Yacouba Coulibaly | Environmental Engineering | Best Researcher Award

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Mr Yacouba Coulibaly | Environmental Engineering | Best Researcher Award

PhD candidate, Orleans Economics Laboratory, France

Yacouba Coulibaly is a dedicated Ph.D. student in Economics at the University of Orléans, France, specializing in public finance and international development. He has earned advanced degrees in Development Economics from the University of Clermont-Ferrand and Economic Policy and Modeling from Alassane Ouattara University. With a strong focus on macroeconomics, econometrics, and the natural resources sector, Coulibaly has contributed significant insights to ecological and economic challenges. His professional journey includes a Research Fellow role at the United Nations Economic Commission for Africa, focusing on technology, climate change, and natural resource management.

PROFESSIONAL PROFILE

Orcid

STRENGTHS FOR THE AWARD

  1. Academic Excellence: Yacouba Coulibaly has demonstrated an impressive academic background, with advanced degrees from renowned institutions, including a Ph.D. in Economics from the University of Orléans. His mastery of public finance, international development, and econometrics highlights a strong foundation for impactful research.
  2. Diverse Expertise: His work spans multiple fields, including taxation, public debt management, climate change, and natural resource economics. This multidisciplinary expertise aligns well with the current demands for comprehensive solutions in development economics and sustainability.
  3. Research Impact: Publications in high-impact journals, such as Ecological Economics and World Development, showcase his ability to produce innovative, relevant, and well-cited research. His work on resource-backed loans and their ecological and social effects addresses pressing global issues.
  4. Professional Contributions: As a Research Fellow at the United Nations Economic Commission for Africa, Coulibaly has contributed to policymaking and capacity building in climate change and resource management. This role emphasizes his ability to translate academic research into actionable policy.
  5. Methodological Rigor: Expertise in advanced econometric modeling, such as CGE models, panel data analysis, and impact assessments, reflects a high level of technical proficiency and analytical rigor.

AREAS FOR IMPROVEMENT

  1. Broader Dissemination: While his research is impactful, further engagement in public forums, conferences, or workshops could enhance its visibility and reach among policymakers and stakeholders.
  2. Collaborative Projects: Increasing collaborations with researchers from diverse disciplines and countries could bring fresh perspectives and bolster his work’s global applicability.
  3. Grant Acquisition: Active participation in securing competitive research grants would further validate his standing as a leading researcher and provide resources for larger-scale projects.

EDUCATION

📚 Ph.D. in Economics – University of Orléans (2021–Present)
🌍 Master in Development Economics – University of Clermont-Ferrand (2020–2021)
📈 Master in Economic Policy and Modeling – Alassane Ouattara University (2018)

Coulibaly’s educational foundation bridges global public finance and advanced econometric modeling. His research combines sustainability, fiscal policies, and socioeconomic impact modeling, establishing a strong academic trajectory.

EXPERIENCE

🌐 Research Fellow – United Nations Economic Commission for Africa (2023–Present)
Coulibaly works on climate change, resource management, and sustainable development policies.
🎓 Teaching & Research – Various roles during his academic journey have shaped his expertise in econometric applications, public debt management, and development strategies.

AWARDS AND HONORS

🏆 Top Research Publication RecognitionEcological Economics (2024)
🌟 Research Fellowship – United Nations Economic Commission for Africa (2023)
📖 Best Master’s Thesis – CERDI, University of Clermont-Ferrand (2021)

RESEARCH FOCUS

📊 Public Finance – Taxation, fiscal space, debt sustainability
🌱 Climate Change – Carbon tax, green financing
📈 Macroeconomics – Public debt and investment efficiency
🔬 Econometrics – Time series, impact analysis

PUBLICATION TOP NOTES

  1. 🌍 Resource-backed loans and ecological efficiency of human development (Ecological Economics, 2024)
  2. 🌳 The effects of resource-backed loans on deforestation (World Development, 2025)

CONCLUSION

Yacouba Coulibaly is a strong candidate for the Best Researcher Award due to his outstanding academic credentials, multidisciplinary research expertise, and impactful publications addressing critical global challenges. While opportunities exist to further expand his influence through dissemination, collaboration, and funding, his achievements to date demonstrate remarkable promise and a significant contribution to the field of economics and development. He is well-positioned to be recognized as a leader in his domain.

Júlia Justino | Engineering Education | Best Researcher Award

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Prof. Dr Júlia Justino | Engineering Education | Best Researcher Award

Professor, Polytechnic Institute of Setúbal, Portugal

Júlia Justino is an accomplished academic and researcher specializing in mathematics, particularly in algebra and logic. She earned her Ph.D. in Mathematics from the Universidade de Évora, Portugal, focusing on “Non-standard linear algebra with error analysis.” Currently serving as an Adjunct Teacher at Instituto Politécnico de Setúbal, Portugal, her contributions extend to innovative pedagogical frameworks in engineering education. With a strong publication record, Júlia’s research addresses practical and theoretical challenges in mathematics and education.

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Academic Excellence: Júlia Justino possesses a strong academic foundation, holding a Ph.D. in Mathematics with a specialization in Algebra and Logic. Her thesis, “Non-Standard Linear Algebra with Error Analysis,” demonstrates expertise in a highly specialized area.
  2. Teaching and Mentorship: With over two decades of experience in higher education, Justino has served as an Adjunct Teacher at Instituto Politécnico de Setúbal, Portugal. Her role highlights her commitment to teaching and contributing to academic growth.
  3. Research Contributions: She has published 16 documents, including conference papers and journal articles, with a notable focus on pedagogical design, mathematics in engineering, and applied linear algebra. These contributions have collectively received 19 citations, showcasing their impact.
  4. Collaborative Work: Justino has co-authored multiple research papers, emphasizing teamwork and interdisciplinary collaboration, particularly in pedagogy and mathematics.
  5. Innovative Pedagogical Approaches: Her research on student-centered learning and transitioning to online education during the COVID-19 pandemic reflects her ability to address current educational challenges effectively.
  6. Recognition in the Academic Community: Her h-index of 2, while modest, demonstrates a consistent contribution to her field.

AREAS FOR IMPROVEMENT

  1. Broader Impact in Research: Although she has published extensively, her citation count suggests the need to focus on topics with broader appeal or application. Strengthening the practical implications of her research may increase its global impact.
  2. Grant Acquisition: While her profile does not highlight awarded grants, securing competitive research funding could further enhance her profile.
  3. Expanding Research Scope: Justino could diversify her research areas to include emerging fields in mathematics and pedagogy to remain at the forefront of innovation.
  4. International Visibility: Greater participation in international collaborations, conferences, and networking events could increase her visibility and influence in the global academic community.

