Soyoung Jung | Engineering | Research Excellence Award

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Dr. Soyoung Jung | Engineering | Research Excellence Award

Dongyang University |  South Korea

Soyoung Jung, Ph.D., is an accomplished associate professor in the School of Smart System at Dongyang University, Engineering South Korea, with a strong interdisciplinary background in civil and environmental engineering, transportation engineering, statistics, and quantitative planning. Her academic training spans premier institutions in the United States and Korea, shaping her expertise in data-driven transportation safety, emergency medical service systems, and smart safety infrastructure. Dr. Jung’s research focuses on integrating spatial analysis, data mining, simulation, and optimization techniques to improve traffic safety, pre-hospital emergency medical services, and regional equity in emergency response systems, particularly across rural and urban networks. She has led numerous nationally funded research projects as principal investigator, supported by the National Research Foundation of Korea and multiple government ministries, addressing topics such as emergency patient transport efficiency, ambulance–helicopter coordination, EMS resource optimization, weather-related traffic safety, and large-scale safety prediction models. Her scholarly output demonstrates sustained impact in transportation and safety engineering, reflected in a solid publication record with a strong h-index, substantial number of indexed documents, and a notable citation count, highlighting the relevance of her work within the global research community. Through research, teaching, and funded innovation, Dr. Jung continues to contribute to the advancement of smart safety systems and evidence-based transportation policy.

Citation Metrics (Scopus)

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Citations
288

Documents
19

h-index
7

Citations

Documents

h-index


View Scopus Profile

Featured Publications

Xu Ge | Statistical Applications in Engineering | Industrial Statistics Award

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Mr. Xu Ge | Statistical Applications in Engineering | Industrial Statistics Award

Shanghai Jiao Tong University | China

Mr. Xu Ge is a promising researcher specializing in control science, soft sensing, and intelligent systems, currently pursuing his Ph.D. at the UM-SJTU Joint Institute, Shanghai Jiao Tong University. He earned his Bachelor’s degree in Automation from the School of Mechanical Engineering and Automation at Harbin Institute of Technology (Shenzhen), where he consistently demonstrated academic excellence and technical innovation. Throughout his academic journey, Xu Ge has been recognized with numerous honors, including the prestigious National Scholarship, Topband Enterprise Scholarship, and First-Class Academic Scholarship. His university distinctions-Outstanding Student, Outstanding CYL Member, Outstanding Graduate, and Outstanding Thesis-further highlight his commitment to excellence. Xu has achieved remarkable success in national competitions, winning the ROBOCOM National First Prize, ROBOCON National Third Prize, the National Undergraduate Smart Car Competition (Outdoor Track) National Third Prize, and the National Undergraduate Mathematics Competition Provincial First Prize. His research experience reflects a strong interdisciplinary background bridging control engineering, machine learning, and system modeling. Notably, in the NSFC project “Online Estimation of Loads and Fatigue Life Prediction of Key Chassis Components under Random Driving Conditions,” he designed a soft-sensing framework that enables high-accuracy signal estimation through data-driven models and developed an embedded system for real-world vehicle testing. His collaboration with BYD on the “New Energy Vehicles Technology Program” showcased his expertise in robotics and deep learning, where he constructed datasets from BYD blade-battery modules and integrated neural networks with classical algorithms for precise robotic welding detection and operation. Xu Ge has contributed several impactful publications, including works in Mechanical Systems and Signal Processing and IEEE Transactions on Vehicular Technology, and papers accepted for presentation at IECON 2025. His accepted and submitted research covers a wide range of topics, such as vehicle sensor optimization, kernelized modeling for wheel load estimation, and battery electrochemical parameter identification through hybrid optimization methods. With his strong foundation in algorithm design, system integration, and data-driven control, Xu Ge continues to push the frontiers of intelligent mechanical systems and vehicular sensing technologies, aspiring to develop innovative, high-performance solutions that bridge theoretical advancements with industrial applications.

