Yu Lan Wang | Research Excellence | Best Researcher Award

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Prof. Dr. Yu Lan Wang | Research Excellence | Best Researcher Award

Prof. Dr. Yu Lan Wang | Inner Mongolia University of Technology | China

Professor Yu Lan Wang is a distinguished researcher at Inner Mongolia University of Technology, recognized for her impactful contributions to computational mathematics, numerical analysis, and nonlinear science. She has published 61 scholarly works, which have been cited in over 839 publications, 16 h-index, Demonstrating her strong influence and academic reach. Her research has been acknowledged through a solid citation record and a notable research index, highlighting both the quality and depth of her contributions. By advancing high-precision methods for fractional-order systems and uncovering novel chaotic behaviors, she continues to inspire innovation across mathematics, physics, and engineering.

Profile: Scopus | Orcid

Featured Publications

Zhang, S., Zhang, H., Wang, Y., & Li, Z. (2025). Dynamic properties and numerical simulations of a fractional phytoplankton–zooplankton ecological model. Networks and Heterogeneous Media, 20(2), Article 028.

Zhang, H., Wang, Y., Bi, J., & Bao, S. (2025). Novel pattern dynamics in a vegetation–water reaction–diffusion model. Mathematics and Computers in Simulation. Advance online publication.

Wang, X., Zhang, H., Wang, Y., & Li, Z. (2025). Dynamic properties and numerical simulations of the fractional Hastings–Powell model with the Grünwald–Letnikov differential derivative. International Journal of Bifurcation and Chaos. Advance online publication.

Han, Y., Zhang, J., & Wang, Y. (2024). Dynamic behavior of a two-mass nonlinear fractional-order vibration system. Frontiers in Physics, 12, 1452138.

Ning, J., & Wang, Y. (2024). Fourier spectral method for solving fractional-in-space variable coefficient KdV–Burgers equation. Indian Journal of Physics, 98, 1865–1875.

Tian, F., Wang, Y., & Li, Z. (2024). Numerical simulation of soliton propagation behavior for the fractional-in-space NLSE with variable coefficients on unbounded domain. Fractal and Fractional, 8(3), 163.

Zhang, S., Zhang, H., Wang, Y., & Li, Z. (2024). Research on dynamical behavior of a phytoplankton–zooplankton ecological model. Research Square. Preprint.

Gao, X., Zhang, H., Wang, Y., & Li, Z. (2024). Research on pattern dynamics behavior of a fractional vegetation–water model in arid flat environment. Fractal and Fractional, 8(5), 264. 

Zhao, L., & Zhang, W. (2024). Fourier spectral method for the fractional-in-space coupled Whitham–Broer–Kaup equations on unbounded domain. Open Physics, 22(1), 781–795.

Gao, X., Li, Z., & Wang, Y. (2024). Chaotic dynamic behavior of a fractional-order financial system with constant inelastic demand. International Journal of Bifurcation and Chaos, 34(7), 2450111.

Zhang, W., Wang, H., Zhang, H., Li, Z., & Li, X. (2024). Dynamical behavior of the fractional BBMB equation on unbounded domain. Fractal and Fractional, 8(7), 383.

Gao, X., Wang, Y., & Li, Z. (2023). High-precision numerical methods for a class of fractional-order financial systems with constant inelastic demand. SSRN.

Tang, W., Wang, Y., & Li, Z. (2023). Numerical simulation of fractal wave propagation of a multi-dimensional nonlinear fractional-in-space Schrödinger equation. Physica Scripta, 98(2), 025212.

Dai, D., Li, X., Li, Z., Zhang, W., & Wang, Y. (2023). Numerical simulation of the fractional-order Lorenz chaotic systems with Caputo fractional derivative. Computer Modeling in Engineering & Sciences, 135(2), 481–499.

