Rathish Kumar Pancharathi | Concrete Making Materials | Best Researcher Award

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Prof. Dr Rathish Kumar Pancharathi | Concrete Making Materials | Best Researcher Award

Professor and Dean at National Institute of Technology Warangal, India

Dr. Rathish Kumar Pancharathi is a distinguished Professor and Dean of Planning and Development at the National Institute of Technology (NIT) Warangal, India. With a robust academic background, including a Ph.D. from NIT Warangal and a Doctor of Engineering from Kitami Institute of Technology, Japan, he has over two decades of experience in civil engineering. Dr. Pancharathi specializes in sustainable construction materials, structural health monitoring, and earthquake engineering. He has guided numerous Ph.D. and M.Tech students, published over 250 research papers, and authored several books. His leadership roles include serving on national and international committees, contributing to Indian Standard codes, and collaborating with global institutions. Recognized for his excellence, he has received multiple awards, including the Best Engineering Faculty Award and the Earth Leader Award for Sustainable Development.

Professional Profile

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Education šŸŽ“

  • Post-Doctoral Fellowship (PDF): Kitami Institute of Technology, Japan (2009-2010) šŸ‡ÆšŸ‡µ
  • Doctor of Engineering (Dr.Eng.): Kitami Institute of Technology, Japan (2003-2006) šŸ‡ÆšŸ‡µ
  • Ph.D.: National Institute of Technology Warangal, India (2000-2003) šŸ‡®šŸ‡³
  • M.Tech.: Regional Engineering College, Warangal, India (1990-1992) šŸ‡®šŸ‡³
  • B.Tech.: Kakatiya University, India (1986-1990) šŸ‡®šŸ‡³
    Dr. Pancharathiā€™s academic journey is marked by prestigious scholarships, including the Japanese Governmentā€™s JSPS and Monbusho Scholarships, and the Indian Government Scholarship. His education spans advanced research in civil engineering, focusing on sustainable materials and structural resilience, laying the foundation for his impactful career.

ExperienceĀ  šŸ’¼

Dr. Pancharathi has held key leadership roles, includingĀ Dean of Planning and DevelopmentĀ andĀ Head of Civil EngineeringĀ at NIT Warangal. He has contributed to national standards as a committee member for Indian Standard Codes (IS 2542, IS 712) and the Indian Roads Congress. Internationally, he collaborated with institutions in Japan, New Zealand, and Portugal. His administrative roles include chairing infrastructure and drainage committees, leading accreditation efforts, and managing consultancy projects worth crores of INR. He has also been a primary evaluator for Toycathon 2021, a Government of India initiative. His expertise spans structural stability assessments, design vetting, and sustainable construction practices, making him a pivotal figure in civil engineering.

Awards and HonorsĀ  šŸ†

  • Best Engineering Faculty AwardĀ (2023) šŸ„‡
  • Earth Leader Award for Sustainable DevelopmentĀ (2020) šŸŒ
  • Duo-India FellowshipĀ (2020-21) šŸ‡®šŸ‡³šŸ‡¬šŸ‡§
  • Aftab Mufti MedalĀ for Structural Health Monitoring (2013) šŸ—ļø
  • JSPS Post-Doctoral FellowshipĀ (2009-2010) šŸ‡ÆšŸ‡µ
  • Monbukagakusho ScholarshipĀ (2003-2006) šŸ‡ÆšŸ‡µ
  • Erasmus Mundus Heritage ScholarshipĀ (2013) šŸ‡µšŸ‡¹
  • Distinguished Alumnus Award, Kakatiya University šŸŽ“
    Dr. Pancharathiā€™s accolades reflect his contributions to engineering education, research, and sustainable development, both nationally and internationally.

Research Focus šŸ”¬

Dr. Pancharathiā€™s research focuses onĀ sustainable construction materials, including recycled aggregate concrete, low-cost building materials, and high-performance mortars. He exploresĀ structural health monitoring,Ā earthquake engineering, andĀ microstructure analysisĀ of concrete. His work also includesĀ repair and rehabilitation of structures,Ā composite materials, andĀ heritage conservation. He integrates advanced techniques like machine learning and digital image correlation for material optimization and structural assessment. His collaborations with global institutions have advanced knowledge in sustainable infrastructure, making significant contributions to eco-friendly construction practices and resilient infrastructure development.

Publication Top Notes šŸ“š

  1. Performance and Microstructure of Agro Biochar-Based Cement Mortars (2025)
  2. Optimizing Compressive Strength of RCA Concrete Using ML (2024)
  3. Low-Grade Limestone-Based Sustainable Cements (2024)
  4. Deterioration Assessment in Repurposed Concrete (2024)
  5. Machine Learning for Concrete Strength Prediction (2024)
  6. Multi-Recycled Aggregate Concrete Using Particle Packing (2024)
  7. Colour Reference Charts for Concrete Deterioration (2024)
  8. Stress-Strain Model for Self-Curing Concrete (2024)
  9. Image-Based Deterioration Assessment in Concrete (2024)
  10. Carbon Sequestration in Agro Biochar Mortars (2025)

Conclusion šŸŒŸ

Dr. Rathish Kumar Pancharathi is a luminary in civil engineering, blending academic excellence, administrative leadership, and groundbreaking research. His contributions to sustainable construction, structural health monitoring, and international collaborations have set new benchmarks in the field. With numerous awards, extensive publications, and a commitment to eco-friendly infrastructure, he continues to inspire and innovate, shaping the future of civil engineering globally.

 

Ali Fathalizadeh | Sustainable development | Best Researcher Award

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Mr. Ali Fathalizadeh | Sustainable development | Best Researcher Award

PhD Candidate, The University of Adelaide, Australia

Ali Fathali Zadeh is an academic researcher and construction project manager specializing in sustainable construction project management practices. With over eight years of experience, Ali has investigated the barriers to the adoption of sustainable development in construction, analyzing factors from both developed and developing countries. He is currently pursuing a Ph.D. in Construction Management at the University of Adelaide. His research contributes to understanding the technical, economic, and policy challenges that influence sustainable construction practices globally. Ali has published multiple high-impact research papers and has been a presenter at international conferences, demonstrating his active role in advancing sustainability in construction. He also possesses a strong industry background, having worked as a project manager and assistant project manager in Iran. His combination of research expertise and practical project management experience makes him a notable figure in the field of sustainable construction.

Profile

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Education

Ali Fathali Zadeh holds a Ph.D. in Construction Management from the University of Adelaide, Australia, where he is currently a candidate under the supervision of Dr. Ehsan Sharifi and Dr. Daniel Oteng. His research focuses on sustainable project management policies and the mediating role of innovation in the construction industry. Ali completed his M.Sc. in Construction Engineering & Management at the Iran University of Science & Technology (IUST), where he developed a functional model for integrating sustainable development into construction project management in Iran, graduating with the highest GPA of 19.17/20. His B.Sc. in Civil Engineering was earned at the University of Tabriz, Iran, further building his foundation in engineering principles. Throughout his academic journey, Ali has been recognized for his exceptional academic performance and research potential, contributing significantly to the field of sustainable construction management.

