, 4(1), 77–90.*

Juraev, D. A., Agarwal, P., Shokri, A., & Elsayed, E. E. (2024). The Cauchy problem for matrix factorizations of Helmholtz equation in space. In Recent Trends in Fractional Calculus and Its Applications (pp. 259–273). Elsevier.

Niyozov, I. E., Juraev, D. A., Efendiev, R. F., & Jalalov, M. J. (2024). The Cauchy problem for the system of elasticity. Journal of Contemporary Applied Mathematics, 14(2), 92.

Muxammedov, B. M., Sanko, A. A., Juraev, D. A., & Elsayed, E. E. (2024). Optimizing rocket trajectories: Advanced mathematical modeling in MATLAB/Simulink. International Journal of Information Technology, 16(12), 2162.

Putra, F. G., Putra, R. W. Y., Ricardo, S., Widyawati, S., & Juraev, D. A. (2024). Effectiveness of meaningful instructional design in improving students' mathematical skills. Journal of Philology and Educational Sciences, 32(5), 325.

Liu, T., Xue, R., Ding, B., Juraev, D. A., Nemati Saray, B., & Soleymani, F. (2024). A novel and effective scheme for solving the fractional telegraph problem via the spectral element method. Fractal and Fractional, 8(12), 711.

Elsayed, E. E., Hayal, M. R., & Juraev, D. A. (2024). Ensemble machine learning approaches for robust classification of maize plant leaf diseases. Journal of Modern Technology, 1(2), 87–93.

Egamberdiev, K., Khidirova, N., Juraev, D. A., & Elsayed, E. E. (2024). Numerical solution of groundwater modeling for mountain regions of Uzbekistan. Discover Water, 4(1), 159.

Chanh Vuong-Dinh | Engineering | Best Researcher Award

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Dr. Chanh Vuong-Dinh | Engineering | Best Researcher Award

Duy Tan university | Vietnam

Author Profile

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Early Academic Pursuits

Dr. Chanh Vuong-Dinh’s academic journey began with a strong foundation in engineering mechanics at Vietnam National University, where he developed a keen interest in the fundamentals of structural behavior and material mechanics. His early studies shaped his analytical approach and laid the groundwork for advanced exploration in computational engineering. With encouragement from academic mentors and recognition for his academic excellence, he pursued higher studies abroad to refine his expertise in civil and environmental engineering.

Professional Endeavors

Dr. Vuong-Dinh has combined industry practice and academic scholarship to enrich his professional career. Before entering academia, he worked as a pipeline design engineer at Petro Vietnam Engineering and as a pressure vessel design engineer at Hitachi Zosen Vietnam, where he gained practical experience in structural integrity and mechanical design. Transitioning into academia, he joined the Duy Tan Research Institute for Computational Engineering as a lecturer and researcher, where he continues to contribute to both teaching and research with a focus on computational mechanics.

Contributions and Research Focus

At the core of his research lies the advancement of computational modeling for complex engineering problems. His work specializes in finite element analysis, fracture mechanics, damage mechanics, and biomechanics, with particular emphasis on quasi-brittle materials, composites, and soft tissues. He has made significant contributions to the development of smoothing gradient damage models, enabling more accurate predictions of fracture behavior and failure mechanisms. His research extends to numerical methods for engineering, addressing both theoretical modeling and applied problem-solving.

Accolades and Recognition

Throughout his academic career, Dr. Vuong-Dinh has received several prestigious honors that reflect his scholarly dedication. His studies in Japan were supported by the Japanese Government MEXT Scholarship, a testament to his academic potential and research capability. Earlier in his academic path, he was awarded the Encouragement Scholarship at Vietnam National University for consistent academic excellence. These recognitions highlight his commitment to advancing civil engineering research at both national and international levels.

Impact and Influence

The influence of Dr. Vuong-Dinh’s research can be seen in the engineering community through his numerous publications in leading international journals such as Engineering Fracture Mechanics, Theoretical and Applied Fracture Mechanics, Composite Structures, and Computers & Structures. His contributions have advanced the understanding of fracture phenomena in brittle and composite materials, influencing both theoretical frameworks and engineering applications. Furthermore, his participation in global conferences and workshops has allowed him to share his expertise widely and engage in collaborative discussions with peers worldwide.

Legacy and Future Contributions

Dr. Vuong-Dinh’s scholarly output demonstrates a balance between theoretical innovation and practical application. By developing advanced computational models for structural analysis and damage prediction, his research provides essential tools for engineers addressing challenges in infrastructure, biomechanics, and material sciences. Moving forward, his focus on interdisciplinary applications, including biomechanics and soft tissue modeling, promises to expand the scope of his impact. His role as an academic mentor ensures the cultivation of future researchers who will further these developments.