Jean-louis Vigneresse | Research Excellence | Excellence in Research

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Prof. Jean-louis Vigneresse | Research Excellence | Excellence in Research

Prof. Jean-louis Vigneresse | université de lorraine | France

Jean-Louis Vigneresse is a distinguished French geophysicist known for his pioneering research on granite emplacement, crustal deformation, and thermal modeling. With decades of academic and international experience, he has contributed significantly to understanding Earth’s structural dynamics. He played key roles in major geoscientific programs like ECORS and Géofrance 3D and collaborated globally across Europe, the Americas, and Asia. As a professor and scientific leader, he has mentored numerous students and developed innovative geophysical tools. His research has been widely published and cited in top-tier journals. He also held administrative roles, promoting education and international cooperation. His career blends theoretical insight with practical application. Vigneresse’s legacy continues to shape modern geosciences.

Academic Profile 

Google Scholar | Orcid

Education

Jean-Louis Vigneresse holds a strong academic background in geophysics and earth sciences, having pursued advanced studies in engineering, structural geology, and geophysical modeling. He began his academic journey with training in geophysics at a premier French institute, focusing on magnetic anomalies and structural interpretations. His early research dealt with aeromagnetic and gravimetric analysis of volcanic and granitic terrains, reflecting a foundation in both applied and theoretical geophysics. His academic progression led him to conduct in-depth doctoral research on the modeling of granitic massifs and their deformation, integrating geophysical data with structural geological concepts. Further studies deepened his understanding of crustal processes, culminating in a high-level dissertation exploring the emplacement of granitic plutons under regional tectonic constraints.

Experience

Vigneresse has extensive experience in academia, research, and international collaboration. He has held teaching and research positions in several French universities, culminating in a senior academic post at a leading geological school. In addition to his teaching and research duties, he took on multiple administrative roles, including academic program development, student supervision, and coordination of international partnerships. He contributed to the modernization of geoscience curricula, particularly in petroleum geology and structural analysis. He has also been instrumental in developing applied geophysical tools, modeling software, and training programs that bridge academia and industry. His global engagement includes cooperative projects with universities and research centers across Europe, the Americas, Asia, and North Africa.

Research Interests

His research spans a broad range of topics in geophysics, structural geology, petrology, and crustal dynamics. His work has addressed granite emplacement mechanisms, partial melting, melt migration, deformation modeling, and the thermal evolution of the Earth’s crust. He has a particular interest in the links between tectonics, magmatism, and ore deposit formation. He developed physical and numerical models to simulate crustal processes and contributed to major geoscientific initiatives. His studies are well recognized for providing insights into the thermomechanical behavior of the crust and the geodynamic settings of granite-related phenomena.

Awards and Recognition

Jean-Louis Vigneresse is internationally recognized for his scholarly contributions, scientific collaborations, and educational leadership. He has published numerous research articles in prestigious international journals and has contributed as a reviewer and advisor to several scientific publications. His work has had significant influence in both academic and applied geoscience fields. He has been invited as a guest professor and scientific advisor in multiple countries and has played a key role in European scientific programs. His distinction lies in his ability to combine theoretical research with practical applications and international cooperation.

Publications


Granite magma formation, transport and emplacement in the Earth’s crust.

Author: Petford, N., Cruden, A. R., McCaffrey, K. J. W., & Vigneresse, J.-L.
Journal; Nature,(2000)

Nb-Ta fractionation in peraluminous granites: A marker of the magmatic-hydrothermal transition.

Author: Ballouard, C., Poujol, M., Boulvais, P., Branquet, Y., Tartèse, R., & Vigneresse, J.-L.
Journal; Geology, (2016)

Rheological transitions during partial melting and crystallization with application to felsic magma segregation and transfer.

Author: Vigneresse, J.-L., Barbey, P., & Cuney, M.
Journal: Petrology,  (1996)

Transpressional kinematics and magmatic arcs.

Author: Blanquat, M. D. S., Tikoff, B., Teyssier, C., & Vigneresse, J.-L.
Journal: Geological Society, London, Special Publications, (1998)

The Mortagne granite pluton (France) emplaced by pull-apart along a shear zone: Structural and gravimetric arguments and regional implication.

Author: Guineberteau, B., Bouchez, J.-L., & Vigneresse, J.-L.
Journal: Geological Society of America Bulletin, (1987)

Conclusion

The Research Excellence Award stands as a prestigious recognition of intellectual brilliance, innovation, and impactful contribution across scientific, academic, and interdisciplinary domains. It not only honors individual achievement but also promotes a culture of inquiry, collaboration, and societal relevance. By celebrating researchers who push boundaries and solve real-world problems, the award contributes to the global advancement of knowledge and inspires the next generation of scholars and innovators. This is more than an accolade — it is a platform for leadership, visibility, and lasting influence in the world of research.