Experience

Ali Fathali Zadeh has a diverse and comprehensive career in both academia and the construction industry. He is currently a Ph.D. candidate and research assistant at the University of Adelaide, Australia, contributing to projects on sustainable project management, infrastructure financing, and gender empowerment in construction. Prior to this, Ali worked as a Project Manager at Hajmin Consulting Engineers in Iran, where he oversaw various engineering projects, coordinated schedules, and ensured budget adherence. He also initiated the development of a Project Management Plan (PMP) aligned with PMBOK guidelines, setting new standards for the industry. As an Assistant Project Manager at Azar Sayyal Co., he focused on project planning, monitoring, and contracts administration, gaining valuable experience in managing complex construction projects. Ali’s blend of hands-on project management experience and academic research equips him with a unique perspective on advancing sustainable practices in construction.

Awards and Honors

Ali Fathali Zadeh has received several prestigious awards and honors throughout his academic and professional career. He was awarded the Australian Government Research Training Program (RTP) scholarship, which is a highly competitive and sought-after grant issued by the Department of Education, Skills, and Employment in Australia. This recognition is part of his current Ph.D. research at the University of Adelaide, demonstrating his exceptional research potential. In addition, Ali was distinguished as an ā€œElite Studentā€ by the Iran National Elites Foundation, a testament to his outstanding academic achievements. He was ranked first in his M.Sc. program in Construction Engineering & Management at the Iran University of Science and Technology, achieving a remarkable GPA of 19.17/20. Furthermore, his masterā€™s thesis was graded as ā€œExcellentā€ by the university, further highlighting the high standard of his academic and research work.

Research Focus

Ali Fathali Zadehā€™s research primarily focuses on sustainable development in the construction industry. He is exploring the barriers to integrating sustainability into construction project management practices, with particular emphasis on understanding the technical, economic, and policy-related obstacles faced by both developed and developing countries. His Ph.D. thesis examines the mediating role of innovation in sustainable project management policies, analyzing how innovative practices can facilitate the adoption of sustainability in the construction sector. Ali has also explored passive cooling technologies and the challenges of implementing high-performance building envelopes, contributing to a deeper understanding of sustainable building designs. His research aims to offer practical solutions for overcoming these barriers, making a significant impact on the adoption of sustainable practices in the global construction industry. Ali’s work is recognized internationally, with several publications in top-tier journals and presentations at major international conferences.

Publications Top Notes

  1. Fathalizadeh A, Sharifi E, Bartesaghi-koc C, ā€œChallenges of the Transition to High-performance Passive Cool Envelopes: A Systematic Literature Review.ā€ Energy & Buildings (ENB) šŸŒ±šŸ¢

  2. Fathalizadeh A, Sharifi E, Oteng D, ā€œOvercoming the Heat: Exploring the Barriers to Passive Cooling Adoption in Australia ā€“ A Qualitative Perspective.ā€ Journal of Building Engineering (JBE) šŸŒžšŸ 

  3. Fathalizadeh A, Hosseini M.Reza, Silvius G, Vaezzadeh S, Ghoddousi P, Shirzadi javid A, Martek I ā€œEmpowering Sustainable Project Management: Analysing Barriers in Developing Nations.ā€ Smart and Sustainable Built Environment (SASBE) šŸŒšŸ’”

  4. Fathalizadeh A, Hosseini M.Reza, Silvius G, Rahimian A, Martek I, Edwards D, ā€œBarriers Impeding Sustainable Project Management: A Social Network Analysis of the Iranian Construction Sector.ā€ Journal of Cleaner Production (JCLP) šŸ”„šŸ—ļø

  5. Fathalizadeh A, Hosseini M.Reza, Vaezzadeh S, Edwards D, Martek I, Shooshtarian S, ā€œBarriers to sustainable construction project management: The case of Iran.ā€ Smart and Sustainable Built Environment (SASBE) šŸ‡®šŸ‡·šŸ¢

  6. Fathalizadeh A, ā€œIntroducing Concrete Filled Tube structural technology.ā€ Journal of Civil Engineering Researchers šŸ—ļøšŸ”©

  7. Fathalizadeh A, ā€œIntroducing two most common types of shear walls and their construction methods.ā€ Journal of Civil Engineering Researchers šŸ¢šŸ§±

 

 

Kezhen Yan | Pavement | Best Researcher Award

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Prof Kezhen Yan | Pavement | Best Researcher Award

HUNAN UNINVERSITY, China

Yan Kezhen is a distinguished Professor in the School of Civil Engineering at Hunan University, specializing in pavement engineering and materials. With a Ph.D. in Civil Engineering from Zhejiang University, he has over two decades of experience in research and academia. His work focuses on the structural mechanics of pavements, dynamic response analysis, and innovative materials for road construction. Prof. Yan has led numerous national and international research projects, including studies funded by the Natural Science Foundation of China and the China Postdoctoral Fund. He has published extensively in top-tier journals, contributing significantly to the fields of geotechnical and pavement engineering. His research has practical applications in road maintenance, subgrade stability, and sustainable construction practices. Prof. Yan is also an active mentor, guiding students and young researchers in advancing civil engineering technologies.

Professional Profile

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Education šŸŽ“

  • Doctor of EngineeringĀ in Civil Engineering (Geotechnical Engineering), Zhejiang University, China (2002ā€“2005).
  • Master of EngineeringĀ in Highways and Railway Engineering, Changā€™an University, China (1999ā€“2002).
  • Bachelor of EngineeringĀ in Civil Engineering, Shenyang Jianzhu University, China (1995ā€“1999).

Prof. Yanā€™s academic journey reflects a strong foundation in civil engineering, with a focus on geotechnical and pavement engineering. His doctoral research at Zhejiang University laid the groundwork for his expertise in soil mechanics and pavement dynamics. His masterā€™s studies at Changā€™an University honed his skills in highway engineering, while his bachelorā€™s degree provided a comprehensive understanding of civil engineering principles. This robust educational background has enabled him to excel in both research and teaching, making significant contributions to the field.

ExperienceĀ  šŸ’¼

  • Professor, School of Civil Engineering, Hunan University (Present).
  • Researcher, Key Laboratory of Ministry Open Fund Projects (2007ā€“2010).
  • Postdoctoral Researcher, China Postdoctoral Fund Projects (2008ā€“2010).
  • Consultant, First Highway Consultants Co., LTD, China (2007ā€“2009).

