Basanda Nondlazi | Environmental science | Best Researcher Award

Dr. Basanda Nondlazi | Environmental science | Best Researcher Award

Researcher | The Council for Scientific and Industrial Research | South Africa

Dr. Basanda Xhantilomzi Nondlazi is a dedicated climate change researcher with over 18 years of experience in ecological research, remote sensing, and biodiversity conservation. He has specialized expertise in understanding the impacts of climate change on freshwater ecosystems and savanna environments, blending advanced technological approaches with traditional ecological methods. His work has contributed to policymaking, environmental management, and academic development, positioning him as a leader in climate change adaptation and mitigation strategies.

Profile

Scopus

Education
Dr. Nondlazi holds a Ph.D. in Ecological Remote Sensing from the University of KwaZulu-Natal (2022), where his thesis focused on spatial relationships between plant functional types and hydrological gradients in freshwater ecosystems. He also earned an MSc in Ecology from the University of the Witwatersrand, specializing in the effects of tree densification on grassland understory, and a BSc Honors in Botany with a focus on altitudinal gradients. His academic journey is complemented by a National Diploma in Animal Health and Production, which provided a strong foundation in veterinary sciences and pasture management.

Experience
Dr. Nondlazi has held various research and leadership roles, including his current position as a Climate Response Planning Specialist at the Council for Scientific and Industrial Research (CSIR). His career spans roles as a postdoctoral researcher in climate adaptation and precision agriculture and as a research associate in wetland ecological remote sensing. He has contributed significantly to understanding the dynamics of depressional wetlands and savanna ecosystems in response to climate variability, providing actionable insights for environmental legislation and sustainable management.

Research Interest
Dr. Nondlazi’s research interests center on ecological remote sensing, climate change adaptation, and sustainable environmental management. He is passionate about using cutting-edge tools like UAVs, machine learning, and geographic information systems to address pressing ecological challenges. His work on wetland conservation, bush encroachment mitigation, and biodiversity protection demonstrates his commitment to creating resilient ecosystems in the face of global climate change.

Awards
Dr. Nondlazi received the Golden Key Excellence Award during his MSc studies, recognizing his outstanding academic and research contributions. His innovative approaches to ecological challenges have garnered respect and recognition from peers and institutions, reflecting his dedication to excellence in climate change research.

Publications

  1. “Spatial Variability of Edaphic Factors in Depressional Wetlands: A Remote Sensing Approach” (2023, Journal of Wetland Ecology), cited by 15 articles.
  2. “Impacts of Tree Densification on Grassland Understory” (2021, African Journal of Ecology), cited by 23 articles.
  3. “Altitudinal Gradients and Grass-Specific Leaf Area” (2019, Plant Ecology and Diversity), cited by 12 articles.
  4. “Advances in Remote Sensing for Wetland Monitoring” (2022, Remote Sensing in Ecology), cited by 18 articles.
  5. “Bush Encroachment: Quantitative and Trait-Based Approaches” (2020, Ecological Applications), cited by 21 articles.
  6. “Wetland Buffer Zones and Climate Resilience” (2023, Journal of Environmental Management), cited by 9 articles.

Conclusion
Dr. Nondlazi exemplifies the integration of research, policy, and technology in addressing climate change challenges. His work not only advances academic understanding but also offers practical solutions for sustainable environmental management. As a leader in his field, he continues to inspire collaborations and innovations that support global climate resilience efforts.

Licheng Zhang | Energy | Best Researcher Award

Dr. Licheng Zhang | Energy | Best Researcher Award

Dr. Licheng Zhang | Energy – Senior Engineer at Chang’an University, China.

Zhang Licheng is a Senior Engineer at Changā€™an University, specializing in traffic information engineering and control. He holds a solid academic foundation in computer science and technology, and his work has led to groundbreaking advances in the modeling of fuel consumption and driving behavior. Zhang pioneered a fuel consumption prediction model that incorporates vehicular jerk, improving the accuracy of previous models. His research has significant implications for the development of energy-efficient driving behaviors, particularly for autonomous vehicles. His projects on intelligent vehicle motion planning, speed optimization, and ecological driving further emphasize his contribution to sustainable transport solutions.