Chien-Hung Yeh | Research Excellence | Best Researcher Award

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Prof. Dr. Chien-Hung Yeh | Research Excellence | Best Researcher Award

Prof. Dr. Chien-Hung Yeh | Beijing Institute of Technology, China

Professor Chien-Hung Yeh, a tenured faculty member at Beijing Institute of Technology and a National High-Level Fellow, is renowned for his groundbreaking work in neuromodulation, cross-frequency coupling, and medical AI. With over 50 SCI publications, 15+ patents, and leadership in major national research projects, he has significantly advanced intelligent healthcare technologies. His collaborations span prestigious institutions like Harvard and Oxford, and his innovations influence clinical practices and brain-computer interface development. As a senior IEEE member and editorial board contributor, Professor Yeh exemplifies excellence in interdisciplinary biomedical engineering—making him a distinguished candidate for the Best Researcher Award.

Academic Profile 

ORCID, Google Scholar

Education

Professor Chien-Hung Yeh holds a distinguished academic background, earning his doctoral degree through a joint supervision program between Harvard Medical School and National Central University. This unique cross-continental academic training provided him with a rich blend of cutting-edge biomedical knowledge and rigorous technological insight. His PhD research laid the groundwork for his later innovations in neuromodulation and cross-frequency coupling, with strong emphasis on translational science bridging engineering and clinical neuroscience. His academic journey reflects both depth and global perspective, equipping him with interdisciplinary tools essential for leadership in advanced healthcare technologies.

Experience

Professor Yeh currently serves as a tenured professor at Beijing Institute of Technology, one of China’s premier research universities. Over the years, he has gained extensive experience leading major national-level research projects, including initiatives funded by the Ministry of Science and Technology of China, the National Natural Science Foundation of China (NSFC), and the Beijing Municipal Health Commission. In addition to his academic role, he is actively engaged in consultancy and industry-academia collaborations, such as with Kao Corporation and Neuracle Technology Co., Ltd. He also chairs IEEE conferences and serves as a reviewer for various high-level funding agencies including the Ministry of Industry and Information Technology and the National Science Foundation of China. His experience spans administration, research management, teaching, and policy advising, making him a key figure in biomedical innovation ecosystems.

Research Interests

Professor Yeh’s research is at the forefront of biomedical engineering, with core interests in cross-frequency coupling, neuromodulation, and artificial intelligence applications in medicine. He is internationally recognized for his pioneering work on dynamic brain signal processing, particularly in the development of algorithms for brain-computer interfaces and intelligent monitoring systems for neurological disorders. His contributions to waveform analysis and AI-driven health diagnostics have practical implications for epilepsy, Parkinson’s disease, sleep disorders, and critical care. These interests are not only intellectually rigorous but also clinically transformative, aiming to close the gap between neuroscience theory and patient-centered innovation.

Awards

Throughout his career, Professor Yeh has received numerous prestigious recognitions. He has been honored as a National High-Level Fellow in China, a designation reserved for top-tier scientists making significant contributions to strategic research areas. His projects have received substantial support from national and municipal government bodies, reinforcing the value of his work to public health and innovation policy. He has also co-led a team that was named a runner-up in the Qualcomm Tricorder XPRIZE, a global competition to develop portable diagnostic devices capable of revolutionizing healthcare delivery. This accomplishment highlights the global applicability of his research. Furthermore, Professor Yeh’s editorial roles in leading journals, including Cyborg and Bionic Systems, Applied Sciences, and BMC Medical Informatics and Decision Making, along with his membership in key professional societies such as IEEE and the Chinese Society of Biomedical Engineering, reflect the academic community’s high regard for his expertise and leadership.