Prof. Yan has extensive experience in leading high-impact research projects, including studies on pavement mechanics, subgrade stability, and sustainable road construction. His work with the China Postdoctoral Fund and the Natural Science Foundation of China has advanced the understanding of pavement dynamics and material behavior. Additionally, his consultancy role with the First Highway Consultants Co., LTD, contributed to practical solutions for highway construction in challenging environments like permafrost regions. His expertise bridges theoretical research and real-world applications, making him a leader in civil engineering.

Awards and Honors šŸ†

  • Outstanding Researcher Award, Hunan University (2010).
  • Best Paper Award, Geohunan International Conference (2009).
  • Key Project Science Fund Recipient, Hunan University (2010ā€“2012).
  • Postdoctoral Special Funding, China Postdoctoral Fund (2009ā€“2010).
  • New Teachers’ Fund for Doctor Stations, Ministry of Education of China (2009ā€“2011).

Prof. Yanā€™s contributions to pavement engineering and materials have been recognized through numerous awards and honors. His research on pavement mechanics and subgrade stability has earned him accolades from both academic and industry circles. The Key Project Science Fund and Postdoctoral Special Funding highlight his innovative approach to solving complex engineering problems. His work continues to set benchmarks in the field, earning him a reputation as a leading expert in civil engineering.

Research Focus šŸ”

Prof. Yanā€™s research focuses onĀ pavement engineering,Ā material science, andĀ geotechnical engineering. His work includes:

  • Pavement Mechanics: Analyzing the structural behavior of gradient heterogeneity pavements and dynamic responses to traffic loads.
  • Material Innovation: Developing sustainable materials like waste tire rubber and recycled polyethylene for asphalt modification.
  • Subgrade Stability: Studying erosion mechanisms and stability of highway subgrade slopes.
  • Maintenance Technologies: Evaluating pavement performance and decision-making methods for maintenance.
  • Dynamic Load Analysis: Investigating the impact of uneven pavement surfaces on fatigue breakdown.

His research combines theoretical modeling with experimental validation, providing practical solutions for road construction and maintenance. Prof. Yanā€™s work has significant implications for improving the durability and sustainability of transportation infrastructure.

Publication Top Notes šŸ“š

  1. Study on settlement patterns of embankment on soft ground of alluvial flat.
  2. Propagation of Rayleigh wave in saturated soil layer.
  3. Study on relationship of shear wave velocity and shear strength of foundation.
  4. Characteristics of Rayleigh wave in soils generated by traffic load.
  5. Propagation characteristics of Love wave generated by vehicle loads in soils.
  6. Dynamic response of rectangular plate lying on viscous Winkler foundation to moving harmonic load.
  7. Dynamic response analysis of slab on elastic foundation subjected to moving load.
  8. Dynamic response of strip on two-parameter viscoelastic foundation under impact loading.
  9. Transient Response of a Winkler Supported Plate.
  10. Experimental study of the rigid-flexible pile composite foundation.
  11. Transient response of a viscoelastic winkler supported strip.
  12. Dynamic response of rectangular plate on two-parameter foundation to moving load.
  13. Application Study on Rayleigh wave for Dry Jet Mixing Pile Composite Foundation.
  14. Dynamic Analysis of Beam Subjected to Moving Load on VLAZOV subgrade.
  15. Research on identification and classification method for swelling soil subgrade filling.
  16. Experimental Analysis on Asphalt Pavement Structure.
  17. Dynamic response of plate on Kelvin foundation subjected to moving load.
  18. Analysis on bituminous pavement structural mechanics based on change of gradient of module.
  19. Analysis on natural aging of bituminous pavement.
  20. Theoretical study on shear wave velocity and consolidation degree of soft soil Inundation.
  21. Multi Grey Synthetic Evaluation on Pavement Condition Of Asphalt Pavement.
  22. Evaluation of Pavement Dilapidation in Permafrost Region Based on Matter-Element Model.
  23. Effect of Bond Condition on Overlay Performance.
  24. Discriminant analysis model for prediction of sand soil liquefaction during earthquake.
  25. A Method of Asphalt Pavement Performance Evaluation Based on POS-LSSVM.
  26. Evaluation of Rock Slope Stability Based on Fisher Discriminant Analysis Method.
  27. Analysis of Thermal and Coupled-filed Stresses of Overlay on the Old Asphalt Pavements.
  28. Grey Relation Analysis of Low-temperature Performance Indexs of Asphalt Binder.
  29. Stress Analysis of Asphalt Overlay on Old Asphalt Pavement with Anti-cracking Interlayer Containing Stress absorption layer.
  30. Back-calculation of Modulus for Pavements Based on Ant Colony Algorithm.
  31. Application of Matter Element Analysis Based on Entropy Right to Evaluate the Pavement Condition in Permafrost Region.
  32. Prediction of elastic modulus of normal and high strength concrete by support vector machine.
  33. Multi-attribute grey fuzzy decision-making of asphalt pavement maintenance method.
  34. Mechanics analysis of asphalt overlay pavement under traffic load.
  35. Study on the roadbed slope erosion stability based on the theory of mutations.
  36. Study on mechanical behavior of asphalt concrete pavements with non-uniformity gradient materials.

Conclusion

Prof. Yan Kezhen is a leading figure in pavement and geotechnical engineering, with a career marked by groundbreaking research, innovative solutions, and a commitment to advancing sustainable infrastructure. His extensive publications, numerous awards, and impactful projects underscore his contributions to the field. Through his work, Prof. Yan continues to shape the future of civil engineering, ensuring safer, more durable, and environmentally friendly transportation systems.

 

Philippe KARAMIAN-SURVILLE | Composites and Homogenization | Best Researcher Award

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Assoc. Prof. Dr Philippe KARAMIAN-SURVILLE | Composites and Homogenization | Best Researcher Award

Associate Professor at Unviversity of CAEN Normandy, France

Philippe Karamian is a Senior Associate Professor at the University of Caen Normandy, France, specializing in Mathematics and Mechanics. With a PhD in Mathematics and Applications (1999) and an Accreditation to Supervise Research (2014), he has made significant contributions to mechanical modeling, numerical simulation, and composite materials. He heads the Mechatronics and Embedded Systems Department at ESIX and is an active researcher at the Nicolas Oresme Mathematics Laboratory. His work spans thin shell theory, homogenization, and high-performance computing, with applications in aerospace and renewable energy.