EDUCATION

Júlia Justino holds a Ph.D. in Mathematics (Álgebra e Lógica) from Universidade de Évora, Portugal (2008–2013). She completed her Master’s coursework in Mathematics and Applications at the same university in 2006. Her foundational studies include a Licenciatura in Mathematics from Universidade de Lisboa (1994–1999). Additionally, Júlia pursued a Curso Médio in Singing at Escola de Música do Conservatório Nacional and a Monitor de Aeróbica certification from CEFAD. Her academic journey reflects a balance between STEM and creative disciplines.

EXPERIENCE

Júlia Justino has been shaping the academic landscape as an Adjunct Teacher at Instituto Politécnico de Setúbal since 2013, focusing on engineering and mathematics education. From 1999 to 2013, she served as an Assistant Teacher at the same institution. Her dedication to education and research is evidenced by her role in developing pedagogical strategies and innovative frameworks for student-centered learning. Júlia also actively participates in conferences and collaborative projects, contributing significantly to mathematics and education.

AWARDS AND HONORS

Júlia Justino’s work has been recognized through citations and a robust h-index of 2, highlighting her contributions to mathematics and education. Her research on student-centered approaches and mathematical methodologies has garnered international acknowledgment, with citations by 19 scholarly documents. As a co-author and researcher, Júlia has participated in numerous collaborative projects, further solidifying her reputation in the academic community.

RESEARCH FOCUS

Júlia Justino’s research interests lie at the intersection of mathematics, engineering education, and pedagogical innovation. Her doctoral work on “Non-standard linear algebra with error analysis” underscores her expertise in algebra and logic. Recent projects focus on designing frameworks for transnational training, mathematics assessment in engineering, and critical thinking in student-centered approaches. Her work bridges theoretical rigor and practical application, aiming to enhance educational methodologies.

PUBLICATION TOP NOTES

📘 Pedagogical Approach for BUILD2050 Pilot Training Project
📗 A 5-Step Pedagogical Design for Engineering Courses
📙 Designing a Pedagogical Framework for Transnational Training
📕 Why is It so Difficult to Apply Student-Centered Approach?
📚 Which Pathway Towards Mathematics’ Assessment in Engineering Education?
📘 The Explicit Formula for Gauss-Jordan Elimination Applied to Flexible Systems
📗 How to Overcome the Difficulties Emerged When Applying Student-Centered Approach?
📙 Conceptual Maps Applied to Remote/Virtual Laboratories for Active Learning
📕 Transitioning the Teaching/Learning Process to Online Environment During the COVID-19 Pandemic
📚 Critical Thinking Focus Applied on Student-Centered Approach

CONCLUSION

Júlia Justino is a highly qualified candidate for the Best Researcher Award. Her robust academic background, extensive teaching experience, and research contributions make her a strong contender. However, focusing on enhancing the impact and visibility of her work could strengthen her candidacy further. Overall, her dedication to education and research underscores her suitability for this prestigious recognition.

Jung-Chang Wang | Green Energy Technology | Best Researcher Award

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Prof. Dr Jung-Chang Wang | Green Energy Technology | Best Researcher Award

Associate Vice President of RD, National Taiwan Ocean Univeristy (NTOU), Taiwan

Dr. Jung-Chang Wang is a distinguished Professor at the Department of Marine Engineering, National Taiwan Ocean University (NTOU). With a Ph.D. in Mechanical Engineering from National Taiwan University, his expertise spans thermal performance, heat transfer, and thermoelectric applications. He has served as Chairman of the Department of Marine Engineering and currently holds the position of Associate Vice President for Research & Development at NTOU. With over 1,100 citations, an h-index of 17, and 62 published works, Dr. Wang has contributed significantly to his field through research on advanced thermal management and energy-efficient systems.

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Academic Background:
    • Ph.D. in Mechanical Engineering from National Taiwan University (2007), a prestigious institution.
    • Two additional degrees (M.S. and B.S.) in Mechanical Engineering from National Cheng Kung University, showcasing a solid foundation in the field.
  2. Research Contributions:
    • Publication Record: 62 documents, including journal articles and conference papers, with significant contributions to heat transfer, thermoelectric nanofluids, thermal management, and energy systems.
    • Citations: Over 1,100 citations and an h-index of 17, reflecting the impact and relevance of his research in the academic community.
    • Collaborations: 42 co-authors and involvement in interdisciplinary projects, indicating a wide network and collaborative spirit.
    • Recent impactful research on hybrid thermoelectric nanofluids and piezo actuators, which are innovative areas in mechanical and marine engineering.
  3. Leadership and Professional Roles:
    • Served as a Chairman (2020–2023) and Professor at the Department of Marine Engineering, National Taiwan Ocean University.
    • Currently serving as an Associate Vice President for Research & Development, highlighting his leadership and administrative capabilities in fostering academic and research growth.
  4. Diverse Research Areas:
    • Expertise in advanced thermal management systems, thermoelectric devices, polymeric methodologies for fuel cells, and marine engineering.
    • Contributions to environmentally sustainable technologies like water quality assessment and solid oxide fuel cells.
  5. Innovative Impact:
    • Focus on practical applications of mechanical engineering principles, such as thermal performance, energy storage, and cooling systems for electronic devices, aligning with global sustainability goals.

AREAS FOR IMPROVEMENTS

  1. Diversity of Metrics:
    • While the h-index and citation count are commendable, increasing participation in high-impact journals and securing patents could further establish a robust research profile.
  2. Grant Acquisition:
    • No specific mention of awarded grants; obtaining high-profile research funding would strengthen his case for the Best Researcher Award.
  3. Outreach and Engagement:
    • Greater involvement in organizing international conferences, workshops, or public outreach activities could showcase his contributions beyond academic publications.
  4. Global Recognition:
    • Expanding research collaborations internationally and participating in global initiatives would enhance his visibility in the broader research community.

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EDUCATION

🎓 Ph.D. in Mechanical Engineering, National Taiwan University (2007): Dissertation focused on two-phase thermal module performance.
🎓 M.S. in Mechanical Engineering, National Cheng Kung University (1997): Research on heat transfer coefficients for plate-tubed heat exchangers.
🎓 B.S. in Mechanical Engineering, National Cheng Kung University (1995).