Publications

Amplitude modulation multiscale entropy characterizes complexity and brain states

Author: W Shi, H Feng, X Zhang, CH Yeh
Journal: Chaos, Solitons & Fractals
Year: 2023

A novel measure of cardiopulmonary coupling during sleep based on the synchrosqueezing transform algorithm 

Author: Y Wang, W Shi, CH Yeh
Journal: IEEE journal of biomedical and health informatics
Year: 2023

Waveform changes with the evolution of beta bursts in the human subthalamic nucleus

Author: CH Yeh, B Al-Fatly, AA Kuehn, AC Meidahl, G Tinkhauser, H Tan,
Journal: Clinical neurophysiology
Year: 2020

Generalized multiscale Lempel–Ziv complexity of cyclic alternating pattern during sleep

Author: CH Yeh, W Shi
Journal: Nonlinear Dynamics
Year: 2018

A comparison study on stages of sleep: Quantifying multiscale complexity using higher moments on coarse-graining

Author: W Shi, P Shang, Y Ma, S Sun, CH Yeh
Journal: Communications in Nonlinear Science and Numerical Simulation
Year: 2017

Quantifying spasticity with limited swinging cycles using pendulum test based on phase amplitude coupling

Author: CH Yeh, HWV Young, CY Wang, YH Wang, PL Lee, JH Kang, MT Lo
Journal: IEEE Transactions on Neural Systems and Rehabilitation Engineering
Year: 2016

Spurious cross-frequency amplitude–amplitude coupling in nonstationary, nonlinear signals

Author: CH Yeh, MT Lo, K Hu
Journal: Physica A: Statistical Mechanics and its Applications
Year: 2016

On the computational complexity of the empirical mode decomposition algorithm 

Author: YH Wang, CH Yeh, HWV Young, K Hu, MT Lo
Journal: Physica A: Statistical Mechanics and its Applications
Year: 2014

Conclusion

Professor Chien-Hung Yeh exemplifies the ideal candidate for the Best Researcher Award through his high-impact publications, transformative research, interdisciplinary expertise, and technological innovations. His leadership in both academic and applied research domains, coupled with international collaborations and continuous contributions to scientific advancement, makes him a deserving recipient of this recognition.

Haishan Jiang | Medical Discoveries | Innovation in Science Award

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Dr. Haishan Jiang | Medical Discoveries | Innovation in Science Award 

Dr. Haishan Jiang, Southern Medical University, China

Dr. Haishan Jiang, Chief Physician and Associate Professor at Southern Medical University’s Nanfang Hospital, is a leading expert in neurology, specializing in myopathy, peripheral neuropathy, and rare neurological diseases. As Deputy Director of the Neurology Department and head of the Myopathy and Peripheral Neuropathy subspecialty, he has pioneered gene therapies for SMA and ALS in South China. His research focuses on motor neuron and mitochondrial diseases, as well as gene therapy for rare conditions. Widely recognized, Dr. Jiang has been honored as the “Good Doctor of Guangzhou” and ranks top nationally in physician recommendations for multiple rare diseases.

Author Profile

ORCID

🧑‍🎓 Early Academic Pursuits

Dr. Haishan Jiang embarked on his medical journey with a deep-rooted commitment to understanding the complexities of the human nervous system. With a Doctor of Medicine degree and solid academic grounding, he demonstrated early on a keen interest in neurology, particularly in the areas of myopathy and peripheral neuropathy. His academic path was marked by diligence, a sharp scientific mind, and a profound dedication to uncovering the underlying mechanisms of rare neurological diseases. As a postgraduate supervisor, Dr. Jiang has also shown a strong passion for nurturing the next generation of medical professionals, sharing his knowledge and guiding their research pursuits with patience and precision.

🩺 Professional Endeavors

Currently serving at Nanfang Hospital of Southern Medical University, Dr. Jiang holds several key positions: Chief Physician, Associate Professor, Deputy Director of the Neurology Department, Director of Teaching, and Head of the Myopathy and Peripheral Neuropathy subspecialty. His clinical expertise spans a wide spectrum of neurological disorders, with a particular emphasis on difficult and rare conditions such as motor neuron disease (ALS), mitochondrial encephalomyopathy, and adult-onset spinal muscular atrophy (SMA). Dr. Jiang’s commitment to clinical excellence has led him to establish and lead the Guangdong Province Myopathy and Peripheral Nerve Specialized Alliance, a network aimed at advancing diagnosis, treatment, and research collaboration. Under his leadership, the department ranks among the top two nationally in terms of annual muscle and nerve biopsy volume, solidifying its reputation as a hub for neuromuscular disease care.