Professional Profile

Scopus

Education šŸŽ“

  • PhD in Mathematics and Applications, University of Caen Normandy (1999)
  • Accreditation to Supervise Research, University of Caen Normandy (2014)
  • Diploma of Advanced Studies in Mechanics, Pierre and Marie Curie University (1995)
  • Diploma of Advanced Studies in Numerical Analysis, Paris-Sud XI University (1993)
  • Masterā€™s in Mathematics, University of Caen Normandy (1992)
  • Bachelorā€™s in Mathematics, University of Caen Normandy (1991)

Experience šŸ’¼

  • Senior Associate Professor, University of Caen Normandy (2018ā€“Present)
  • Associate Professor, University of Caen Normandy (2002ā€“2018)
  • Head of Mechatronics and Embedded Systems, ESIX (2023ā€“Present)
  • Postdoctoral Researcher, Neurofunctional Imaging Laboratory, Bordeaux (2001)
  • Temporary Teaching and Research AttachĆ©, University of Caen Normandy (1999ā€“2002)

Awards and Honors šŸ†

  • Fellow of the Association of Friends of Science, Academy of Sciences (2000)
  • Project Leader, ACCEA (Improvement of Conductivities of Composites for Aerospace Equipment)
  • Elected Member, Nicolas Oresme Mathematics Laboratory Council (2013ā€“Present)
  • Head of Masterā€™s Programs, Mechanical Engineering and Mathematical Engineering (2008ā€“2018)

Research Focus šŸ”

Philippe Karamianā€™s research focuses on:

  • Mechanical Modeling: Thin shells, composites, and slender structures.
  • Numerical Simulation: Finite element methods, domain decomposition, and parallel computing.
  • Homogenization Techniques: Stochastic and deterministic methods for composite materials.
  • High-Performance Computing: OpenMP/MPI environments, C/C++/Fortran programming.
  • Applications: Aerospace, renewable energy, and eco-friendly composites.

Publication Top Notes šŸ“š

  1. Reflection of singularities in inhibited hyperbolic shells.
  2. New numerical results concerning inhibited thin hyperbolic shells.
  3. A model problem for boundary layers of thin elastic shells.
  4. Numerical experiments on the propagation of singularities in thin parabolic shells.
  5. Boundary layers in thin elastic shells with developable middle surface.
  6. Propagation of singularities and structure of layers in shells: Hyperbolic case.
  7. Non-smoothness in the asymptotics of thin shells and propagation of singularities.
  8. Pseudo-reflection phenomena for singularities in thin elastic shells.
  9. Numerical evaluation of the effective elastic properties of 2D overlapping random fiber composites.
  10. An efficient stochastic and double-scale model to evaluate effective elastic properties.
  11. Domain decomposition methods to evaluate effective elastic properties of random fiber composites.
  12. Effects of fiber dispersion on the effective elastic properties of 2D overlapping random fiber composites.
  13. Influence of morphological parameters of a 2D random short fiber composite on its effective elastic properties.
  14. On efficient and reliable stochastic generation of RVEs for analysis of composites.
  15. An efficient and automated 3D FE approach to evaluate effective elastic properties.
  16. Measure of combined effects of morphological parameters of inclusions within composite materials.
  17. The refraction phenomenon of singularities in thin elastic shells with developable mid-surface.
  18. Computation of effective electrical conductivity of composite materials: A novel approach based on analysis of graphs.

Conclusion šŸŒŸ

Philippe Karamian is a distinguished academic and researcher with over two decades of expertise in mechanical modeling, numerical simulation, and composite materials. His work bridges theoretical advancements and practical applications, particularly in aerospace and renewable energy. With a strong focus on innovation and sustainability, he continues to lead groundbreaking research and mentor the next generation of engineers and scientists.

 

Seyma Bayazit | Transportation Engineering | Best Researcher Award

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Assist. Prof. Dr Seyma Bayazit | Transportation Engineering |Ā Ā Best Researcher Award

Head of Department atĀ Ā Ā Bodrum Maritime Vocational School,Ā Ā Turkey.

Dr. Seyma Bayazit is an Assistant Professor at Mugla Sitki Kocman University in Turkey, specializing in maritime transportation, port ranking, port vulnerability, climate change impacts on ports, and coastal area management. She previously served at Bandirma Onyedi Eylul University. She holds a Ph.D. in Maritime Transportation Engineering from Istanbul Technical University and has conducted research at Universitat PolitĆØcnica de Catalunya through the Erasmus Mundus Fund. Her academic journey also includes a Masterā€™s and Bachelorā€™s degree in Maritime Transportation and Management Engineering.

PROFESSIONAL PROFILE

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OrcidĀ 

EDUCATION

Dr. Seyma Bayazit holds a Ph.D. in Maritime Transportation Engineering from Istanbul Technical University (ITU). Her doctoral research focused on the effects of port identity on cruise tourism, contributing valuable insights to the maritime industry. She also pursued a joint masterā€™s degree at ITU and Universitat PolitĆØcnica de Catalunya (UPC), specializing in Engineering Management and Marine Transportation Engineering. Additionally, she has completed associate degrees in Geographical Information Systems and Commercial Yacht Mastery, showcasing her diverse academic expertise.

EXPERIENCE

Academic Positions

šŸ”¹ Assistant Professor ā€“ Mugla Sitki Kocman University, Bodrum Maritime Vocational School (2021ā€“Present)

  • Specializing in maritime transportation, port vulnerability, climate change impacts on ports, and coastal management

šŸ”¹ Assistant Professor ā€“ Bandirma Onyedi Eylul University, Maritime Faculty (2017ā€“2021)

  • Conducted research and taught courses on maritime logistics, transportation planning, and port operations

AWARDS AND HONORS

āœ… Strong Academic Background ā€“ Ph.D. holder with expertise in maritime and coastal management
āœ… Extensive Publications ā€“ Research in top-tier journals & international conferences
āœ… Sustainability Leadership ā€“ Active in environmental auditing and tourism sustainability
āœ… Global Perspective ā€“ Research collaborations and presentations worldwide
āœ… Multidisciplinary Approach ā€“ Expertise in maritime, GIS, and tourism research

RESEARCH FOCUS

Dr. Bayazitā€™s research focuses on port vulnerability, climate change impacts on ports & marinas, coastal area management, and cruise tourism. She has published extensively in high-impact journals such as Natural Hazards, International Journal of Shipping and Transport Logistics, and Environment, Development & Sustainability. Her work includes studies on coastal infrastructure vulnerability, cruise port ranking, and the sustainability of maritime transport.