Profile: Google Scholar

Featured Publications

Ge, X., Li, M., Zhou, J., Qiu, Y., & Zhang, M. (2026). MMSE noncausal FIR based wheel force soft-sensing under Bernoulli-uniform prior. Mechanical Systems and Signal Processing, 242, 113601.

Ge, X., Zhang, M., Zhou, J., Chen, W., Li, X., & Li, M. (2025). Vehicle sensor configuration optimization for tire force estimation based on Min-Max SDP. In IECON 2025 – 51st Annual Conference of the IEEE Industrial Electronics Society.

Deepak Kumar | Design of Experiments (DOE) | Best Researcher Award

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Mr. Deepak Kumar | Design of Experiments (DOE) | Best Researcher Award

Indian Institute of Technology | India

Mr. Deepak Kumar is a dedicated engineer-researcher driving frontier work in fluid mechanics, multiphase flows, atomization, and energy sustainability. He completed his B.Tech in Aeronautical Engineering from Gautam Buddha Technical University, followed by an M.Tech in Aerospace Engineering from the Indian Institute of Technology Kanpur and is nearing completion of his Ph.D. in Aerospace Engineering at IIT Kanpur, where he has built a strong academic and experimental foundation. His industry-relevant research spans primary breakup of jets in cross-flow and swirling air, twin-fluid injectors for fluidized bed catalytic cracking risers sponsored by HPCL, throttleable rocket injectors developed for ISRO, and urea-deposition and thermal-decomposition studies for SCR after-treatment systems sponsored by Cummins. Before entering academia, he served as Senior Project Associate and Project Engineer at IIT Kanpur and is currently a faculty member at VIT University, Bhopal. He is proficient in advanced experimental diagnostics such as LDV/PDPA, PIV, high-speed imaging, 3D hot-wire anemometry, and sensor-based DAQ systems, and is skilled in software tools like LabView, TecPlot 360, ANSYS Workbench, and ICEM-CFD, along with programming expertise in C++, MATLAB, and Python. His research output includes multiple peer-reviewed journal papers and numerous international conference presentations, recognized with a Best Paper Award for his work on twin-fluid injectors for modern FCC systems. He has also mentored students as a tutor and teaching assistant in fluid mechanics and rate processing on both IIT Kanpur and NPTEL platforms. According to available bibliometric sources, his h-index stands at approximately 1, with 4 total citations and 17 published documents, highlighting his growing impact in the fields of alternative fuels, atomization, and flow diagnostics. Dr. Kumar continues to pursue innovation aimed at addressing global energy-sustainability challenges while inspiring the next generation of engineers and researchers.

Profiles: Scopus |  Orcid

Featured Publications

Kumar, D., & Kushari, A.. Spray dynamic in twin-fluid atomizer with tangentially air intake. Journal of Fluid Mechanics, 897, 112–125.

Kumar, D., Sikroria, T., & Kushari, A. Droplet dynamics of liquid jet in swirling crossflow air at elevated pressure environment. Journal of Engineering for Gas Turbines and Power.

Kumar, D., & Kushari, A. Spray dynamic in twin-fluid atomizer with tangentially air intake. Chemical Engineering & Technology.

Kumar, D., Sikroria, T., & Kushari, A. Experimental study on liquid jet trajectory in cross flow of swirling air at elevated pressure condition. Journal of Engineering for Gas Turbines and Power.

Kumar, D., Kushari, A., Kumar, P., & Mishra, H. Droplet size distribution in twin fluid nozzle for modern FCC riser. Journal of Fluid Flow, Heat and Mass Transfer.

