Prof. Wenlong Song | Engineering | Best Scholar Award

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Prof. Wenlong Song | Engineering | Best Scholar Award

Associate Professor | Jining University | China

Prof. Wenlong Song, a distinguished figure in the field of Engineering, has made significant contributions to Mechanical Design, Manufacturing, and Automation. He earned his doctoral degree from Shandong University and serves as an Associate Professor and Graduate Supervisor at the School of Mechanical and Electrical Engineering, Jining University. His Engineering expertise focuses on efficient machining processes and advanced tool technology, where he has played a key role in leading multiple Engineering research initiatives. Prof. Song has successfully hosted several provincial, ministerial, and industrial Engineering projects, which have substantially advanced technological applications in precision machining and automation systems. His Engineering research has resulted in more than fifty academic publications and over forty authorized invention patents, reflecting his strong innovation capabilities and leadership in Engineering development. Recognized for his excellence, he has received multiple municipal and higher-level awards for his Engineering achievements. Prof. Song’s Engineering research skills encompass precision design, material optimization, process modeling, and manufacturing automation. His continued dedication to Engineering education and research demonstrates his commitment to nurturing the next generation of Engineering scholars while expanding the boundaries of modern mechanical systems. Through his extensive Engineering background and innovative approach, Prof. Wenlong Song stands out as a leading expert whose work continues to impact the Engineering community globally. 346 Citations, 33 Documents, 11 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. (2025). Analytical and experimental investigation of vibration response for the cracked fluid-filled thin cylindrical shell under transport condition. Applied Mathematical Modelling.

2. (2025). Friction behavior of molybdenum disulfide/polytetrafluoroethylene-coated cemented carbide fabricated with a spray technique in dry friction conditions. Coatings.

3. (2024). Fabrication and tribology properties of PTFE-coated cemented carbide under dry friction conditions. Lubricants.

Wang Yuqi | Engineering | Best Researcher Award

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Mr. Wang Yuqi | Engineering | Best Researcher Award

postgraduate | Harbin Engineering University | China

Mr. Wang Yuqi is an accomplished researcher from Harbin Engineering University with a strong foundation in Mechanical and Electronic Engineering and Marine Robot systems, excelling in the field of engineering through his work on advanced robotics and intelligent control systems. His academic journey includes a master’s focus on marine robotics and an undergraduate specialization in mechanical and electronic engineering, supported by numerous honors and scholarships that highlight his academic excellence. His professional experience spans leading roles in engineering projects, including the design and optimization of deep-sea exploration ROV control systems, intelligent unmanned hovercraft, and sea cucumber robot technologies, where he applied cutting-edge engineering methodologies such as FreeRTOS-based scheduling, STM32 circuit design, FPGA communication protocols, and ROS data processing. He has further contributed as an intern at the National Deep Sea Base Management Center and Midea Group, where he advanced engineering solutions for marine exploration and motor control systems. His research interests lie in engineering design for underwater robotics, intelligent control, sensor integration, and embedded systems, which have led to recognition in national and international competitions. Mr. Wang Yuqi’s engineering expertise is complemented by strong skills in programming (C/C++, MATLAB), simulation and design tools, communication protocols, and hardware debugging, making him a versatile and innovative researcher. His achievements in engineering, both academically and professionally, have earned him awards, leadership roles, and recognition for his contributions to innovation in robotics and intelligent systems, reflecting a promising career in engineering research and application. 13 Citations, 6 Documents, 3 h-index

Profiles: Scopus | ORCID

Featured Publications

1. Zhang, H., Sun, Y., Zhao, Y., Xie, Y., Li, X., Wang, Y., & Zhao, C. (2024). Corrosion and carburization of Ni<sub>3</sub>Al-based superalloys in high-temperature carbon dioxide. Materials and Corrosion.

2. Huang, Y., Wang, Y., Yu, S., Zhang, H., & Zhao, C. (2024). Hot deformation behavior and dynamic recrystallization mechanisms of a Mn-Cu damping alloy. Materials Today Communications.

3. Huang, Y., Wang, Y., Yu, S., Zhang, H., & Zhao, C. (2024). Hot deformation behavior and dynamic recrystallization mechanisms of a Mn-Cu damping alloy. SSRN.

4. Li, X., Yu, S., Huang, Y., Wang, Y., Zhang, H., & Zhao, C. (2024). Impact of secondary γ’ precipitate on the high-temperature creep properties of DD6 alloy. Metals and Materials International.

5. Huang, Y., Wang, Y., Yu, S., Zhao, C., Zhao, Y., & Zhang, H. (2024). Influence of aging heat treatment on microstructure and mechanical properties of a novel polycrystalline Ni3Al-based intermetallic alloy. SSRN.