PUBLICATION TOP NOTES

  • 1ļøāƒ£ An Integrated Approach to the Spatial Distribution of the Coastal Infrastructure Vulnerability by Using Coastal Vulnerability Index and Hot Spot Analysis: A Case Study of Kusadasi-Selcuk
    Natural Hazards, 2024. DOI: 10.1007/s11069-024-06749-0

    2ļøāƒ£ Development of a Method to Measure the Sustainability of Coastal Uses
    Environment, Development and Sustainability, 2023. DOI: 10.1007/s10668-022-02259-w

    3ļøāƒ£ Site Analysis of Maritime Transportation Infrastructures by Using the Coastal Vulnerability Index Approach: The Case of Bodrum Peninsula
    Marine Science and Technology Bulletin, 2023. DOI: 10.33714/masteb.1260897

    4ļøāƒ£ Bodrum Kruvaziyer Limanıā€™nın Ana Liman Olma Potansiyelinin Değerlendirilmesi
    Pamukkale University Journal of Social Sciences Institute, 2023. DOI: 10.30794/pausbed.1258835

    5ļøāƒ£ Land Cover Change Detection in the Turkish Coastal Zone Based on 28-Year (1990ā€“2018) Corine Data
    Environmental Monitoring and Assessment, 2022. DOI: 10.1007/s10661-022-10509-7

    6ļøāƒ£ Summer Season Sea Surface Temperature Changes in the Aegean Sea Based on 30 Years (1989ā€“2019) of Landsat Thermal Infrared Data
    Environmental Monitoring and Assessment, 2020. DOI: 10.1007/s10661-020-08689-1

    7ļøāƒ£ A Method Proposal to Determine Cruise Port Identity
    International Review of Management and Marketing, 2018.

    8ļøāƒ£ An Applied Study on Local Residents’ Awareness Towards Cruise Tourism: The Case of Bodrum
    GĆ¼ncel Turizm Araştırmaları Dergisi, 2017.

    9ļøāƒ£ Analysis of the Cruise Market and Destinations in the Mediterranean Region: An Empirical Study to Understand the Profile of the Turkish Cruisers
    Journal of Marine Tourism, 2016.

    šŸ”Ÿ Main Factors to Select a Cruise Homeport in the Mediterranean Region: A Perspective from the Cruise Industry Agents
    IEEE Xplore, 2015.

CONCLUSION

Dr. Bayazit is a strong candidate for the Best Researcher Award due to her prolific research, interdisciplinary expertise, and international recognition. Strengthening her impact through citations, funding, and industry collaborations could further solidify her standing.

Shasanka Sekhar Rout | Structural Health Monitoring | Excellence in Research

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Dr Shasanka Sekhar Rout | Structural Health Monitoring | Excellence in Research

Assistant Professor atĀ Ā GLA University,Ā Ā India.

Dr. Shasanka Sekhar Rout is a distinguished researcher, academician, and industry expert in the field of VLSI Signal Processing, Analog & RF CMOS Circuit Design, and Semiconductor Technology. With an impressive track record in research, teaching, and industry projects, he has made significant contributions to the advancement of low-power, high-performance circuit design.

PROFESSIONAL PROFILE

Scopus

Orcid

EDUCATION

Dr. Rout pursued his Ph.D. (2015-2019) from Veer Surendra Sai University of Technology (VSSUT), Burla, specializing in VLSI Signal Processing. He completed his M.Tech (2012-2014) with a stellar CGPA of 9.72 (92.2%) in VLSI Signal Processing from the same institution. His B.Tech (2005-2009) in Electronics and Telecommunication Engineering was earned from Ajay Binay Institute of Technology, Cuttack, under Biju Patnaik University of Technology, Rourkela.

EXPERIENCE

With over a decade of experience, Dr. Rout has served in various academic and industry roles:
āœ… Assistant Professor ā€“ GLA University, Mathura (Present)
āœ… Physical Design Engineer ā€“ Zoey Semiconductors, Hyderabad (2022-2023)
āœ… Assistant Professor ā€“ GIET University, Odisha (2019-2022)
āœ… Senior Research Fellow ā€“ IIT Delhi (2018)
āœ… Guest Faculty & Lecturer ā€“ Multiple institutes, contributing to academic excellence

His expertise spans teaching, mentoring, and research supervision in core subjects like VLSI Design, Digital Signal Processing, and Embedded Systems.

AWARDS AND HONORS

šŸ”¹ Recognized for outstanding research contributions in VLSI and RF circuit design
šŸ”¹ Recipient of Senior Research Fellowship (SRF) under the IUSST Water Quality Project
šŸ”¹ Consistently invited to international conferences and workshops for research presentations

RESEARCH FOCUS

Dr. Routā€™s research focuses on low-power and high-speed VLSI circuit design, with key expertise in:
āœ”ļø Analog & RF CMOS Design
āœ”ļø Physical Design & Semiconductor Circuit Optimization
āœ”ļø Machine Learning Applications in VLSI
āœ”ļø Embedded Systems & Power Electronics

He is proficient in advanced EDA tools such as Cadence, Synopsys ICC2, MATLAB, Xilinx ISE, ADS, Tanner, and Mentor Graphics, making his research directly applicable to cutting-edge semiconductor technologies.

PUBLICATION TOP NOTES

    1. Journal Article Format (APA Style):
      Rout, S. S., Rout, R., Parida, P., & Panda, M. K. (2024). Saliency Induced Fusion for Skin Lesion Detection. International Journal of Computer Information Systems and Industrial Management Applications.

    2. Book Chapter Format (APA Style):
      Samantaray, S. K., & Rout, S. S. (Year Unknown). Exploring Robotics Technology for Health Care Applications. [No source information available].

      Here is the publication title format based on standard academic citation styles:

      CONCLUSION

A strong academic foundation, impactful research, and industry experience, Dr. Shasanka Sekhar Rout is a top contender for any Best Researcher Award in VLSI and Semiconductor Design. His dedication, innovation, and global research impact make him an influential thought leader in the field.

Liqiang Zou | Dietary supplements | Best Researcher Award

Published on by Civil Engineering Awards

Prof. Dr Liqiang Zou | Dietary supplements | Best Researcher Award

Professor at Nanchang University, China

Dr. Zou Liqiang, Ph.D., is a renowned researcher and master’s supervisor in Food Science at Nanchang University, China. He specializes in food carriers, nutrient delivery, and nano fresh-keeping of fruits and vegetables. Dr. Zou has made remarkable contributions to embedding probiotics and agricultural microorganisms, significantly impacting nutrient stability and bioavailability. With over 108 SCI papers published, 9128 citations, and an H-index of 55, his research has gained global recognition. He has also been honored as a Highly Cited Researcher by Clarivate Analytics in 2023 and 2024. Additionally, Dr. Zou has secured numerous prestigious awards, including the second prize of the 2022 Jiangxi Provincial Natural Science Award. His extensive work in developing innovative food delivery systems, such as liposomes and nanoparticles, has advanced the field of food science, ensuring enhanced nutrient utilization and storage efficiency.

PROFESSIONAL PROFILE

Google Scholar

EDUCATION

Dr. Zou Liqiang earned his Ph.D. in Food Science from Nanchang University, China. His academic journey began with a Bachelor’s degree in Food Science and Engineering from Nanchang University, followed by a Master’s degree in Food Science. During his doctoral studies, Dr. Zou focused on bioactive compounds delivery and preservation techniques, emphasizing nutrient stability and bioaccessibility. He later enhanced his expertise through a visiting scholar program at the Food Colloid Laboratory of the University of Massachusetts Amherst, USA, where he worked closely with top-tier researchers in food delivery systems. His interdisciplinary education laid a strong foundation for his pioneering research in developing novel nutrient delivery and preservation techniques. Dr. Zouā€™s academic excellence and dedication to food science research have positioned him as a global leader in innovative food technology and bioactive nutrient delivery systems.

