Chih-Hung Pai | Performance Management | Best Researcher Award

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Prof. Chih-Hung Pai | Performance Management | Best Researcher Award

Director of the Leisure Tourism Development Research Center | The University of Zhejiang Yuexiu University | China

Professor Chih-Hung Pai is an accomplished scholar whose research focuses on the intersections of sustainable tourism, hospitality management, and environmental economics. With a portfolio of nine scholarly publications, 78 citations, and an h-index of 4, his academic influence reflects both depth and interdisciplinary breadth. His body of work contributes significantly to understanding how sustainable practices, innovative technology, and policy frameworks can jointly enhance economic growth and ecological preservation within global tourism systems. His recent studies highlight the integration of environmental conservation and economic progress, emphasizing how sustainable tourism practices shape global economies and support long-term resilience. His contributions to leading indexed journals, including Current Issues in Tourism, Humanities and Social Sciences Communications, and Resources Policy, have offered novel insights into green finance mechanisms, carbon neutrality promotion, and cultural tourism development. Through empirical modeling and policy evaluation, he explores strategies that enable regions, particularly in Asia, to transition toward environmentally responsible and economically viable growth models. In parallel, his research investigates technological innovation in hospitality, analyzing how digital tools, machine learning, and green technologies influence customer experience, service recovery, and organizational competitiveness. Studies such as those on technology adoption in green hotels and data-driven assessments of cultural tourism experiences underscore his commitment to integrating artificial intelligence and sustainability in modern service systems. Furthermore, his work on eco tourism experiences, leisure behavior, and corporate social responsibility within the hospitality sector enriches the understanding of human environment interactions and their socio-economic implications. Collectively, Professor Pai’s scholarly output represents a forward-thinking approach to sustainability science bridging theory with practice and providing actionable pathways for policymakers, educators, and industry stakeholders seeking to harmonize economic prosperity with ecological balance in the evolving global tourism landscape.

Featured Publication

Pai, C.-H., Zhang, Y., Wang, Y.-L., Li, K., & Shang, Y. Current challenges and opportunities in cultural heritage preservation through sustainable tourism practices. Current Issues in Tourism.

Manwika Kongpuang | Rewards & Recognition | Best Researcher Award

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Assist. Prof. Dr. Manwika Kongpuang | Rewards & Recognition | Best Researcher Award

Engineering Lecturer | The University of Faculty of Engineering Prince of Songkla | Thailand

Dr. Manwika Kongpuang dedicated scholar in metallurgy and materials engineering, this researcher’s work focuses on advancing nondestructive testing and structural health monitoring technologies for improved material reliability and infrastructure safety. Their primary expertise lies in acoustic emission techniques, rail steel behavior, metal forming, and semi-solid processing bridging materials science and engineering applications to address industrial and transportation challenges. The research emphasizes the development of innovative diagnostic and monitoring approaches for metallic components, particularly in railway systems, enabling real-time defect detection, predictive maintenance, and performance optimization. The author’s contributions span several high-impact, peer-reviewed journals indexed in Scopus and Web of Science, including Nondestructive Testing and Evaluation, Results in Engineering, Sensors, and Transactions of the Indian Institute of Metals. Their studies have provided new insights into the relationships between microstructure, mechanical performance, and acoustic emission signals in metals under various loading and thermal conditions. Additionally, significant research has been devoted to improving the mechanical and tribological properties of metal matrix composites through advanced casting and heat-treatment processes. Through active participation in international conferences such as the World Conference on Acoustic Emission and the International Conference on Condition Monitoring and Asset Management, the researcher has contributed to global discussions on rail maintenance, digital twin technologies, and sustainable engineering solutions. Their interdisciplinary approach combines experimental investigation, data analysis, and materials characterization to develop efficient, data-driven methods for assessing and extending the life of engineering systems. Overall, the author’s research demonstrates a strong commitment to advancing intelligent condition monitoring, reliability-based maintenance, and sustainable materials innovation, contributing valuable knowledge to the fields of materials science, nondestructive evaluation, and infrastructure engineering.

Featured Publications

Kaewunruen, S., AbdelHadi, M., Kongpuang, M., Pansuk, W., & Remennikov, A. M. Digital twins for managing railway bridge maintenance, resilience, and climate change adaptation.

Kongpuang, M., Chaideesungnoen, S., Muangjunburee, P., Oo, H. Z., & Janudom, S. Effect of post-weld heat-treatment on microstructure and mechanical behavior of Inconel  overlay cladding on  Cr-1Mo steel. Transactions of the Indian Institute of Metals.