EXPERIENCE

💼 Professor, Department of Marine Engineering, NTOU (2014–Present).
💼 Associate Vice President, Research & Development, NTOU (2024–2025).
💼 Chairman, Department of Marine Engineering, NTOU (2020–2023).
💼 Associate Professor, NTOU (2011–2014).
💼 Assistant Professor, NTOU (2008–2011).

AWARDS AND HONORS

🏅 Best Research Paper Award, National Taiwan Ocean University.
🏅 Academic Excellence Award, Taiwan Engineering Association.
🏅 Teaching Excellence Award, NTOU Department of Marine Engineering.
🏅 Reviewer Recognition, Scopus & Polymers Journal.

RESEARCH FOCUS

🔬 Thermal management and energy systems.
🌊 Marine engineering innovations and sustainable energy applications.
🧪 Hybrid thermoelectric nanofluids and piezoelectric cooling systems.
⚡ Solid oxide fuel cells using novel core-shell electrodes.
🌱 Renewable energy storage and thermoelectric conversion efficiency.

PUBLICATION TOP NOTES

📄 Properties Related to the HLB Value of Hybrid Thermoelectric Nanofluids at Different Temperatures.
📄 Cooling Performance Analysis for Mobile Vehicles by Thermal Resistance Network.
📄 Investigation of Thermal Management and Control System of Lithium-Ion Battery.
📄 Investigations on Five PMMA Closed Types of Piezo Actuators as a Cooling Fan.
📄 Investigations on Temperatures of the Flat Insert Mold Cavity Using VCRHCS.
📄 Water Quality Assessment of Keelung Port.
📄 Design and Testing of a Bearingless Piezo Jet Micro Heatsink.
📄 An Overview on Novel Core-Shell Electrodes for Solid Oxide Fuel Cells.
📄 PMMA Application in Piezo Actuation Jet for Heat Dissipation.
📄 Estimations on Properties of Redox Reactions to Electrical Energy Storage.

CONCLUSION

Professor Wang Jung-Chang is highly suitable for the Best Researcher Award due to his exceptional academic achievements, impactful research contributions, and leadership roles in academia. His focus on cutting-edge technologies and sustainability reflects a forward-thinking approach that aligns with modern research priorities. By strengthening his global collaborations, securing high-profile grants, and expanding his research impact further, he could solidify his standing as a leading researcher in his field.

Bayan TALLAWI | Metrology and Dynamic measurements | Best Researcher Award

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Dr Bayan TALLAWI | Metrology and Dynamic measurements | Best Researcher Award

Research officer, Centre Technique des Industries Aérauliques et Thermiques  ( CETIAT ), France

Bayan Tallawi is a dedicated physicist and researcher specializing in metrology and material science. She currently serves as a Research Officer at CETIAT, France, focusing on humidity measurements in solids and advancing dielectric measurement techniques. With a PhD in Physics and Materials Science from Aix-Marseille University, her work intersects instrumentation, electromagnetic wave interactions, and moisture content analysis. Bayan has also co-authored impactful research, including studies on calibration techniques for biofuel water content measurements.

PROFESSIONAL PROFILE

Orcid

STRENGTHS FOR THE AWARD

  1. Expertise in Metrology and Material Science: Bayan Tallawi has demonstrated significant expertise in advanced metrology, with a focus on humidity measurement in solids, dielectric analysis, and microwave technologies. This specialized knowledge is critical for innovation in material characterization.
  2. Academic Excellence: A PhD in Physics and Materials Science from Aix-Marseille University highlights her strong academic foundation, supported by advanced research in electromagnetic wave interactions and moisture content analysis.
  3. Collaborative Contributions: Her collaborative work, including the publication Calibration Techniques for Water Content Measurements in Solid Biofuels, showcases her ability to contribute to impactful, interdisciplinary projects.
  4. Ongoing Development: Her current role at CETIAT and ongoing training as a technical reference for the French national standard in humidity underscore her commitment to professional growth and advancing scientific standards.

AREAS FOR IMPROVEMENTS

  1. Broader Research Dissemination: While her publication history includes impactful contributions, expanding her portfolio of peer-reviewed articles and engaging in international conferences could strengthen her visibility in the global research community.
  2. Leadership Roles in Scientific Projects: Pursuing leadership roles in large-scale research initiatives or mentoring early-career researchers could further establish her as a key figure in her field.
  3. Interdisciplinary Impact: Leveraging her expertise to solve broader challenges in sustainability, bioenergy, or environmental sciences could elevate her research’s societal relevance.

EDUCATION

🎓 PhD in Physics and Materials Science (2020–2023), Aix-Marseille University, France – Specializing in instrumentation, focusing on electromagnetic wave interactions with wet substances.
🎓 Master’s in Medical Physics and Life Imaging (2017–2019), Lebanese University, Beirut, Lebanon – Research focused on advanced imaging techniques.
🎓 Bachelor’s in Fundamental Physics (2015–2017), Lebanese University, Tripoli, Lebanon – Foundation in physics principles and applications.

EXPERIENCE

💼 Research Officer, CETIAT (2023–Present) – Expertise in humidity measurement, dielectric analysis, and microwave technologies for metrology.
💼 PhD Student, CETIAT & Aix-Marseille University (2020–2023) – Specialized in microwave domain techniques, uncertainty estimation, and water content analysis.

AWARDS AND HONORS

🏆 Contributor to impactful publications in material science journals.
🏆 Ongoing training as a technical reference for France’s national humidity standards.

RESEARCH FOCUS

🔬 Metrology and humidity measurements in solids.
📡 Microwave and RF technologies for material characterization.
📊 Uncertainty analysis in moisture content measurements.

PUBLICATION TOP NOTES

📖 Calibration Techniques for Water Content Measurements in Solid Biofuels, Energies (2024)

CONCLUSION

Bayan Tallawi is a strong candidate for the Best Researcher Award due to her exceptional skills, dedication to scientific advancement, and impactful contributions in metrology and material science. With continued focus on disseminating her research and assuming leadership roles, she is well-positioned to make even greater strides in her field.

Štěpán Nosek | Urban Air Quality | Best Researcher Award

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Dr Štěpán Nosek | Urban Air Quality | Best Researcher Award

Head of the department, Institute of Thermomechanics of the Academy of Sciences, Czech Republic 

Štěpán Nosek is a senior scientist and Head of the Department of Dynamics of Fluids at the Institute of Thermomechanics of the Academy of Sciences of the Czech Republic (IT CAS). With a profound expertise in environmental aerodynamics, atmospheric turbulence, and urban air quality, he has published over 24 scientific papers with an h-index of 9 and over 200 citations. He has also led two national grants and served in various leadership roles, including as Head of the Laboratory of Environmental Aerodynamics. Štěpán actively contributes to the understanding of pollutant dispersion and turbulence through wind tunnel modeling and real-world studies.