🧬 Contributions and Research Focus

Dr. Jiang’s research interests are firmly rooted in neurogenetic disorders, particularly motor neuron diseases (ALS) and mitochondrial disorders. His work seamlessly blends basic science with clinical application, focusing on understanding disease mechanisms and exploring cutting-edge gene therapy approaches. He has spearheaded some of South China’s most advanced gene therapy trials, including the region’s first gene therapy for adult SMA—the fourth such case in the country—and the first ALS gene therapy clinical trial in South China, also the second nationwide. His pioneering research not only contributes to academic knowledge but also offers hope to patients battling previously untreatable conditions. Through his clinical studies, Dr. Jiang is pushing the frontiers of personalized medicine, bringing precision diagnostics and therapy into the mainstream for rare and complex neurological diseases.

🏅 Accolades and Recognition

Dr. Haishan Jiang’s unwavering dedication to medical science and patient care has earned him widespread acclaim. Notably, he was honored as the sixth “Good Doctor of Guangzhou” and selected as part of the ninth batch of “Outstanding Provincial and Municipal Talents Supporting Xinjiang”, a testament to both his clinical excellence and humanitarian spirit. Furthermore, he was recognized by the Good Doctor Network as an “Annual Good Doctor” for his exceptional service in rare disease diagnosis and treatment. His reputation as a leading clinician is reflected in his top rankings in national physician recommendation lists—first place for 13 diseases, including ALS and mitochondrial encephalomyopathy, and second place for 15 others. These accolades not only highlight his expertise but also the trust he has earned from patients and peers alike.

🌍 Impact and Influence

Dr. Jiang’s work has had a transformative impact on neurology in China, particularly in the realm of rare diseases. By advancing the use of gene therapy and establishing regional alliances, he has created a robust infrastructure for collaboration, research, and clinical care. His contributions have significantly improved diagnostic timelines and therapeutic options for patients who previously faced long diagnostic odysseys and limited treatment possibilities. As a teacher and mentor, Dr. Jiang has shaped the careers of countless postgraduate students and young doctors, many of whom now contribute to clinical neurology and research across the country. His influence extends beyond the clinic to policy and advocacy, where he is a strong voice for the rare disease community.

🔬 Legacy and Future Contributions

Dr. Haishan Jiang stands at the forefront of a new era in neurology, where genomics and personalized medicine are reshaping how we understand and treat complex diseases. His legacy is already evident in the systems he has built, the patients he has helped, and the students he has inspired. Looking ahead, Dr. Jiang aims to further expand gene therapy applications, develop innovative treatment protocols, and foster international collaboration in rare disease research. With his continued focus on combining scientific rigor with compassionate care, Dr. Jiang is set to leave a lasting legacy in Chinese and global neurology. His work is not only rewriting the medical narrative for patients with rare conditions but also paving the way for future breakthroughs in neuroscience.

✍️ Publication Top Notes

📘A Multicenter Study of Hereditary Transthyretin Amyloidosis in China

Author: Xujun Chu; Juan Kang; Jingwen Xu; Haishan Jiang; Zhi‐Ying Wu; Qingping Wang; Wei Li; Jia Li;
Journal: Annals of Neurology
Year:2025

📘Knockdown of OPTN modulates miRNA-125b-5p expression via NF-κB pathways in amyotrophic lateral sclerosis

Author: Jian Qin; Ye He; Weiyi Yu; Zhaoyong Zhang; Xiaodan Chen; Yafang Hu; Haishan Jiang
Journal: Archives of Biochemistry and Biophysics
Year: 2025

📘Clinical features of hereditary transthyretin amyloidosis-polyneuropathy with transthyretin Ala97Ser(p.Ala117Ser) mutation in South Mainland China

Author: Yeli Zhu; Jingxian Fan; Xiying Zhu; Wei Li; Zhaoyong Zhang; Hui Zheng; Zhihua Zhou; Lingchao Meng; Ruxu Zhang; Haishan Jiang
Journal: Orphanet Journal of Rare Diseases
Year: 2025