BHASKAR A | Survival Analysis and Reliability | Best Researcher Award

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Mr. BHASKAR A | Survival Analysis and Reliability | Best Researcher Award

SRM Institute of Science and Technology (SRMIST) | India

Mr. Bhaskar A is a highly accomplished academic and industry professional with over two decades of experience in mechanical engineering, manufacturing, and Agile methodologies. Currently serving as an Assistant Professor (Selection Grade) and Scrum Master at SRM Institute of Science and Technology (SRMIST), Ramapuram, he has played a pivotal role in integrating Agile practices into engineering education, mentoring teams, and enhancing organizational productivity. His educational journey includes an MBA from Annamalai University, an M.E. in Manufacturing Engineering from Madras Institute of Technology, and a B.E. in Mechanical Engineering from the University of Madras, and he is presently pursuing a part-time Ph.D. in Lean Manufacturing from Anna University. Over his career, he has held positions as an Assistant Professor at several engineering colleges and worked in industry roles including Production Engineer, contributing to process improvements and team management. Dr. Bhaskar has made significant research contributions in lean manufacturing, mechanical properties of materials, and the application of Agile methodologies, with numerous publications in journals and conferences. Beyond research and teaching, he is dedicated to continuous professional development, having completed multiple Faculty Development Programs, workshops, and online courses in project management, digital manufacturing, materials science, and other emerging technologies, reflecting his commitment to advancing knowledge and fostering innovation in engineering education.

Profiles:  Google Scholar | Linked In

Featured Publications

Alexpandian, A. S., Rajesha, M., Loganathan, P., Hariram, V., & [Y.R.]. (2023). Optimization of machining parameters to improve surface quality in the abrasive water jet cutting of AA6351 aluminium alloy. International Journal of Vehicle Structures & Systems, 15(4), 547–551.

Devaraju, A. B. A. (2025). Integrated ERP lean model for quality enhancement and operational excellence in SME based automotive mould manufacturing. Scientific Reports, 15(35979), 1–16.

Jeffrey, V. P. S. S. J. A., Govindaraj, S., Mahesh, R., Bhaskar, A., Arunkumar, K., & [R.]. (2025). Influence of Fe2O3 nanoparticle-infused waste cooking oil biodiesel on the emission, performance, and combustion aspects towards a cleaner environment. Journal of Environmental Nanotechnology, 14(3), 466–476.

Yoganjaneyulu, G., Perumal, V. S., Sivasankaran, S., Annamalai, B., & Niranjan, T. (2025). Strategic method to enhancing the formability of Nitinol foils via micro-incremental sheet forming processes and evaluation of structure–property. Metals and Materials International, 1–15.

Hepsi, B. M. J., Bhaskar, A., Rekha, R. S., & Vasanthi, P. (2024). Wear behavior of hemp-flax-glass fibre hybrid composite material. Advances in Additive Manufacturing Technologies, 75–79.

Xin Chen | Statistical Applications in Engineering | Best Researcher Award

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Dr. Xin Chen | Statistical Applications in Engineering | Best Researcher Award

Hainan University | China

Dr. Xin Chen is a distinguished petroleum engineering researcher currently serving as an Associate Researcher at the School of Marine Science and Engineering, State Key Laboratory of Marine Resource Utilization in the South China Sea, Hainan University. He obtained his Bachelor’s and Master’s degrees in Petroleum and Drilling Engineering from the China University of Petroleum, East China, and earned his Doctor of Philosophy in Petroleum Engineering from the University of Alberta. His research integrates theoretical modeling and experimental analysis to address complex challenges in gas hydrate systems, marine carbon sequestration, multiphase flow thermodynamics, enhanced oil recovery, polymer modification, and well cementing technologies. Dr. Chen has contributed significantly to advancing hydrate equilibrium calculations, cement slurry stability, and hydrocarbon phase behavior modeling. His prolific academic output includes numerous publications in top-tier journals such as Chemical Engineering Science, Fluid Phase Equilibria, Construction and Building Materials, SPE Journal, Energy, and Journal of Physical Chemistry C. In addition to his journal papers, he is a co-inventor on multiple international and national patents focusing on high-temperature and low-temperature well cementing systems, thermal-thickening stabilizers, and self-generating nitrogen foamed cement technologies. Dr. Chen has actively participated in several major research projects related to CO₂ sequestration in marine sediments, advanced reservoir fluid modeling, and wellbore cementing performance optimization, collaborating with both academic and industrial partners. He also serves as a peer reviewer for leading journals including Fuel, Engineering, Petroleum Science, and Construction and Building Materials, demonstrating his commitment to maintaining high standards in scientific publishing. According to Scopus, Dr. Xin Chen’s academic profile reflects a robust research impact with an h-index of 14, 26 documents, and more than 488 citations, signifying his growing global recognition in petroleum and energy engineering research.