PROFESSIONAL PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. EXPERTISE AND IMPACTFUL RESEARCH:
    • His expertise in atmospheric turbulence, pollutant transport, and environmental aerodynamics directly addresses critical global issues such as air quality and urban pollution.
    • The high impact of his research is reflected in publications in reputable journals, with an h-index of 9 (Web of Science) and over 200 citations, showing that his work is well-regarded in the scientific community.
  2. LEADERSHIP AND CONTRIBUTIONS:
    • He holds significant leadership positions, including Head of the Laboratory of Environmental Aerodynamics and the Department of Dynamics of Fluids at IT CAS.
    • His leadership extends to grant acquisition, having successfully led two national grants, further emphasizing his capacity to manage and advance research projects.
  3. PUBLICATION RECORD:
    • Authorship of more than 24 papers, with several key publications in journals with impact factors exceeding 7.0, highlights the relevance and rigor of his work. Notable papers, such as those in Environmental Pollution (IF 8.3), emphasize practical applications like pollutant transport in urban environments.
  4. INTERNATIONAL COLLABORATION AND EXPERIENCE:
    • A 10-month internship at the Technical University of Denmark and international co-authorships underscore his global research engagement.
  5. PRACTICAL CONTRIBUTIONS:
    • His studies on ventilation in urban street canyons and livestock buildings have significant implications for urban planning, environmental policy, and sustainable development.

AREAS FOR IMPROVEMENT

  1. CITATION IMPACT:
    • While his research is impactful, increasing the breadth of his citations (204 across 24 papers) could further elevate his global recognition. Strategies such as more extensive collaborations and targeting high-citation open-access journals could help.
  2. DIVERSIFICATION OF TOPICS:
    • Expanding his research to emerging areas like climate change mitigation or advanced computational modeling techniques could enhance the scope of his contributions.
  3. GRANT ACQUISITION AND INDUSTRY IMPACT:
    • While successful in securing national grants, increasing engagement with industry-funded projects and international grants could amplify the practical application and visibility of his work.

EDUCATION

🎓 2000–2006: Bachelor’s and Master’s Degrees, Department of Environmental Engineering, Faculty of Mechanical Engineering, Czech Technical University in Prague.
🎓 2006–2010: Ph.D., Department of Environmental Engineering, Faculty of Mechanical Engineering, Czech Technical University in Prague.

EXPERIENCE

🌍 2005–2006: Internship, Technical University of Denmark (10 months).
👨‍🔬 2012–2023: Deputy Head, Department of Dynamics of Fluids, IT CAS.
🔬 2014–2023: Head, Laboratory of Environmental Aerodynamics, IT CAS.
🚀 Since 2024: Head, Department of Dynamics of Fluids, IT CAS.

AWARDS AND HONORS

🏆 Principal Investigator of two national grants in environmental aerodynamics.
📜 Recognized for significant contributions to urban air quality and pollutant dispersion modeling.
✨ Lead author of multiple highly cited works in renowned journals, including Environmental Pollution and Building and Environment.

RESEARCH FOCUS

Štěpán Nosek’s research delves into atmospheric turbulence, pollutant transport, and urban air quality. He focuses on turbulence’s coherent structures and their role in pollutant dispersion in urban environments and environmental flows. His work spans advanced wind tunnel modeling and computational methods to improve understanding of atmospheric surface-layer dynamics and environmental sustainability.

PUBLICATION TOP NOTES

  1. Ventilation Processes in a Three-Dimensional Street Canyon 🏙️
  2. Impact of Roof Height Non-Uniformity on Pollutant Transport 🏢
  3. Street-Canyon Pollution with Urban-Array Complexity 🌆
  4. Combining Effect of Roof Shape and Source Position 🌀
  5. Ventilation of a Cattle Barn under Atmospheric Boundary Layer 🐄

CONCLUSION

Štěpán Nosek’s research aligns well with the criteria for a Best Researcher Award. His impactful publications, leadership roles, and significant contributions to environmental aerodynamics and urban air quality make him a strong candidate. Addressing the highlighted areas for improvement, particularly in citation impact and topic diversification, could further enhance his profile for future recognitions.

AZIZI ABDULLAH | Computer Vision | Best Paper Award

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Assoc. Prof. Dr AZIZI ABDULLAH | Computer Vision | Best Paper Award

Researcher, Universiti Kebangsaan Malaysia, Malaysia

Azizi Abdullah is an esteemed academic and researcher, currently serving as an Associate Professor at Universiti Kebangsaan Malaysia. He holds a Ph.D. in Computer Vision from Utrecht University, The Netherlands. With over two decades of experience in the fields of machine learning, computer vision, and robotics, Dr. Abdullah is recognized for his contributions to medical applications, particularly breast cancer classification and object recognition. He has authored several influential research papers and is an expert in Simultaneous Localization and Mapping (SLAM). Dr. Abdullah is passionate about advancing AI and deep learning techniques, with a focus on applications in autonomous vehicles and medical image analysis.

PROFESSIONAL PROFILE

Google Scholar

Orcid

STRENGTHS FOR THE AWARD

  1. Strong Academic Foundation: Azizi Abdullah holds a Ph.D. in Computer Vision from Utrecht University, The Netherlands, along with a Master’s in Software Engineering and a Bachelor’s in Computer Science. This strong academic background provides a solid foundation for his research endeavors.
  2. Proven Research Impact: Abdullah’s publications reflect significant contributions in computer vision, machine learning, and robotics, with a focus on real-world applications in areas such as medical diagnostics (e.g., breast cancer classification) and autonomous systems (e.g., autonomous vehicle systems and SLAM). The high citation count for his work highlights the widespread impact of his research in the academic community.
  3. Diverse Research Interests: His research spans several cutting-edge areas, including deep learning, AI, object recognition, and autonomous mobile robotics. This multidisciplinary approach is critical for advancing knowledge in these fields.
  4. Leadership and Experience: Having held academic positions from Lecturer to Associate Professor at Universiti Kebangsaan Malaysia, Abdullah has demonstrated leadership in both research and teaching, further underlining his ability to shape the future of the field.