Publications

Enhanced local damage model with polygonal elements for transient thermoelastic fracture analysis
Authors: Du Dinh Nguyen, Nguyen Hoang Le, Chanh Dinh Vuong, Minh Ngoc Nguyen, Tinh Quoc Bui
Journal: Mechanics of Materials
Publisher: Elsevier
Year: 2025

Multi-scale concurrent topology optimization of lattice structures with single type of composite micro-structure subjected to design-dependent self-weight loads
Authors: Minh Ngoc Nguyen, Duy Vo, Chanh Dinh Vuong, Tinh Quoc Bui
Journal: Computers & Structures
Publisher: Elsevier
Year: 2025

Transgranular and intergranular fracture in polycrystalline materials with the anisotropic smoothing gradient damage model
Authors: Chanh Dinh Vuong, Tinh Quoc Bui
Journal: Meccanica
Publisher: Springer
Year: 2025

Simulation of failure in fiber-reinforced composites and polycrystalline materials: A novel anisotropic local damage approach
Authors: Quan Nhu Tran, Minh Ngoc Nguyen, Chanh Dinh Vuong, Tinh Quoc Bui
Journal: Composite Structures
Publisher: Elsevier
Year: 2025

An enhanced local damage model for 2D and 3D quasi-brittle fracture: ABAQUS-FEM implementation and comparative study on the effect of equivalent strains
Authors: Quan Nhu Tran, Minh Ngoc Nguyen, Chanh Dinh Vuong, Nhung Nguyen, Tinh Quoc Bui
Journal: Advances in Engineering Software
Publisher: Elsevier
Year: 2025

Conclusion

Dr. Chanh Vuong-Dinh has built a distinguished career marked by academic rigor, professional versatility, and impactful research in computational mechanics. His journey from early studies in Vietnam to advanced research in Japan and current academic contributions at Duy Tan University reflects a dedication to bridging theory and practice in engineering. With his continued pursuit of innovative methods for understanding and solving complex structural problems, he stands as a promising leader in the field, contributing to both the advancement of scientific knowledge and the training of future generations of engineers.

Eduard Rohan | Mathematics | Best Researcher Award

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Prof. Eduard Rohan | Mathematics | Best Researcher Award

University of West Bohemia in Pilsen | Czech Republic

Author Profile

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👨‍🏫 Early Academic Pursuits

Prof. Eduard Rohan’s academic journey is deeply rooted in the University of West Bohemia (UWB), where he earned his MSc. in Mechanics in 1994. He continued to excel academically, earning his Ph.D. in Mechanics in 1998, with a dissertation focused on shape optimization of elastoplastic bodies—a subject that would become foundational to his future research. His exceptional contributions culminatedin the prestigious Doctor of Science (DSc.) degree in 2012, awarded by the Czech Academy of Sciences, marking him as a national leader in theoretical and applied mechanics.

🧪 Professional Endeavors

Prof. Rohan has served the Department of Mechanics at UWB-Faculty of Applied Sciences in all academic capacities—from Assistant Professor (1997) to Full Professor (since 2012). He also played vital roles in pioneering institutes like the Center of Applied Mathematics, New Technologies Research Center, and currently at the NTIS Centre of Excellence. As a dedicated educator, he lectures on Continuum Mechanics, Biomechanics, and Structural Optimization, and has supervised multiple doctoral candidates to successful completion.

🧬 Contributions and Research Focus

Prof. Rohan is an authority in continuum mechanics, with specialized focus on:

🔹 Wave propagation in heterogeneous and porous structures
🔹 Multiscale and homogenization methods
🔹 Acoustic-fluid interactions in porous media
🔹 Biomechanics and soft tissue modeling
🔹 Structural and topology optimization using finite element methods

His interdisciplinary approach integrates applied mathematics, computational mechanics, and physics of materials, driving innovation in the modeling of complex systems like flexoelectric structures, metamaterials, and biomechanical tissues.

🏆 Accolades and Recognition

Prof. Rohan’s outstanding scholarship has been recognized multiple times:

🥇 Prof. Babuška Prize (1997) for his dissertation work
🏅 Prof. Čihák and Prof. Valenta Award (2001) for soft tissue modeling
🎖️ Honorable Mention from the Rector of UWB (2021) for lifetime scientific achievement

He is also an elected member of the Engineering Academy of the Czech Republic and serves on prestigious academic councils at Charles University and UWB.

🌍 Impact and Influence

Prof. Rohan’s influence extends far beyond Czech borders. Through long-standing international collaborations, including with institutions in France, Germany, and the UK, he has contributed to EU-funded research on smart systems, porous acoustics, and multiscale materials. His ability to bridge theoretical modeling with real-world engineering problems has made him a reference in multiphysics and porous media mechanics. His editorial roles for top journals such as Applications of Mathematics and Archive of Applied Mechanics, along with peer reviews for numerous high-impact publications, reflect his standing as a respected voice in his field.