Profiles: Scopus Orcid

Featured Publications

Yang, H., Li, H., Xu, H., Wang, R., Zhang, Y., Xing, L., Chen, X., Peng, L., Kang, W., & Sarsenbekuly, B. (2026). Enhanced CO2 foam stabilization with fluorescent nano polymer microspheres for improved oil recovery: Insights from microscopic and macroscopic displacement studies. Geoenergy Science and Engineering.

Jiang, H., Yang, H., Ning, C., Peng, L., Zhang, S., Chen, X., Shi, H., Wang, R., Sarsenbekuly, B., & Kang, W. (2025). Amphiphilic polymer with ultra-high salt resistance and emulsification for enhanced oil recovery in heavy oil cold recovery production. Geoenergy Science and Engineering.

Yufeng Jiang | Statistical Applications in Engineering | Best Researcher Award

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Assoc Prof. Dr. Yufeng Jiang | Statistical Applications in Engineering | Best Researcher Award

Ocean University of China | China

Assoc Prof. Dr. Yufeng Jiang is an Associate Professor at the Ocean University of China, specializing in the health monitoring and safety assessment of offshore and marine engineering structures. With a strong academic foundation from the Ocean University of China, he has dedicated his career to advancing intelligent damage diagnosis methods that can directly utilize incomplete information while maintaining high noise robustness. He innovatively developed an iterative two-stage damage identification methodology capable of simultaneously locating structural damage and assessing its severity. Dr. Jiang has designed a hardware network of fiber optic sensors for condition monitoring of deepwater pressure-resistant subsea structures and created an intelligent structural health monitoring and early warning system, which has been successfully applied in a 500-meter deep-sea mixed-transport system demonstration project. His research has led to 20 Documents , 10 patents, and collaboration on three major research projects, resulting in a citation count of 111 and an h-index of 6, reflecting the significant impact of his work. Additionally, he has contributed to two consultancy projects and maintained collaborations across multiple institutions, consistently translating innovative research into practical engineering applications. Dr. Jiang continues to advance the field of marine structural safety with a focus on applied intelligence and robust monitoring solutions.

Profiles: Scopus  Orcid

Featured Publications

Liu, Y., Wang, S., Jiang, Y., & Du, J. (2025). A spatial deformation reconstruction method of deep-sea mining riser from sparse inclination measurements. Ocean Engineering.

Wang, C., Luo, D., Guo, Y., Zheng, Z., Jiang, Y., & Du, J. (2025). A novel stochastic model updating method for offshore platforms based on Kriging model with active learning. Ocean Engineering.

Jiang, Y., Ma, C., Wang, S., & Li, Y. (2024). A novel evolutionary algorithm for structural model updating with a hybrid initialization and multi-stage update strategy. Ocean Engineering.

Jiang, Y., Liu, Y., Wang, S., & Rakicevic, Z. (2024). Structural damage classification in offshore structures under environmental variations and measured noises using linear discrimination analysis. Structural Control and Health Monitoring.

Liu, Y., Jiang, Y., Zhao, H., Wang, S., & Han, J. (2023). Experimental investigation on vortex-induced vibration characteristics of a segmented free-hanging flexible riser. Ocean Engineering.