AREAS FOR IMPROVEMENT

  1. Expansion of Collaborative Research: While Abdullah has published extensively, fostering collaborations with more international researchers could further broaden the scope and impact of his work.
  2. Interdisciplinary Applications: Although Abdullah’s research touches on multiple domains, additional focus on interdisciplinary applications, particularly in industries outside academia (e.g., healthcare, manufacturing), could maximize the practical application of his work.

EDUCATION

Dr. Azizi Abdullah earned his Ph.D. in Computer Vision from Utrecht University in 2010. He completed his Master of Software Engineering (MSE) at Universiti Malaya in 1999 and his Bachelor of Science in Computer Science from Universiti Kebangsaan Malaysia in 1996. His academic journey reflects his deep commitment to expanding his expertise in software engineering, artificial intelligence, and computer vision, which are central to his groundbreaking work in machine learning and robotics. His diverse academic background has laid the foundation for his successful career in both research and teaching.

EXPERIENCE

Dr. Abdullah’s academic career spans over two decades, beginning as a Research Assistant at Universiti Kebangsaan Malaysia in 1997. He served as a Tutor and Lecturer before being promoted to Senior Lecturer in 2010. His expertise and leadership earned him the title of Associate Professor in 2015. Throughout his career, Dr. Abdullah has made significant contributions to teaching and research, guiding numerous students in software engineering, computer vision, and AI. He has also played an active role in various academic and research initiatives, further enhancing the global impact of his work.

AWARDS AND HONORS

Dr. Abdullah’s exceptional research contributions have earned him recognition in the fields of computer vision, machine learning, and AI. His work on improving neural network performance and breast cancer classification using deep learning has received widespread acclaim. His research on object categorization and autonomous vehicles has been influential in both academic and industrial sectors. In addition to his numerous citations, Dr. Abdullah’s expertise continues to be acknowledged with awards for his outstanding contributions to technological advancements and the scientific community.

RESEARCH FOCUS

Dr. Abdullah’s research is primarily focused on the intersection of computer vision, machine learning, and robotics. His current work revolves around deep learning models, particularly their application in medical image analysis, such as breast cancer detection. He also explores object categorization and recognition using machine learning techniques. Another key area of his research is autonomous mobile robots, specifically Simultaneous Localization and Mapping (SLAM), which is integral to the development of autonomous systems. His interdisciplinary approach combines cutting-edge AI algorithms with practical applications in medical and robotics fields.

PUBLICATION TOP NOTES

  • Deep CNN model based on VGG16 for breast cancer classification 🏥
  • A linear model based on Kalman filter for improving neural network classification performance 🤖
  • Support vector machine approach to real-time inspection of biscuits on moving conveyor belt 🍪
  • Absolute cosine-based SVM-RFE feature selection method for prostate histopathological grading 🧬
  • Detection of leukemia in human blood sample based on microscopic images 🩸
  • Vision-based autonomous vehicle systems based on deep learning: A systematic literature review 🚗
  • Machine vision for crack inspection of biscuits featuring pyramid detection scheme 🍪
  • An ensemble of deep support vector machines for image categorization 🖼️
  • Spatial pyramids and two-layer stacking SVM classifiers for image categorization 🖼️
  • Fixed partitioning and salient points with MPEG-7 cluster correlograms for image categorization 🖼️

CONCLUSION

Azizi Abdullah is a highly deserving candidate for the “Best Researcher Award.” His strong academic qualifications, broad research interests, and impactful contributions to computer vision, AI, and robotics make him a standout figure in his field. While there is room to enhance the interdisciplinary reach and foster more international collaborations, his record of achievement in both theory and application positions him as an influential researcher poised to continue making significant advancements in his areas of expertise.

Amr Ghoniem | Concrete | Best Innovation Award

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Dr Amr Ghoniem | Concrete | Best Innovation Award

Lecturer, Zagazig university, Egypt

Amr Ghoniem is a dedicated researcher and lecturer in Structural Engineering at Zagazig University, Egypt, with over 10 years of teaching and research experience. Specializing in concrete and steel structure technologies, his work focuses on sustainability and innovative material applications. He leads research projects, mentors graduate and undergraduate students, and contributes to numerous academic publications. With a passion for both teaching and advancing research in structural engineering, Ghoniem’s goal is to shape the future of sustainable concrete and steel structures. 🌍📚

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

Amr Ghoniem exhibits a strong track record in the field of structural engineering, with a notable focus on sustainable concrete and material technology. With over a decade of teaching experience at Zagazig University, his dedication to both education and research is evident. His extensive work in reinforced concrete, numerical analysis, and self-healing concrete systems is a significant contribution to the field. Ghoniem’s publication record is impressive, with key articles on innovative concrete technologies such as self-repairing concrete and fiber-reinforced systems. His leadership in research projects, along with the mentoring of students, further strengthens his profile as an exceptional academic.

AREAS FOR IMPROVEMENT

While Ghoniem’s research is impactful, expanding his collaborations on a global scale could further elevate his work. Strengthening ties with international research communities and exploring interdisciplinary research projects could lead to even more groundbreaking findings. Increased visibility in major global conferences and greater involvement in leadership roles within professional engineering organizations could boost his academic and research influence.

EDUCATION

Amr Ghoniem completed his B.Sc. in Civil Engineering at Zagazig University in 2010, graduating with a very good grade. He went on to earn his Master’s Degree in Structural Engineering in 2016, followed by a Ph.D. in Structural Engineering in 2020. His doctoral thesis focused on “Self-Repairing Concrete Beams with Bacillus Subtilis Bacteria and Polyethylene Fiber.” Ghoniem’s educational journey is a testament to his commitment to academic excellence and sustainable engineering. 🎓📖

EXPERIENCE

Since 2010, Amr Ghoniem has been a lecturer in the Structural Engineering Department at Zagazig University. His professional expertise includes teaching, conducting research, and supervising graduate and undergraduate projects. His work spans a variety of projects related to concrete and steel structures, especially in sustainability and innovative material use. He actively contributes to research proposals and journals and has extensive involvement in educational advancements within the engineering field. 🏫🔬

AWARDS AND HONORS

Amr Ghoniem has been recognized for his exceptional research in structural engineering. Notably, his contributions to sustainable concrete materials have garnered him several accolades in the academic community. His work on self-repairing concrete beams and innovative materials has led to publication in several high-impact journals. Ghoniem’s continuous pursuit of excellence in both research and teaching is reflected in his numerous awards and honors. 🏆🎖️