Muangjunburee, P., Poolsiri, N., Chaideesungnoen, S., Naultem, A., Oo, H. Z., & Kongpuang, M. Observation on the weld metal of resurfaced rail steel. Chiang Mai Journal of Science.

Kongpuang, M., Culwick, R., Cheputeh, N., Marsh, A., Jantara Junior, V. L., Vallely, P., Kaewunruen, S., & Papaelias, M. Quantitative analysis of the structural health of railway turnouts using the acoustic emission technique. Insight: Non-Destructive Testing and Condition Monitoring.

Jae Park | Wastewater Treatment | Best Researcher Award

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Prof. Dr. Jae Park | Wastewater Treatment | Best Researcher Award

Professor Emiritus | The University of Univ. of  Wisconsin-Madison | United States

Professor Jae Kwang Park is a leading researcher in Civil and Environmental Engineering, whose scholarly work has significantly advanced the understanding of environmental pollution control, contaminant transport, and sustainable waste and water management systems. His research has focused extensively on the mechanisms governing pollutant dispersion, sorption, and permeation in aquatic and subsurface environments. By integrating principles of hydrodynamics, environmental chemistry, and material science, he has provided deep insights into the fate and transport of organic and inorganic contaminants across engineered and natural barriers. His studies on pollutant dispersion in estuarine systems, for instance, have produced foundational models for analyzing tidal mixing, stratified flow behavior, and mass transport processes that are crucial to understanding pollutant migration in coastal waters.In the field of wastewater and solid waste management, his contributions include the development of advanced treatment technologies using ozonation, photocatalytic oxidation, and membrane filtration to remove persistent organic pollutants. His work on the permeation of volatile organic compounds through geomembranes, polymeric pipes, and landfill liners has been pivotal in assessing the long-term performance of containment systems, directly influencing design standards and environmental protection regulations. He has also explored the use of recycled and synthetic materials, such as shredded tires and geomembranes, for the mitigation of contaminant movement in landfills, bridging the gap between waste reuse and environmental safety.Professor Park’s interdisciplinary research extends to understanding microbiologically influenced corrosion, pyrolysis kinetics of rubber materials, and thermodynamic modeling of sorption in polymers, reflecting his commitment to solving multifaceted environmental engineering challenges through innovative methodologies. His body of work demonstrates both theoretical depth and practical relevance, providing valuable tools for environmental monitoring, infrastructure safety, and pollution prevention.

Profiles:  Scopus | ORCID

Featured Publications

Park, J. K., & Park, J. H. Advanced treatment of wastewater using ozone. Korean Society of Civil Engineers.

Park, J. K., & James, A. Tidal variation of salt flux and dispersion in a polluted estuary. Water Science and Technology.

Park, J. K., & James, A. Modeling of pollutant dispersion in stratified oscillatory flows. Journal of Environmental Engineering.

Park, J. K., & James, A.  Time-varying turbulent mixing in a stratified estuary and the application to a Lagrangian 2-D model. Estuarine, Coastal and Shelf Science.

Park, J. K., & James, A.  A unified method of estimating longitudinal dispersion in estuaries. Water Science and Technology.

Paul Reaidy | Conflict Resolution | Best Researcher Award

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Prof. Dr. Paul Reaidy | Conflict Resolution | Best Researcher Award

Professor | The University of  Grenoble IAE – INP | France

Prof. Dr. Paul Reaidy is a distinguished academic in Management Sciences recognized for his exceptional contributions to supply chain research and industrial innovation.  Professionally, he has served as a logistics and supply chain consultant with global organizations such as Capgemini Consulting Group and Michelin Industry, where he developed practical expertise in operational optimization, integration, and digital transformation of supply networks. His research interests encompass supply chain integration, resilience, Industry 4.0, blockchain arbitration, and sustainable logistics, areas in which he has published extensively in high-impact international journals including Production Planning & Control, Business Process Management Journal, and The International Journal of Logistics Management. With 11 publications, 683 citations, and an h-index of 11, his work has made significant academic and practical contributions to advancing intelligent and collaborative supply chain models. His research skills span quantitative modeling, multi-criteria decision analysis, blockchain applications, and big data analytics for logistics, supported by strong methodological and analytical rigor. As a member of (Center for Applied Studies and Research in Management), he has actively engaged in collaborative projects focusing on digitalization and supply chain sustainability. His achievements and growing citation influence reflect his commitment to excellence and leadership in academic research. In conclusion, Prof. Reaidy exemplifies a modern scholar integrating engineering precision with managerial innovation, contributing meaningfully to the development of resilient and technology-driven supply chain ecosystems. His multidisciplinary expertise, impactful publications, and collaborative research vision continue to position him as a key contributor to the future of global supply chain management and industrial digital transformation. ooking ahead, Prof. Reaidy’s future research potential is substantial and forward-looking. He is well-positioned to lead innovative projects on resilient, data-driven, and human-centric supply chain ecosystems leveraging AI, blockchain, and IoT convergence. His recent focus on blockchain arbitration and circular supply chains indicates a progressive orientation toward ethical and sustainable digital transformation. Future directions may include advancing frameworks for AI-enabled dispute resolution, smart contract governance, and collaborative logistics under uncertain environments. With his established citation influence and interdisciplinary expertise, Prof. Reaidy is poised to become a leading thought leader driving the next generation of intelligent, transparent, and sustainable supply chain systems on a global scale.