Mr. Abhay Kumar | Design of Experiments (DOE) | Best Researcher Award- 11390

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Mr. Abhay Kumar | Design of Experiments (DOE) | Best Researcher Award

Mr. Abhay Kumar | Sardar Vallabhbhai National Institute of technology | India

Dr. Abhay Kumar is a Ph.D. Research Scholar and Senior Consultant at Sardar Vallabhbhai National Institute of Technology (SVNIT), Surat, specializing in Environmental Engineering with a particular focus on solid and liquid waste management. With over 3.5 years of professional experience, he has successfully managed and executed a wide range of projects, including solid waste management, wastewater treatment, waste-to-energy solutions, plastic and legacy waste handling, leachate treatment, and agricultural waste utilization. He has significantly contributed to the development of patented technologies and innovative methodologies for scientific disposal and treatment of industrial and municipal wastes. Dr. Kumar has published numerous research papers in highly reputed journals and international conferences, with an h-index of 1 and a total of approximately 2 citations, reflecting the impact and recognition of his scholarly work in the field of environmental engineering. Beyond his research, he is actively involved in community development initiatives under the Unnat Bharat Abhiyan, implementing sustainable waste management practices in rural areas near Surat. His professional expertise includes environmental impact assessments, preparation of detailed project reports (DPRs), stakeholder engagement, technical supervision, and capacity building. Dr. Kumar is committed to advancing sustainable and practical solutions in waste management while bridging the gap between research, policy, and field implementation to promote environmental sustainability.

Profiles: Scopus Orcid | LinkedIn

Featured Publications

Kumar, A., Yadav, K., & Kumar, S. Comprehensive review on technological advances in landfill leachate management: Physio-chemical characteristics, treatment method and cost analysis. Bioresource Technology Reports, 102222.

Kumar, A., Bhatt, A. D., & Yadav, K. D. Sequential treatment of MSW landfill leachate by primary treatment followed by gravel and ZVI filter media as filter technique. In P. Janardhan, P. Choudhury, & D. N. Kumar (Eds.), Water and Environment, Volume 2. ICWROEE 2024. Lecture Notes in Civil Engineering (Vol. 414). Springer, Singapore.

Kumar, A., & Yadav, K. D. Combined treatment of hazardous waste landfill leachate through electrocoagulation followed by UV process. Paper presented at the 1st International Conference on Environmental Science and Technology 2024, NIT Surat.

Kumar, A., Yadav, K. D., & Kumar, S. MSW landfill leachate color removal by using coagulation and flocculation followed by filtration processes. Paper presented at the International Symposium on Sustainable Waste Management 2023, Department of Mechanical Engineering, Institute of Engineering & Management, Kolkata.

Kumar, A., Jain, P., Mishra, S., & Yadav, K. D. Effect of turbulence on settlement rate of cohesive sediments. Paper presented at the 55th IWWA Annual Convention, Pune.

Fatih kirbiyik | Statistical Applications in Engineering | Best Researcher Award

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Dr. Fatih kirbiyik | Statistical Applications in Engineering | Best Researcher Award

Dr. Fatih kirbiyik | Adiyaman university | Turkey

Dr. Fatih Kirbiyik is a Turkish academic specializing in thermal barrier coatings (TBCs), particularly focusing on functionally graded Al₂O₃/CYSZ systems. He earned his Ph.D. in Metallurgical and Materials Engineering from Istanbul Technical University (ITU) . His doctoral research centered on evaluating the CMAS (Calcium–Magnesium–Alumino-Silicate) and hot corrosion resistance of these TBCs. Dr. Kirbiyik has held academic positions at ITU and served as a visiting researcher at Dublin City University. His work has been recognized with several awards, including the TÜBİTAK Publication Encouragement Award and the Istanbul Technical University Publication Encouragement Award. He has contributed to multiple peer-reviewed journals and conferences, with his research being cited over 80 times. Notably, his publication on the application of thermal gradient and thermal cycling tests to Al₂O₃/CYSZ functionally graded TBCs has been cited 67 times in Scopus. Dr. Kirbiyik’s h-index is 4, with an i10-index of 3, indicating a growing influence in his field. His expertise encompasses materials characterization, plasma spraying, and laser surface modification techniques. Beyond his academic pursuits, he has a keen interest in music and travel.