RESEARCH FOCUS

Ghoniem’s research focuses on reinforced concrete, self-healing concrete, and numerical analysis of concrete structures. He is particularly interested in the behavior of concrete structures under various conditions, using innovative materials such as Bacillus subtilis bacteria and polyethylene fibers. His work aims to improve the sustainability and longevity of concrete structures while integrating advanced technology to optimize construction practices. 🌱🔧

PUBLICATION TOP NOTES

  • Experimental Investigation into the Properties of Crumb Rubberized Concrete Incorporating Corrugated Round Steel Fibers (2024) 📄
  • Glass Fiber for Improved Behavior of Light Expanded Clay Aggregate Concrete Beams: An Experimental Study (2023) 📄
  • Deep Learning Shear Capacity Prediction of Fibrous Recycled Aggregate Concrete Beams Strengthened by Side Carbon Fiber-Reinforced Polymer Sheets (2022) 📄
  • Inducing Competence-Based Assignment in Traditional Structural Engineering Education: A Case Study (2022) 📄
  • Behavior of Macro-Synthetic Fiber-Reinforced High-Strength Concrete Beams Incorporating Bacillus Subtilis Bacteria (2021) 📄
  • Self-Repairing Polyethylene Fiber-Reinforced-Concrete with Bacillus Subtilis Bacteria: A Review (2020) 📄
  • Analysis of Reinforced Concrete D-Regions Using Strut-and-Tie Model (2016) 📄

CONCLUSION

Amr Ghoniem’s dedication to advancing the field of structural engineering through both teaching and impactful research makes him a strong candidate for the Best Researcher Award. His focus on sustainable materials and innovative engineering solutions positions him as a forward-thinking researcher with the potential to make significant contributions to the future of civil engineering. Expanding his international network and collaborations will further enhance his visibility and influence in the academic and research community.

Odey Alshboul | Construction management | Best Researcher Award

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Assoc. Prof. Dr Odey Alshboul | Construction management | Best Researcher Award

Assoc. Prof. Dr, THE HASHEMITE UNIVERSITY, Jordan

Dr. Odey AlShboul is an Associate Professor and Department Head of Civil Engineering at The Hashemite University, Jordan. With a Ph.D. in Civil Engineering from the University of Central Florida (2019), he has extensive academic and professional experience in construction engineering and management. Dr. AlShboul’s career spans various academic roles, including research and teaching assistant positions at international universities. He is dedicated to enhancing the civil engineering field through leadership in education, research, and industry collaborations.

Professional Profile

Google Scholar

Strengths for the Award

  1. Strong Educational Background: Dr. Odey AlShboul has a robust academic foundation, holding a Ph.D. in Civil Engineering with a focus on Construction Engineering and Management from the University of Central Florida, alongside multiple relevant master’s degrees from prestigious institutions. This background positions him well for research and teaching excellence.
  2. Leadership and Management Experience: Dr. AlShboul is currently serving as the Civil Engineering Department Head at The Hashemite University, Jordan. His responsibilities include strategic direction, faculty management, ABET accreditation, and curriculum development. This leadership experience demonstrates his ability to guide academic and research teams, further enhancing his qualifications for a research-focused award.
  3. Research Excellence: Dr. AlShboul has made significant contributions to the field, with several influential publications in journals such as Automation in Construction, Sustainability, and Construction and Building Materials. His work in machine learning applications for construction management, geopolymer concrete, and risk assessment in construction is groundbreaking. His published works are highly cited, with contributions to both theory and practical applications in construction engineering.
  4. Innovative Use of Technology: His focus on machine learning, artificial intelligence, and predictive models for construction management and structural performance is notable. Dr. AlShboul’s work in applying these technologies to construction conflicts, cost prediction, and construction equipment residual value is a testament to his innovative approach.
  5. Collaboration and Networking: He has demonstrated his ability to establish research collaborations with various institutions and industry partners, enhancing his research output and the impact of his work.

Areas for Improvement

  1. Broadening Interdisciplinary Collaboration: While Dr. AlShboul has a strong foundation in civil engineering, particularly in construction management and machine learning, there is potential to expand his research into more interdisciplinary fields, such as sustainability, environmental impact, or smart infrastructure. This could further diversify the scope and reach of his work.
  2. Grant Acquisition and Funding: Although Dr. AlShboul has experience managing departmental budgets and seeking funding, his record of securing research grants could be further enhanced. Increased focus on securing funding for innovative research could elevate his career and broaden the scope of his projects.
  3. Industry Application: While his research is highly valuable to academia, further emphasis on translating his findings into industry practices could further strengthen the practical impact of his work. Increased collaboration with industry partners and government agencies might allow for greater real-world application of his research.

Education

Dr. AlShboul holds a Ph.D. in Civil Engineering (Construction Engineering and Management) from the University of Central Florida (2019). He also earned two M.S. degrees, one in Civil Engineering (Construction Engineering and Management) from the University of Central Florida (2018), and another in Civil Engineering (Structural) from Jordan University of Science and Technology (2014). His undergraduate degree in Civil Engineering is also from Jordan University of Science and Technology, obtained in 2012.

Experience

Dr. AlShboul’s professional experience includes roles as a Site Engineer and Assistant Project Manager in Jordan, where he managed project planning, budgeting, and scheduling. In academia, he has served as a teaching assistant, lecturer, and researcher in various prestigious institutions. At The Hashemite University, he is the Department Head, overseeing strategic direction, curriculum development, faculty management, and accreditation. He also provides consulting services in construction engineering.

Awards and Honors

Dr. AlShboul has received recognition for his significant contributions to construction engineering research, particularly in machine learning applications for construction management. His work has been cited extensively in academic journals. Additionally, his contributions to teaching, mentoring, and curriculum development have earned him awards and honors, highlighting his role as a thought leader in his field.

Research Focus

Dr. AlShboul’s research focuses on the intersection of construction engineering and machine learning, particularly in areas like construction equipment management, green building cost prediction, and structural optimization. He is deeply involved in using AI and data-driven approaches to enhance construction efficiency and sustainability. His recent studies explore forecasting residual values, predicting construction costs, and improving material performance.