Prof. Levent Trabzon | Engineering | Best Researcher Award

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Prof. Levent Trabzon | Engineering | Best Researcher Award

Faculty Member | Istanbul Technical University | Turkey

Prof. Levent Trabzon is a distinguished academic in Engineering, serving as Professor at Istanbul Technical University and Director of the MEMS Research Center. With a Ph.D. in Engineering Science from Penn State University, along with advanced degrees in Material Science & Engineering, he has built a career at the forefront of mechanical and materials Engineering. His professional journey spans leadership roles such as founding director of nanotechnology centers, advisory positions in international Engineering institutions, and consultancy in emergency management. His research covers microfluidics, MEMS, NEMS, nanomaterials, biomaterials, thin film deposition, and innovation in Engineering systems, with active involvement in international collaborations and numerous funded projects. Recognized with multiple Performance Awards, Article Performance Awards, and international innovation prizes, his work has significantly advanced Engineering applications in energy, environment, healthcare, and manufacturing. His Engineering skills include nanotechnology design, microsystem modeling, thin film fabrication, advanced materials processing, and innovation management. A prolific researcher with over a hundred documents in leading Engineering journals and conferences, his impact is reflected in patents, invited talks, and global recognition. Prof. Levent Trabzon continues to push the boundaries of Engineering through teaching, mentoring, and pioneering projects that integrate cutting-edge technologies for societal benefit. 1,422 Citations by 1,301 documents, 100 Documents, 19 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. Benzait, Z., & Trabzon, L. (2018). A review of recent research on materials used in polymer–matrix composites for body armor application. Journal of Composite Materials, 52(23), 3241–3263.

2. Saleem, H., Trabzon, L., Kılıç, A., & Zaidi, S. (2020). Recent advances in nanofibrous membranes: Production and applications in water treatment and desalination. Desalination, 478, 114178.

3. Ramazanoglu, M., Lutz, R., Rusche, P., Trabzon, L., Kose, G. T., Prechtl, C., & other authors. (2013). Bone response to biomimetic implants delivering BMP-2 and VEGF: An immunohistochemical study. Journal of Cranio-Maxillofacial Surgery, 41(8), 826–835.

4. Wang, J., Yang, Y., Wang, Y., Dong, S., Cheng, L., Li, Y., Wang, Z., Trabzon, L., & other authors. (2022). Working aqueous Zn metal batteries at 100 °C. ACS Nano, 16(10), 15770–15778.

5. Benzait, Z., Chen, P., & Trabzon, L. (2021). Enhanced synthesis method of graphene oxide. Nanoscale Advances, 3(1), 223–230.

Takwa Hamdi | Engineering | Women Researcher Award

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Ms. Takwa Hamdi | Engineering | Women Researcher Award

PhD Candidate | National Engineering School of Gabes | Tunisia

Ms. Takwa Hamdi is a dedicated PhD student in Mechanical Engineering with a strong foundation in Engineering education, holding a bachelor’s, master’s, and doctoral-level specialization in Mechanical and Energy Engineering, with her research focusing on advanced combustion modeling, dual-fuel internal combustion engines, and sustainable alternative fuels. Her professional Engineering experience includes serving as an adjunct lecturer, where she taught courses on dismountable assembly processes, welding, CAD design, and supervised Engineering design projects, equipping students with practical and theoretical knowledge of Engineering principles. Her research interest lies in energy efficiency, low-emission combustion technologies, and the application of Engineering simulation tools such as Ansys Forte, SolidWorks, Matlab, Autocad, Mastercam, Abaqus, and Gnuplot, where she applies computational fluid dynamics and numerical methods to optimize Engineering performance. She has also contributed to scientific publications in the domain of dual-fuel compression ignition engines, showcasing her commitment to advancing Engineering sustainability. Ms. Hamdi has been recognized academically as a class valedictorian, which highlights her excellence and honor in the field of Engineering. Her Engineering research skills encompass analytical thinking, problem solving, and innovation, reinforced by her active engagement in teaching and scientific collaboration. In conclusion, Ms. Takwa Hamdi demonstrates a remarkable blend of Engineering knowledge, professional experience, and research capability, making her a promising researcher whose Engineering contributions are expected to have a significant impact on energy and sustainability fields.

Profile: Scopus

Featured Publications

1. Effects of H2 substitution on combustion and emissions in ammonia/diesel compression ignition engine. (2025). Energy Conversion and Management.