📚 Legacy and Future Contributions

With over 230 publications, including 59 WoS-indexed journal papers, 6 book chapters, and an H-index of 18, Prof. Rohan’s academic legacy is well-established. His recent projects on fluid-acoustic suspensions, nonlinear porous dynamics, and energy-harvesting flexoelectric structures illustrate his forward-looking approach to research. As principal investigator of several national and bilateral grants, he is at the forefront of exploring how multiscale modeling can optimize smart materials and dynamic structures, contributing not only to theoretical advancement but also to technological application in biomedicine, civil engineering, and energy systems.

Publications

📄 Homogenization of the acoustic streaming in periodic rigid porous structures
Authors: Eduard Rohan, Fanny Moravcová
Journal: Journal of Sound and Vibration
Year: 2025 (Available online: 17 June 2025)

📄 Multi-functional periodically heterogeneous structures for energy harvesting and vibration attenuation—effects of piezoelectricity and shunting circuits
Authors: Eduard Rohan, [co-authors not specified]
Journal: Smart Materials and Structures
Year: 2024

📄 Homogenized model of peristaltic deformation driven flows in piezoelectric porous media
Authors: Eduard Rohan, [co-authors not specified]
Journal: Computers and Structures
Year: 2024

📄 Homogenization of the acoustic transmission on periodically perforated plates interacting with potential mean flow
Authors: Eduard Rohan, [co-authors not specified]
Journal: Journal of Computational and Applied Mathematics
Year: 2024

Liuxian Zhao | Engineering | Best Researcher Award

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Assoc Prof Dr. Liuxian Zhao | Engineering | Best Researcher Award

Hefei University of Technology | China

Author Profile

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Early Academic Pursuits

Dr. Liuxian Zhao's journey in mechanical engineering began with a Bachelor's degree from Tianjin University of Science and Technology, China, in 2008. He then pursued two Master's degrees in Mechanical Engineering: the first in 2011 from Hefei University of Technology, China, focusing on the research of multi-step active disassembly methods, and the second in 2013 from the University of South Carolina, USA, where he explored ultrasound wave-based structural health monitoring. Dr. Zhao completed his Ph.D. in 2018 at the University of Notre Dame, USA, with a thesis on structural tailoring for tomographic damage detection, energy harvesting, and vibration control.

Professional Endeavors

Dr. Zhao's professional career includes significant academic and research positions. From 2015 to 2017, he was a Visiting Scholar at Purdue University, where he worked on frequency selective structures and structural health monitoring using electrical impedance tomography. As a Research Scientist at Nanyang Technological University from 2017 to 2018, he developed micro-/nano-scale porous materials for acoustic and vibrational impact mitigation. He then served as a Postdoctoral Research Associate at the University of Maryland from 2019 to 2022, focusing on structural Luneburg lenses for wave propagation manipulations. Currently, Dr. Zhao is an Associate Professor at Hefei University of Technology, where he explores acoustic metamaterials for enhanced sensing systems.

Contributions and Research Focus

Dr. Zhao's research interests encompass acoustic lenses, metamaterials, metasurfaces, phononic crystals, and acoustic black holes. His work on acoustic metamaterials aims to overcome limitations in detecting weak acoustic signals by enhancing signal-to-noise ratios. He has developed novel sensors and lenses for acoustic applications, contributing significantly to fields such as structural health monitoring, non-destructive testing, and energy harvesting. His research includes pioneering work on acoustic black holes for vibration control and energy harvesting.

Accolades and Recognition

Dr. Zhao's research excellence is reflected in his numerous publications and the prestigious grants he has secured. His work has been funded by notable institutions such as the National Nature Science Foundation of China (NSFC), the United States Department of Agriculture (USDA), and the US National Science Foundation (NSF). He has also served as a reviewer for various high-impact journals, further demonstrating his expertise and influence in the field of mechanical and acoustic engineering.

Impact and Influence

Dr. Zhao's contributions to the field of acoustic engineering have had a profound impact on both theoretical and applied aspects. His innovative approaches to manipulating wave propagation and improving acoustic sensing systems have advanced the capabilities of structural health monitoring and non-destructive evaluation. His work on Luneburg lenses and acoustic metamaterials has set new benchmarks in acoustic wave manipulation, influencing future research and technological developments.

Legacy and Future Contributions

Dr. Zhao's legacy is characterized by his innovative contributions to acoustic metamaterials and their applications. His ongoing research aims to further enhance acoustic sensing systems and explore new avenues in energy harvesting and vibration control. As an active researcher and educator, Dr. Zhao continues to inspire and mentor the next generation of engineers and scientists, ensuring that his pioneering work will have a lasting impact on the field of acoustic engineering.

 

Notable Publications

Super-resolution imaging based on modified Maxwell's fish-eye lens 2024 (1)

Resonant type Luneburg lens for broadband low frequency focusing 2024

Passive directivity detection of acoustic sources based on acoustic Luneburg lens 2023 (1)

Acoustic beam splitter based on acoustic metamaterial Luneburg lens 2023 (5)

A scalable high-porosity wood for sound absorption and thermal insulation 2023 (48)