Publication Top Notes

  1. Machine learning models for predicting the residual value of heavy construction equipment: An evaluation of modified decision tree, LightGBM, and XGBoost regression 📊
  2. Production of geopolymer concrete using natural pozzolan: A parametric study 🏗️
  3. Extreme gradient boosting-based machine learning approach for green building cost prediction 🌱
  4. Selection of heavy machinery for earthwork activities: A multi-objective optimization approach using a genetic algorithm 🛠️
  5. Risk assessment model for optimal gain–pain share ratio in target cost contract for construction projects ⚖️
  6. Evaluating the impact of external support on green building construction cost 🌍
  7. Deep and machine learning approaches for forecasting the residual value of heavy construction equipment: A management decision support model 📉
  8. Forecasting liquidated damages via machine learning-based modified regression models for highway construction projects 🛣️
  9. Prediction liquidated damages via ensemble machine learning model: Towards sustainable highway construction projects 🔮
  10. Machine learning algorithm for shear strength prediction of short links for steel buildings 🏗️

Conclusion

Dr. Odey AlShboul is an excellent candidate for the Best Researcher Award, based on his significant academic achievements, strong leadership, and impactful research contributions in construction engineering and management. His work demonstrates an innovative use of technology, particularly in machine learning, which sets him apart from many other researchers in the field. By focusing on expanding interdisciplinary collaborations and securing more industry partnerships, Dr. AlShboul could further amplify the practical significance and global reach of his work. With his proven track record and ongoing contributions to advancing construction technology, he is well-deserving of recognition through such an award.

Yeit Haan Teow | Chemical And Environmental | Best Researcher Award Universiti Kebangsaan Malaysia

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Assoc. Prof. Dr Yeit Haan Teow | Chemical And Environmental | Best Researcher Award

Associate Professor, University Kebangsaan Malaysia, Malaysia

Teow Yeit Haan is an Associate Professor of Chemical Engineering at the Faculty of Chemical and Process Engineering, University Kebangsaan Malaysia. With a strong academic foundation and over a decade of expertise in water and wastewater treatment, membrane separation technology, and nanotechnology applications, Dr. Teow has made significant contributions to sustainable water solutions. He has authored numerous impactful publications and continues to lead innovative research in developing advanced materials and technologies for environmental challenges.

PROFESSIONAL PROFILE

Google scholar

STRENGTHS FOR THE AWARD

Teow Yeit Haan is an outstanding researcher in the field of Chemical Engineering, specializing in water and wastewater treatment. His expertise in integrating membrane technology and nanotechnology for water treatment, as demonstrated by his research on nanofiltration membranes and novel membrane materials, positions him as a leading figure in this field. His substantial publication record, with works frequently cited in journals such as Desalination, Journal of Water Process Engineering, and Journal of Membrane Science, further attests to the impact and relevance of his contributions. He has shown great innovation in developing advanced materials such as nanocomposite membranes for water desalination and wastewater treatment.

AREAS FOR IMPROVEMENTS

While Teow’s research has advanced significantly in membrane technology and water treatment, there is potential for further interdisciplinary collaborations. Expanding his research to integrate more diverse environmental technologies and sustainability models could broaden the scope and applicability of his work. Additionally, focusing on practical, real-world implementation of his findings in collaboration with industries could increase the practical impact of his research.

EDUCATION

Dr. Teow earned his Doctorate of Philosophy in Chemical Engineering from Universiti Sains Malaysia (USM) in 2014, specializing in the integration of membrane technology and nanotechnology for water and wastewater treatment. He graduated with First-Class Honors in his Bachelor of Engineering (Chemical Engineering) from Universiti Tunku Abdul Rahman (UTAR) in 2010. His educational journey reflects his dedication to advancing the field of environmental and chemical engineering.

EXPERIENCE

Dr. Teow has over 10 years of research experience in water and wastewater treatment, reclamation, and reuse. His expertise spans membrane separation technology, adsorption processes, and sustainable water solutions. As an academic leader, he has mentored numerous students, collaborated on international projects, and contributed extensively to the scientific community with his innovative approaches to environmental challenges.

AWARDS AND HONORS

Dr. Teow has received multiple awards for his research excellence, including recognition for his contributions to membrane and nanotechnology. His work has been widely cited, underscoring its global impact. He continues to earn accolades for his advancements in chemical engineering and environmental sustainability.

RESEARCH FOCUS

Dr. Teow’s research focuses on water and wastewater treatment, membrane separation technology, adsorption processes, and the development of nanomaterials for sustainable water solutions. His groundbreaking work aims to address global water challenges through innovative technologies and environmental stewardship.

PUBLICATION TOP NOTES

  • Nanofiltration membranes review: Recent advances and future prospects 🌊📚
  • New generation nanomaterials for water desalination: A review 💧🌐
  • Preparation and characterization of PVDF/TiO2 mixed matrix membrane via in situ colloidal precipitation method 🧪🎯
  • Synthesis of cellulose hydrogel for copper (II) ions adsorption 🌿⚗️
  • Nanofiltration membrane processes for water recycling, reuse and product recovery 🚰♻️
  • A review of moving-bed biofilm reactor technology for palm oil mill effluent treatment 🏭🌏
  • Novel GO/OMWCNTs mixed-matrix membrane with enhanced antifouling property 🧑‍🔬💡
  • Development of graphene oxide/multi-walled carbon nanotubes conductive membranes 🌐💧
  • Preparation of novel polysulfone-Fe3O4/GO mixed-matrix membrane for humic acid rejection 🏗️🌿
  • Hybrid chitosan/FeCl3 coagulation–membrane processes: Performance evaluation ⚛️🌟
  • Current approaches for the exploration of antimicrobial activities of nanoparticles 🦠🔬
  • An overview of modification strategies in developing antifouling nanofiltration membranes 🛠️🚿
  • Studies on the surface properties of mixed-matrix membranes for humic acid removal 🧫🌀
  • Treatment of semiconductor-industry wastewater with ceramic and polymeric membranes ⚡💡
  • Water pathways through the ages: Integrated laundry wastewater treatment 💦📖
  • Fouling behaviors of PVDF-TiO2 mixed-matrix membranes in humic acid treatment 🌾🚰
  • Fouling assessment of tertiary palm oil mill effluent membrane treatment ♻️🌴
  • Improving membrane bioreactor performance with silver-decorated graphene oxide 🌟⚙️
  • Environmental impact of nanomaterials in composite membranes 🌍🧪
  • Investigation of anti-fouling and UV-cleaning properties of PVDF/TiO2 membranes 🌞🔬

CONCLUSION

Teow Yeit Haan is highly deserving of the Best Researcher Award due to his groundbreaking work in water and wastewater treatment, specifically in membrane separation and nanotechnology. His extensive research portfolio, innovative approach, and contributions to improving water solutions make him an exceptional candidate for this recognition. With continued focus on industry collaborations and sustainable technologies, his work will undoubtedly have lasting global impact.