Profiles: Scopus Google Scholar Orcid

Featured Publications

Kirbiyik, F., Gok, M. G., & Goller, G. Application of thermal gradient and thermal cycling tests to Al2O3/CYSZ functionally graded TBC in the presence of simultaneous hot corrosion and CMAS effects. Surface and Coatings Technology, 444, 128688.

Pakseresht, A., & Mosas, K. K. A. Ceramic coatings for high-temperature environments. In From thermal barrier to environmental barrier applications (p. 491).

Kirbiyik, F., Gok, M. G., & Goller, G. Recent developments on Al2O3-based thermal barrier coatings. In Ceramic coatings for high-temperature environments: From thermal barrier to environmental barrier applications (p. 5).

Kirbiyik, F. Laser surface modification of Al2O3/CYSZ functionally graded TBC against CMAS and hot corrosion damage. Lasers in Manufacturing and Materials Processing, 1–20.

Kirbiyik, F. Microstructural and mechanical investigation of CYSZ/MCrAlY thermal barrier coatings: A comparison of APS and SPS processes. Journal of the Australian Ceramic Society, 1–9.

Nitendra Palankar | Statistical Applications in Engineering | Best Researcher Award

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Dr. Nitendra Palankar | Statistical Applications in Engineering | Best Researcher Award

Don Bosco College of Engineering | India

Dr. Nitendra Palankar is a seasoned academic and researcher specializing in Transportation Engineering and Concrete Technology, with over 12 years of experience in the field. He currently serves as a Professor in the Department of Civil Engineering at KLS Gogte Institute of Technology, Belagavi, Karnataka, India. Dr. Palankar completed his Ph.D. in Civil Engineering (Transportation Engineering) from the National Institute of Technology Karnataka (NITK), Surathkal, in July 2016, following an M.Tech. in the same discipline from NITK in 2012. His doctoral research focused on the “Performance of Alkali Activated Concrete Mixes with Steel Slag as Coarse Aggregate for Rigid Pavements,” under the guidance of Prof. A.U. Ravishankar. He has been actively involved in teaching for over six years and has contributed significantly to the academic community through various roles, including serving as an editorial member for the American Journal of Construction and Building Materials and as a reviewer for several reputed journals and conferences. Dr. Palankar has also been a registered research guide at Visvesvaraya Technological University (VTU), Belagavi, currently supervising two research scholars. His research interests encompass sustainable construction materials, particularly the use of industrial by-products in concrete, and the development of eco-friendly pavement technologies. He has authored numerous publications in high-impact journals, including the Journal of Cleaner Production and the International Journal of Pavement Engineering. Dr. Palankar holds an h-index of 6, with 484 citations. His work has garnered recognition for its contribution to sustainable civil engineering practices, particularly in the context of utilizing industrial waste materials for pavement construction. Through his extensive research and academic endeavors, Dr. Palankar continues to advance the field of transportation engineering, focusing on innovative and sustainable solutions for infrastructure development.

Featured Publications

“Studies on Self-Healing Properties of Glass Fibre Reinforced Bituminous Concrete Mixes”

“Development of regression model for strength prediction of Eco-Friendly alkali activated dry lean concrete for pavements”

“Investigations on performance of alkali activated mortar mixes containing red mud and aluminum dross”

“Performance of Alkali-Activated Mortar Mixes Containing Industrial Waste Materials as Binders”

“A study on the effect of rejuvenators in reclaimed asphalt pavement based stone mastic asphalt mixes”