EXPERIENCE

Dr. Zou Liqiang serves as a Professor of Food Science at Nanchang University, where he supervises master’s students and leads groundbreaking research on nutrient delivery and preservation systems. He has hosted three projects funded by the National Natural Science Foundation of China, three projects by the Jiangxi Provincial Natural Science Foundation, and over 20 enterprise-funded projects. Dr. Zou has successfully applied for 20 national invention patents, of which seven have been converted into practical achievements. His collaboration with industry and academia has significantly advanced the understanding and application of nano-fresh keeping, probiotics embedding, and nutrient bioaccessibility. As a visiting scholar at the University of Massachusetts Amherst, he contributed extensively to the field of food colloids. His commitment to research excellence and knowledge transfer has made him a prominent figure in food science and bioengineering.

AWARDS AND HONORS

Dr. Zou Liqiang has received several prestigious awards and honors for his outstanding contributions to Food Science. He was recognized as a Highly Cited Researcher by Clarivate Analytics in 2023 and 2024, signifying his significant impact on global scientific research. In 2022, he received the second prize (first completion) of the Jiangxi Provincial Natural Science Award for his exceptional research on nutrient delivery systems. Dr. Zou was also selected for the Stanford Global Top 2% Scientists List in 2022, further highlighting his influence in food science. As a recipient of the “Double Thousand Plan” Science and Technology Innovation High-end Talent Project and a Young Jinggang Scholar in Jiangxi Province, he has consistently demonstrated leadership in scientific research. His work has earned him international recognition, and his innovations in food preservation continue to set new industry standards.

RESEARCH FOCUS

Dr. Zou Liqiang’s research primarily focuses on food carriers, nutrient delivery, and nano-fresh keeping technologies. His work aims to enhance the stability, bioavailability, and controlled release of bioactive compounds in food systems. He has developed innovative delivery systems such as liposomes, nanoparticles, emulsions, and nano-coatings, significantly improving the retention and efficacy of nutrients. His research on embedding probiotics and agricultural microorganisms has contributed to prolonging the shelf life of fruits and vegetables. Dr. Zou is particularly interested in advancing curcumin bioavailability, vitamin C stability, and Ī²-carotene bioaccessibility through novel encapsulation techniques. His groundbreaking contributions have practical applications in food safety, nutrition, and public health, establishing him as a leader in bioactive compound delivery and preservation research.

PUBLICATION TOP NOTES

  • āœ… The stability, sustained release, and cellular antioxidant activity of curcumin nanoliposomes – 396 citations (2015)
  • šŸ“Š Protein encapsulation in alginate hydrogel beads: Effect of pH on microgel stability, protein retention, and protein release – 273 citations (2016)
  • šŸ§¬ Stability, rheology, and Ī²-carotene bioaccessibility of high internal phase emulsion gels – 256 citations (2019)
  • šŸ„• Encapsulation of Ī²-carotene in wheat gluten nanoparticle-xanthan gum-stabilized Pickering emulsions – 246 citations (2019)
  • šŸ§  Coencapsulation of Epigallocatechin-3-gallate and quercetin in particle-stabilized W/O/W emulsion gels – 234 citations (2018)
  • šŸŠ Storage stability and skin permeation of vitamin C liposomes improved by pectin coating – 225 citations (2014)
  • šŸ„£ Improved bioavailability of curcumin in liposomes using a pH-driven, organic solvent-free process – 218 citations (2017)
  • šŸ‹ Carboxymethyl chitosan-pullulan edible films enriched with galangal essential oil for mango preservation – 214 citations (2021)
  • šŸ’Š Enhancement of curcumin bioavailability by encapsulation in sophorolipid-coated nanoparticles – 205 citations (2018)
  • šŸ„œ Enhancing nutraceutical bioavailability using excipient emulsions for powdered curcumin – 184 citations (2015)

CONCLUSION

Dr. Zou Liqiang is a pioneering scientist in the field of Food Science, specializing in nutrient delivery systems, nano-fresh keeping, and bioactive compound encapsulation. His significant contributions, including 108 SCI publications, an H-index of 55, and numerous prestigious awards, have positioned him as a global leader in food science research. His work has practical applications in food preservation, nutrient bioavailability, and probiotics embedding, benefiting both industry and public health. Dr. Zou’s dedication to scientific innovation and technological advancement continues to influence the future of food science and technology worldwide.

Mahad Rashid | Machine Learning | Best Researcher Award

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Mr Mahad Rashid | Machine Learning | Best Researcher Award

Senior Analytics Consultant at WorkSafe VIC, Australia

Mahad Rashid is an enthusiastic and skilled Analytics Consultant with a Masterā€™s degree in Data Science from Deakin University. With over six years of experience in data analysis, machine learning, and software engineering, Mahad has a proven track record of developing data-driven solutions to enhance business operations and customer experiences. Proficient in Python, SAS, SQL, and data visualization tools like Power BI and Qlik, he has worked in diverse roles, including Senior Analytics Consultant at WorkSafe Victoria and Research Engineer at the Applied Artificial Intelligence Institute. Mahad is passionate about leveraging data to drive innovation and deliver impactful results. His expertise spans machine learning, deep learning, and statistical analysis, with a strong focus on MLOps and AI deployment. Mahad is also an effective communicator, capable of translating complex technical concepts for non-technical stakeholders.

Professional Profile

Scopus

Education šŸŽ“

Mahad Rashid holds aĀ Master of Data ScienceĀ from Deakin University, Burwood (2019ā€“2021), where he honed his skills in data analysis, machine learning, and AI. Prior to this, he completed hisĀ Bachelor of Software EngineeringĀ from the National University of Sciences and Technology, Pakistan (2014ā€“2018), gaining a strong foundation in programming, software development, and data structures. Throughout his academic journey, Mahad demonstrated a keen interest in applying data science to solve real-world problems. He has also pursued additional certifications, includingĀ Getting Started with SAS ProgrammingĀ andĀ Git and GitHubĀ on Coursera (2024), showcasing his commitment to continuous learning and professional development.

Experience šŸ’¼

Mahad Rashid has a rich professional background spanning over six years. As aĀ Senior Analytics ConsultantĀ at WorkSafe Victoria (2023ā€“Present), he excels in data extraction, cleaning, and machine learning using Python and SQL. He also mentors junior consultants and creates insightful dashboards using Power BI. Previously, as aĀ Research EngineerĀ at the Applied Artificial Intelligence Institute, Deakin (2021ā€“2023), he developed and deployed ML models, applied MLOps principles, and collaborated on AI research. Earlier, as aĀ Software EngineerĀ at CureMD, Pakistan (2018ā€“2019), he designed machine learning applications and advanced data visualizations. Mahadā€™s expertise lies in leveraging data to drive innovation, improve decision-making, and deliver impactful solutions across industries.