Dr. Minati Kumari Sahu | Engineering | Best Researcher Award

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Dr. Minati Kumari Sahu | Engineering | Best Researcher Award

Researcher | CSIR NML | India

Dr. Minati Kumari Sahu has established herself as a dedicated professional in Engineering, with strong expertise in materials science, non-destructive testing, and quality management systems, demonstrating excellence in Engineering through her academic achievements including B.Sc., M.Sc., M.Tech., and Ph.D. in areas closely aligned with Engineering applications. Her professional experience spans advanced Engineering roles in CSIR-NML, NIT Jamshedpur, and Tata Steel, where she applied Engineering-driven approaches for material characterization, creep damage evaluation, weld defect assessment, and optimization of electromagnetic stirring parameters. With significant research contributions in Engineering-focused domains such as nonlinear ultrasonic testing, acoustic wave simulation, and signal processing, she has authored numerous SCI journal papers, patents, and software copyrights, proving her Engineering research skills. Her research interests remain centered on Engineering-based microstructural analysis, advanced NDE techniques, and computational modeling. Recognized with the prestigious Dr. M. Pancholy Memorial Award for best oral presentation, she has shown distinction in advancing Engineering knowledge. Her technical skills extend to Engineering software tools like COMSOL, MATLAB, and LabVIEW, enhancing her research capabilities in Engineering simulations and testing. Throughout her journey, she has contributed to Engineering by integrating academic insights with industrial applications, thereby bridging theoretical concepts with practical problem-solving. With a strong foundation in Engineering, coupled with honors and impactful publications, Dr. Minati Kumari Sahu stands as a role model in Engineering research and innovation. In conclusion, her career reflects a consistent pursuit of excellence in Engineering, combining knowledge, skills, and dedication to drive forward advancements in the field of Engineering. Her Google Scholar citations 46, h-index 5, i10-index 1, showcasing measurable research impact.

Profiles: ORCID | Google Scholar

Featured Publications

1. Ghosh, A., Sahu, M., Singh, P. K., Kumar, S., Ghosh, M., & Sagar, S. P. (2019). Assessment of mechanical properties for dissimilar metal welds: A nondestructive approach. Journal of Materials Engineering and Performance, 28(2), 900–907.

2. Sahu, M. K., Swaminathan, J., Bandhoypadhyay, N. R., & Sagar, S. P. (2018). Creep damage evaluation in P92 steel using second harmonic of high power ultrasonic signal. Materials Today: Proceedings, 5(2), 4467–4474.

3. Sahu, M., Ghosh, A., Dutta, C., Kumar, J., & Sagar, S. P. (2025). Creep strain prediction in power plant material via ANN modelling of nonlinear ultrasonic test results. Nondestructive Testing and Evaluation, 40(3), 932–953.

4. Sahu, M. K., & Sagar, S. P. (2021). Nonlinearity in the propagation of acoustic waves: Simulation and experimental validation in a creep damaged material. Materials Today: Proceedings, 44, 2251–2256.

5. Balamurugan, S., Mathan, G., Dey, A., Mukherjee, G., Sahu, M., & Pandey, J. C. (2012). Cracking of tungsten carbide rolls during hot rolling of branded rebars in a bar mill. Engineering Failure Analysis, 26, 182–191.

Dr. R. Dinesh | Engineering | Best Researcher Award

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Dr. R. Dinesh | Engineering | Best Researcher Award

Professor at HKBK college of Engineering | India

Dr. R. Dinesh has built a distinguished career in Engineering, merging academic excellence with practical expertise. His work spans VLSI design, optical communication, wireless networks, and digital systems. With extensive Engineering experience in teaching, research, and industrial projects, he has guided numerous Engineering students and contributed to international journals and conferences. His Engineering career highlights patents, books, and impactful innovations. He has been actively involved in Engineering workshops, seminars, and technical committees, showcasing leadership in advancing Engineering knowledge and bridging academia with cutting-edge technology applications.

Professional Profile

Google Scholar Profile 

Education 

Dr. R. Dinesh’s Engineering education reflects deep specialization across multiple domains. He earned a Ph.D. in VLSI Design, building strong foundations in Engineering research and digital systems innovation. He further enhanced his Engineering expertise through a Master of Engineering in Optical Communication and a Bachelor of Engineering in Electronics and Communication. He also holds an MBA, enriching his Engineering leadership and management skills. This robust Engineering academic background has empowered him to contribute meaningfully to both theoretical and applied aspects of Engineering across diverse platforms and collaborations.