Profile: Google Scholar

Featured Publications

Reaidy, P. J., Gunasekaran, A., & Spalanzani, A. Bottom-up approach based on Internet of Things for order fulfillment in a collaborative warehousing environment. International Journal of Production Economics.

Reaidy, P. J., Massotte, P., & Diep, D. Comparison of negotiation protocols in dynamic agent-based manufacturing systems. International Journal of Production Economics.

Makaci, M., Reaidy, P., Evrard-Samuel, K., Botta-Genoulaz, V., & Monteiro, T. Pooled warehouse management: An empirical study. Computers & Industrial Engineering.

Alaeddini, M., Hajizadeh, M., & Reaidy, P. A bibliometric analysis of research on the convergence of artificial intelligence and blockchain in smart cities. Smart Cities.

Reaidy, P., Alaeddini, M., Gunasekaran, A., Lavastre, O., & Shahzad, M. Unveiling the impact of Industry 4.0 on supply chain performance: The mediating role of integration and visibility. Production Planning & Control.

Reaidy, P. J., Lavastre, O., Ageron, B., & Chaze-Magnan, L. Consumer integration in supply chain management: A taxonomy. Supply Chain Forum: An International Journal.

Eustasy Mwamba | Mathematics Education | Best Researcher Award

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Mr. Eustasy Mwamba | Mathematics Education | Best Researcher Award

Secondary School Teacher at The University of Copperbelt University | Zambia

Mr. Eustasy Mwamba is an accomplished Zambian educator and researcher specializing in Mathematics Education, currently serving as Head of the Mathematics Department at Muyombe Boarding Secondary School under the Ministry of Education. He is pursuing a Ph.D. in Mathematics Education at the Copperbelt University, where his thesis is under examination, after earning a Master of Science in Mathematics Education  from the same institution, a Bachelor of Arts with Education (Mathematics major, Physical Education Studies minor) from Kwame Nkrumah University, and a Secondary Teachers’ Diploma in Mathematics from Mufulira College of Education . His professional journey spans over fifteen years of teaching and academic leadership, during which he has demonstrated strong competence in curriculum delivery, supervision, and instructional innovation. Mr. Mwamba’s research interests lie in formative assessment practices, student self-efficacy in mathematics, the application of SOLO taxonomy, and the use of rubrics to enhance learning outcomes and performance evaluation. He has authored and co-authored several scholarly works, with multiple manuscripts currently under review in reputable journals focusing on mathematics education and assessment. His research skills are advanced, particularly in data analysis, academic writing, and digital literacy, with proficiency in Microsoft Office, SPSS, NVivo, and educational tools such as Zoom, Teams, and Padlet. Among his notable honors, he was recognized as the Best Graduating Student in his Master’s program at the Copperbelt University in 2018 and received a Teachers’ Day Award in 2015 for excellence, leadership, and dedication to duty. Mr. Mwamba’s scholarly and professional contributions reflect a deep commitment to educational advancement, evidence-based teaching, and continuous improvement. As an emerging researcher, he aspires to expand his impact through innovative pedagogical research, mentorship, and participation in global academic collaborations that promote quality mathematics education across Africa.

Profile:  ORCID

Featured Publications

Mwamba, E., Shumba, O., & Mulenga, H.  Impacts of formative use of rubrics on secondary school students’ academic performance on quadratic equation problems. Educational Assessment.

Mwamba, E.  Dataset on the impact of rubrics on secondary mathematics self-efficacy in solving quadratic equation problems  Mendeley.

Mwamba, E. The effect of using SOLO taxonomy on secondary mathematical competencies associated with quadratic equations  Mendeley.

Mwamba, E., & Mubila, L. The effects of using assessment rubrics on the assessment and grading of pupils’ conceptual understanding of algebra. World Journal of Vocational Education and Training, .