Awards and Honors šŸ†

While specific awards and honors are not explicitly mentioned in the provided profile, Mahad Rashidā€™s contributions to data science and AI research are evident through his publications and professional achievements. His work on high-voltage lithium cathode materials, published inĀ ACS Applied Energy Materials (2024), highlights his involvement in cutting-edge research. Additionally, his role in mentoring junior consultants and leading analytics projects at WorkSafe Victoria underscores his recognition as a skilled and reliable professional. Mahadā€™s commitment to continuous learning, evidenced by his certifications in SAS and Git, further reflects his dedication to excellence in the field of data science.

Research Focus šŸ”

Mahad Rashidā€™s research focuses on applyingĀ machine learning,Ā deep learning, andĀ AIĀ to solve complex problems across various domains. His work includes developing and deploying ML models for classification, regression, and image detection, as well as applying MLOps principles to streamline data science workflows. He has also contributed to research onĀ high-voltage lithium cathode materialsĀ using Bayesian optimization and first-principles studies, showcasing his interdisciplinary expertise. Mahad is passionate about leveraging data-driven approaches to improve business operations, enhance customer experiences, and drive innovation. His research interests extend toĀ data visualization,Ā statistical analysis, andĀ AI-driven decision-making, with a strong emphasis on delivering practical, impactful solutions.

Publication Top Notes šŸ“š

  1. High-Voltage, High Capacity Aluminum-Rich Lithium Cathode Materials: A Bayesian Optimization and First-Principles StudyĀ – ACS Applied Energy Materials, 2024.

Conclusion šŸŒŸ

Mahad Rashid is a highly skilled and passionate data science professional with a strong academic background and extensive industry experience. His expertise in data analysis, machine learning, and AI, combined with his ability to communicate complex ideas effectively, makes him a valuable asset to any organization. Mahadā€™s commitment to innovation, continuous learning, and delivering impactful results positions him as a leader in the field of data science and analytics.

 

Xuezhi Shi | Marine ecological restoration | Best Researcher Award

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Dr Xuezhi Shi | Marine ecological restoration | Best Researcher AwardĀ 

zhejiang ocean university, China

Xuezhi Shi, born in 1989, is a dedicated lecturer and master tutor at the Marine Engineering Equipment College of Zhejiang Ocean University, China. With a strong academic background and extensive research experience, he specializes in additive manufacturing, particularly in the fields of 3D printing and advanced materials. His work focuses on improving the mechanical properties and structural integrity of materials like Ti-6Al-4V and Ti-47Al-2Cr-2Nb alloys. Dr. Shi has published numerous high-impact research papers, contributing significantly to the understanding of crack formation, surface quality, and defect behavior in additive manufacturing processes. His innovative approaches, such as hybrid fabrication techniques and directed energy deposition, have garnered attention in the scientific community. Dr. Shi is also an active member of the academic community, collaborating with international researchers and mentoring students. His contributions continue to push the boundaries of marine engineering and materials science.

Professional Profile

Orcid

Scopus

Education šŸŽ“

Xuezhi Shi’s academic journey reflects his commitment to mechanical engineering and advanced manufacturing. He earned hisĀ PhD in Mechanical EngineeringĀ fromĀ Beijing Institute of TechnologyĀ (2013ā€“2017), where he focused on additive manufacturing and material science. Prior to this, he completed hisĀ Masterā€™s degree in Mechanical EngineeringĀ atĀ Beijing Technology and Business UniversityĀ (2011ā€“2013), specializing in advanced manufacturing techniques. His foundational education includes aĀ Bachelorā€™s degree in Mechanical Design, Manufacturing, and AutomationĀ fromĀ Beijing Institute of Petrochemical TechnologyĀ (2007ā€“2011). Throughout his academic career, Dr. Shi demonstrated a keen interest in optimizing manufacturing processes, particularly in selective laser melting and wire arc additive manufacturing. His research during his PhD laid the groundwork for his current work in marine engineering and 3D printing. Dr. Shiā€™s educational background has equipped him with the skills to innovate and lead in the field of additive manufacturing.

Experience šŸ’¼

SinceĀ August 2017, Xuezhi Shi has been aĀ lecturer and master tutorĀ at theĀ Marine Engineering Equipment College, Zhejiang Ocean University. In this role, he has been instrumental in advancing research in additive manufacturing, particularly for marine applications. His work involves exploring the mechanical properties of materials like Ti-6Al-4V and Ti-47Al-2Cr-2Nb, with a focus on eliminating defects and enhancing performance. Dr. Shi has also contributed to the development of hybrid fabrication techniques, combining selective laser melting and wire arc additive manufacturing. His research has practical implications for industries such as aerospace, marine engineering, and materials science. Additionally, he mentors graduate students, guiding them in cutting-edge research projects. Dr. Shiā€™s expertise in additive manufacturing has led to collaborations with international researchers, further solidifying his reputation as a leader in the field. His work continues to bridge the gap between theoretical research and industrial applications.

Awards and Honors šŸ†

While specific awards and honors for Xuezhi Shi are not explicitly mentioned in the provided information, his contributions to additive manufacturing and materials science are highly regarded. His research publications in prestigious journals such asĀ Journal of Materials Research and Technology,Ā Optics and Laser Technology, andĀ Materials Science and Engineering AĀ highlight his impactful work. Dr. Shiā€™s innovative approaches, such as hybrid fabrication techniques and directed energy deposition, have likely earned him recognition within the academic and industrial communities. His collaborations with international researchers and consistent publication record demonstrate his standing as a respected figure in the field. Dr. Shiā€™s work on crack elimination, surface quality improvement, and defect behavior in additive manufacturing processes has set new benchmarks in materials science. His dedication to advancing marine engineering through additive manufacturing continues to inspire students and researchers alike.

Research FocusĀ  šŸ”¬

Xuezhi Shiā€™s research primarily focuses onĀ additive manufacturing (3D printing), with an emphasis on improving the mechanical properties and structural integrity of advanced materials. His work explores the use ofĀ selective laser melting (SLM)Ā andĀ wire arc additive manufacturing (WAAM)Ā for materials likeĀ Ti-6Al-4VĀ andĀ Ti-47Al-2Cr-2Nb. Key areas of interest includeĀ crack formation mechanisms,Ā surface quality optimization, andĀ defect behaviorĀ in additive manufacturing processes. Dr. Shi also investigates hybrid fabrication techniques, combining SLM and WAAM to enhance material performance. His research extends to the influence of external factors, such as ship-based vibrations, on additive manufacturing outcomes. Additionally, he explores the use of novel additives, like 316L-sodium silicate, to improve material properties. Dr. Shiā€™s work has significant implications for industries such as aerospace, marine engineering, and materials science, where additive manufacturing is increasingly used for complex and high-performance components.