Experience 

Dr. R. Dinesh has over two decades of Engineering experience, combining academic positions with industrial roles. He served as Professor, Head of Department, and coordinator in several Engineering colleges across Tamil Nadu and Kerala, driving academic excellence. His Engineering contributions include supervising VLSI, communication, and IoT projects, acting as a reviewer for IEEE and international journals, and advancing Engineering education through curriculum design. In industry, he worked on FPGA platforms, audio codecs, and embedded controllers, applying Engineering principles to real-world challenges and ensuring knowledge transfer between academia and industry.

Research Interest 

Dr. R. Dinesh’s Engineering research interests focus on VLSI design, wireless communication, IoT systems, FPGA architecture, and low-power ADPLL implementations. His Engineering studies address efficiency, precision, and optimization in digital circuits, supporting next-generation technologies. He continuously explores Engineering challenges like frequency resolution, power reduction, and hardware utilization, contributing to advancements in modern communication systems. His Engineering publications demonstrate innovation and practical value, influencing both theoretical models and industrial solutions in contemporary Engineering domains of national and international relevance.

Award and Honor

Dr. R. Dinesh has been honored for outstanding Engineering contributions, including Best Faculty Awards and recognition for delivering excellent academic results in complex Engineering subjects. He has guided multiple Engineering-based projects, delivered invited lectures, and reviewed high-impact Engineering conferences and journals. His Engineering achievements extend to patents in IoT, virtual reality, renewable energy, and digital systems. These honors reflect his sustained Engineering excellence, dedication to education, and commitment to innovation, solidifying his reputation as a respected leader in Engineering education and applied technology development.

Research Skill

Dr. R. Dinesh demonstrates strong Engineering research skills, integrating analytical thinking, design verification, and practical prototyping. His expertise spans HDL languages, EDA tools, and system-level Engineering design. He has mastered simulation, synthesis, and hardware testing in Engineering environments, ensuring reliable outcomes. His research blends theoretical frameworks with Engineering experimentation, producing valuable insights for academic and industrial growth. Through publications, patents, and collaborative projects, he contributes high-level Engineering knowledge while fostering innovation among students and peers in rapidly evolving technological landscapes.

Publication Top Notes 

Title: A survey about WSN and IoT based health care applications and ADPLL contribution for health care systems
Journal: 2019 IEEE 10th International Conference on Awareness Science and Technology
Authors: R Dinesh, R Marimuthu

Title: A Survey on ADPLL Components and their effects upon Power, Frequency and Resolution
Journal: International Journal of Applied Engineering Research
Authors: R Dinesh, R Marimuthu

Title: A wide range high resolution digital controlled oscillator with high precision time to digital convertor for optimal sampling digital PLL
Journal: Microprocessor and Micro Systems
Authors: R Dinesh

Title: GINSER: Geographic Information System Based Optimal Route Recommendation via Optimized Faster R-CNN
Journal: International Journal of Computational Intelligence Systems
Authors: SD Anitha Selvasofia, B SivaSankari, R Dinesh, N Muthukumaran

Title: An analysis of ADPLL applications in various fields
Journal: Indonesian Journal of Electrical Engineering and Computer Science
Authors: DR R. Dinesh

Title: Comparison of Two ADPLL Structures for IoT Applications
Journal: 2019 International Conference on Recent Advances in Energy-efficient Computing and Communication
Authors: R Dinesh, R Marimuthu

Title: M-DODGE: Mutation Based Dragon Fly Optimized Deep Learning Model for Congestion Control in MANET
Journal: IETE Journal of Research
Authors: R Dinesh, A Ahilan, N Muthukumaran, S Gladson

Title: MANC NET: Multitude Active Noise cancellation using Improved Optimized CNN-ALSTM Network
Journal: Journal of Circuits, Systems and Computers
Authors: AA V. D. M. Jabez Daniel, R. Dinesh, R. Manjith

Title: Aerial image segmentation using auto encoders and nonDominated sorted genetic algorithm-II enhanced by nonLinear analysis
Journal: Journal of Computational Analysis & Applications
Authors: S Subramanian, M Kavitha, R Dinesh, SS Banu, AK Kaushal

Title: Semantic segmentation and content based retrieval in multimedia image databases
Journal: ICTACT Journal on Image and Video Processing
Authors: R Dinesh

Conclusion

Dr. R. Dinesh’s career demonstrates dedication to Engineering education, research, and innovation. His Engineering journey combines technical depth with leadership, empowering future engineers and advancing academic programs. Through impactful publications, patents, and industry collaborations, he continues to strengthen Engineering practices, contributing to both technological growth and societal benefit. His Engineering expertise remains an asset to institutions, research networks, and industries seeking reliable, efficient, and forward-thinking solutions in complex digital and communication systems of modern Engineering.