Lenganji Simwanda | Composite Structures | Young Scientist Award

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Dr Lenganji Simwanda | Composite Structures | Young Scientist Award

Postdoc, Czech Technical University in Prague, Czech Republic

Dr. Lenganji Simwanda is a dedicated researcher and academic in Civil Engineering, specializing in ultra-high-performance fibre-reinforced concrete (UHPFRC), structural reliability, and sustainable construction practices. With a Ph.D. from Stellenbosch University and extensive postdoctoral research experience, Dr. Simwanda integrates advanced machine learning and probabilistic methods to enhance structural performance and sustainability. He is an active member of the fib Commission 3 Task Group and has collaborated on cutting-edge projects, contributing to over 20 high-impact publications. His expertise spans advanced material modeling, lifecycle optimization, and the application of AI in structural engineering.

PROFESSIONAL PROFILE

Google Scholar

STRENGTHS FOR THE AWARD

  1. Extensive Academic Background: Dr. Lenganji Simwanda possesses a robust academic foundation with a Ph.D. in Civil Engineering specializing in structural reliability, alongside M.Eng and B.Eng degrees, all achieved with exceptional distinction.
  2. Research Expertise: His research spans advanced topics, including the structural reliability of ultra-high-performance fiber-reinforced concrete (UHPFRC), probabilistic modeling, and machine learning applications in structural engineering.
  3. Postdoctoral Research Fellowships: His postdoctoral engagements in esteemed institutions like Stellenbosch University, University of South Africa, and Czech Technical University highlight his ongoing contributions to the field, especially in sustainability-driven assessments of UHPC and Bayesian modeling.
  4. Publications and Citations: With over 20 peer-reviewed papers in renowned journals, his work has garnered citations, reflecting the high impact and relevance of his research.
  5. Teaching Experience: Dr. Simwanda has consistently demonstrated his commitment to academia through teaching roles at both undergraduate and postgraduate levels, showcasing his ability to mentor and inspire future engineers.
  6. Collaborative and Multidisciplinary Approach: His projects involve collaboration with international experts, particularly in integrating artificial intelligence, sustainability, and structural engineering, underscoring his versatility.
  7. Professional Contributions: As a member of the fib Commission 3 Task Group, his contributions to innovative concrete materials and existing concrete structures enhance his profile as a forward-thinking researcher.
  8. Recognition through Funded Research: His involvement in cutting-edge research projects, such as AI4FRACTURE and studies on CFDST columns, demonstrates his ability to secure and execute high-level projects.

AREAS FOR IMPROVEMENT

  1. Expanded Collaboration: While his collaborative efforts are notable, further diversification into interdisciplinary projects beyond civil engineering could enhance the scope of his contributions.
  2. Industry Partnerships: Increasing partnerships with industry stakeholders for practical applications of his research could enhance real-world impact.
  3. Outreach and Communication: Participation in more global conferences and public forums could help disseminate his findings to a broader audience.
  4. Patent Development: While his work has significant theoretical contributions, exploring patents for practical innovations could solidify his standing in the field.

EDUCATION

🎓 Ph.D. in Civil Engineering (2022) – Stellenbosch University, South Africa
Dissertation: Structural reliability of UHPFRC structures.

🎓 M.Eng in Structural Engineering (2020) – University of Zambia, Zambia
Dissertation: Finite element modeling of UHPFRC beams exposed to fire.

🎓 B.Eng in Civil & Environmental Engineering (With Distinction) (2018) – University of Zambia, Zambia
Final Year Dissertation: Cost-effective structural design in reinforced concrete using BS 8110:1997 and Eurocode 2 in Zambia.

EXPERIENCE

👩‍🔬 Postdoctoral Fellow, Czech Technical University (2024–2025)

  • Research: Probabilistic modeling and lifecycle optimization of UHPC structures.

👩‍🔬 Postdoctoral Fellow, University of South Africa (2023)

  • Research: Data-driven methods for CFST and CFDST columns.

👩‍🔬 Consolidoc Fellow, Stellenbosch University (2023)

  • Research: Structural reliability of UHPFRC structures.

👨‍🏫 Lecturer, University of Zambia (2023)

  • Courses: Advanced Design of RC Structures, Theory of Structures.

👨‍🏫 Teaching Assistant, Stellenbosch University (2020–2023)

  • Courses: Theory of Structures, Strength of Materials.

AWARDS AND HONORS

🏆 Best Researcher Award, Stellenbosch University (2022)
🏆 Excellence in Research Award, University of Zambia (2020)
🏆 Top Innovator Award, fib Commission 3 Task Group (2023)
🏆 Outstanding Tutor Award, University of Zambia (2018)

RESEARCH FOCUS

🔬 Structural reliability of UHPFRC structures.
🔬 Sustainability-driven design using advanced concrete materials.
🔬 Lifecycle optimization frameworks integrating AI and Bayesian methods.
🔬 Data-driven methods for composite and innovative structural systems.
🔬 Probabilistic modeling of climatic actions and material behavior.

PUBLICATION TOP NOTES

  1. 📘 Structural reliability of ultra-high-performance fibre-reinforced concrete beams in flexure.
  2. 📘 Structural reliability of UHPFRC beams in shear.
  3. 📘 Numerical modeling and parametric analysis of UHPFRC beams exposed to fire.
  4. 📘 Bayesian calibration and reliability analysis of UHPFRC beams.
  5. 📘 Structural reliability of RC beams strengthened with UHPFRC tensile layers.
  6. 📘 Prediction of torque capacity in CFDST members under pure torsion via ML.
  7. 📘 Numerical study of thermal efficiency in light-gauge steel panels.
  8. 📘 ML prediction of web-crippling strength in cold-formed steel beams.
  9. 📘 Shear behavior of cold-formed stainless steel lipped channel sections.
  10. 📘 Reliability analysis of shear design provisions for cold-formed steel sections.

CONCLUSION

Dr. Lenganji Simwanda’s profound expertise in structural reliability, advanced concrete materials, and machine learning-driven solutions positions him as a highly deserving candidate for the Best Researcher Award. His ability to bridge fundamental research with practical engineering challenges and his consistent contributions to academia make him a valuable asset to the global research community. Further emphasis on industry collaboration and practical applications could elevate his already outstanding career trajectory.