Publication Top Notes šŸ“š

  1. Utilization of machine-made sand waste in 3D-printed ecological concrete for artificial reefsĀ šŸŒŠ
  2. Enhancing mechanical properties of Tiā€“6Alā€“4V through directed energy deposition-arc by coating with 316L-sodium silicate additiveĀ āš™ļø
  3. Eliminating cracks in Ti-47Al-2Cr-2Nb/Ti-6Al-4V micro-laminated composites fabricated by dual-material laser powder bed fusionĀ šŸ”§
  4. Influence of Ship-based Vibration on Characteristics of Arc and Droplet and Morphology in Wire Arc Additive ManufacturingĀ šŸš¤
  5. Effect of substrate preheating, remelting, in-situ presintering on the formation of cracking of Ti-47Al-2Cr-2Nb fabricated by Selective Laser MeltingĀ šŸ”„
  6. Effect of high layer thickness on surface quality and defect behavior of Ti-6Al-4V fabricated by selective laser meltingĀ šŸ–Øļø
  7. The crack and pore formation mechanism of Ti-47Al-2Cr-2Nb alloy fabricated by selective laser meltingĀ šŸ§Ŗ
  8. Beam Diameter Dependence of Performance in Thick-Layer and High-Power Selective Laser Melting of Ti-6Al-4VĀ šŸ’”
  9. Selective laser melting-wire arc additive manufacturing hybrid fabrication of Ti-6Al-4V alloy: microstructure and mechanical propertiesĀ šŸ”¬
  10. Parameter optimization for Ti-47Al-2Cr-2Nb in selective laser melting based on geometric characteristics of single scan tracksĀ šŸ“

Conclusion šŸŒŸ

Xuezhi Shi is a prominent figure in the field of additive manufacturing, with a strong focus on improving the mechanical properties and structural integrity of advanced materials. His research on selective laser melting, wire arc additive manufacturing, and hybrid fabrication techniques has significantly contributed to the understanding of crack formation, surface quality, and defect behavior. Dr. Shiā€™s work has practical applications in industries such as aerospace, marine engineering, and materials science. His dedication to mentoring students and collaborating with international researchers further underscores his commitment to advancing the field. Through his innovative approaches and impactful publications, Dr. Shi continues to push the boundaries of additive manufacturing, making significant strides in both theoretical research and industrial applications.

Chito Villanueva | Earthquake Engineering | Best Researcher Award

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Mr Chito Villanueva | Earthquake Engineering | Best Researcher Award

Student at Polytechnic University of the Philippines, Philippines

Chito M. Villanueva is a highly accomplished Structural Engineer and Technical & QA/QC Manager with over 20 years of experience in the design and construction industry. Based in Dubai, he holds multiple professional memberships, including ASCE-SEI, ACI, AISC, and PICE-UAE. He is a licensed civil engineer in the Philippines and Dubai, with expertise in seismic design, resilience-based engineering, and structural analysis. Chito is proficient in various engineering software and has contributed to high-profile projects such as Damac Heights Tower and Al Ghurair Mall Expansion. He is currently pursuing a Master of Science in Civil Engineering at the Polytechnic University of the Philippines, specializing in Structural Engineering. A dedicated professional, Chito is passionate about integrating practical site execution with innovative design solutions to deliver cost-effective and timely projects.

Professional Profile

Orcid

Education šŸŽ“

Chito Villanueva is currently pursuing aĀ Master of Science in Civil EngineeringĀ at the Polytechnic University of the Philippines, specializing in Structural Engineering (2022ā€“present). He earned hisĀ Bachelor of Science in Civil EngineeringĀ from the Technological Institute of the Philippines, Manila (1998ā€“2003), where he graduated as a scholar of Makati. His technical foundation was laid at Don Bosco Technical Institute, Makati City (1993ā€“1998), where he completed his high school education with a focus on Industrial Drafting Technology, earning him four consecutive Top 10 Technical awards. Chitoā€™s academic journey reflects his strong commitment to technical excellence and continuous learning in the field of structural engineering.

Experience šŸ’¼

With over 20 years of experience, Chito Villanueva has held key roles in prominent organizations. Currently, he serves asĀ Technical & QA/QC Manager ā€“ Structural EngineerĀ at Bu Haleeba Contracting L.L.C., Dubai (2018ā€“present), overseeing quality management and value engineering. Previously, he worked as aĀ Technical Engineer – StructuralĀ at Al Rostamani Pegel L.L.C. (2016ā€“2017) and as aĀ Structural EngineerĀ at Arabtec Construction L.L.C. (2011ā€“2016), contributing to projects like Damac Heights Tower and Tiarra Tower. He also served at Habtoor Leighton Group (2008ā€“2011) and Prisma Spaceframe (2005ā€“2008), specializing in glazing structures and high-rise designs. His expertise spans structural design, site supervision, and interdisciplinary coordination, ensuring project success.

Awards and Honors šŸ†

Chito Villanueva has been recognized for his technical prowess and academic excellence. During high school at Don Bosco Technical Institute, he was aĀ 4-time consecutive Top 10 Technical awardeeĀ and aĀ Don Bosco Youth Center Scholar. He graduated as aĀ scholar of MakatiĀ during his bachelorā€™s degree in Civil Engineering at the Technological Institute of the Philippines. His professional achievements include holding aĀ Dubai Municipality License (U/L)Ā and being anĀ IRCA CQI Certified Lead Auditor for ISO 9001:2015. Chitoā€™s dedication to continuous learning is evident through his active participation in seminars and webinars offered by ASCE, ACI, AISC, and PICE.

Research Focus šŸ”

Chito Villanuevaā€™s research focuses onĀ resilience-based seismic designĀ and the application ofĀ nonlinear fluid viscous dampersĀ in structural engineering. He is particularly interested inĀ linear and nonlinear modeling,Ā LRHA (Linear Response History Analysis), andĀ NLRHA (Nonlinear Response History Analysis). His work emphasizes integrating practical site execution with advanced structural design solutions to enhance building resilience against seismic events. Chitoā€™s research aims to bridge the gap between theoretical design and real-world applications, ensuring cost-effective and sustainable construction practices.

Publication Top Notes šŸ“š

  1. The application of nonlinear fluid viscous dampers in resilience-based seismic design: A systematic reviewĀ (Structures, 2025)

Conclusion šŸŒŸ

Chito M. Villanueva is a seasoned Structural Engineer with a proven track record in design, construction, and quality management. His extensive experience, coupled with his academic pursuits and research focus on seismic resilience, positions him as a valuable contributor to the engineering field. Chitoā€™s dedication to innovation, practical solutions, and continuous learning makes him a standout professional in the industry.