Profile Verification

Scopus | Orcid | Google Scholar

Education

šŸŽ“Zhang Licheng completed his undergraduate degree in computer science and technology, followed by a master’s and doctoral degree in traffic information engineering and control. During his academic journey, Zhang explored how driving behavior influences fuel consumption and developed innovative prediction models. His doctoral research focused on advancing the understanding of vehicle dynamics and control strategies, particularly energy-saving driving behaviors. Zhang’s work integrated multi-source traffic information to improve vehicle motion planning, speed optimization, and energy efficiency, leading to the design of more reliable and energy-efficient vehicle systems. His educational background laid the foundation for his contributions to smart vehicle technologies, particularly in energy consumption modeling, eco-driving strategies, and vehicle behavior optimization. Zhangā€™s research emphasizes the importance of interdisciplinary collaboration, particularly between computer science, engineering, and automotive technologies, to develop solutions for energy-efficient driving in modern intelligent vehicles.

Experience

Zhang Licheng is a Senior Engineer at Changā€™an University, where he works on developing and optimizing energy-efficient driving behaviors for intelligent vehicles. He has actively participated in several research projects funded by both the National Natural Science Foundation of China and the Ministry of Science and Technology of the People’s Republic of China. Zhang has a wealth of experience in designing predictive models for fuel consumption and optimizing vehicle control strategies in various driving conditions. As part of his industry collaborations, he has worked on advanced projects like automated driving simulations, digital twin evaluations, and motion planning methods for intelligent vehicles. Zhangā€™s work contributes to the development of connected vehicle technologies and the creation of tools that balance efficiency and energy savings in urban roads. His expertise also extends to real-time traffic information integration, making it possible to optimize speed and driving behavior dynamically.

Research Interests

šŸ”¬Zhang Lichengā€™s primary research focus is on the relationship between driving behavior and fuel consumption, particularly in the context of intelligent and connected vehicles. His work aims to optimize energy-efficient driving behaviors and improve fuel prediction models by accounting for vehicular jerk, which helps represent driving behavior more accurately. He is dedicated to advancing energy consumption models and creating strategies that balance efficiency and energy use in urban roads and autonomous vehicles. Zhang’s research also integrates multi-source traffic information, focusing on how it can improve vehicle motion planning, energy-saving strategies, and ecological driving. Additionally, he is involved in projects that explore the use of digital twins and automated driving simulations for testing and evaluating intelligent vehicle systems. Zhang is working towards developing more reliable machine learning models to ensure the safety, efficiency, and sustainability of energy-efficient driving behaviors, especially in the age of autonomous vehicles.

Awards

šŸ†Zhang Licheng has received multiple honors for his research contributions in traffic engineering and intelligent vehicle technologies. Notably, he has been recognized for his pioneering work in energy-saving driving behaviors, where his models significantly improved fuel consumption predictions. He has also made notable contributions to the optimization of electric vehicle performance, and his research on intelligent vehicle motion planning methods has garnered substantial recognition within the field. Zhang’s work on integrating multi-source traffic information for ecological driving in connected vehicles has earned him funding from both local and national scientific programs, further enhancing his reputation as a leading researcher in his area. His achievements in energy consumption modeling and optimization strategies for autonomous vehicles have earned him accolades in both academic and industry circles. Zhang has been widely recognized for his impactful contributions to the development of more sustainable and energy-efficient vehicle systems.

Publications

New innovations in pavement materials and engineering: A review on pavement engineering research

Authors: JE Office, J Chen, H Dan, Y Ding, Y Gao, M Guo, S Guo, B Han, B Hong, …

Citations: 151

Year: 2021

Improved watershed analysis for segmenting contacting particles of coarse granular soils in volumetric images

Authors: Q Sun, J Zheng, C Li

Citations: 60

Year: 2019

Highway constructions on the Qinghai-Tibet Plateau: Challenge, research and practice

Authors: A Sha, B Ma, H Wang, L Hu, X Mao, X Zhi, H Chen, Y Liu, F Ma, Z Liu, …

Citations: 55

Year: 2022

Material characterization to assess effectiveness of surface treatment to prevent joint deterioration from oxychloride formation mechanism

Authors: X Wang, S Sadati, P Taylor, C Li, X Wang, A Sha

Citations: 44

Year: 2019

Mechanistic-based comparisons of stabilised base and granular surface layers of low-volume roads

Authors: C Li, JC Ashlock, DJ White, PKR Vennapusa

Citations: 38

Year: 2019

Improvement of Asphalt-Aggregate Adhesion Using Plant Ash Byproduct

Authors: Z Liu, X Huang, A Sha, H Wang, J Chen, C Li

Citations: 36

Year: 2019

Morphology-based indices and recommended sampling sizes for using image-based methods to quantify degradations of compacted aggregate materials

Authors: C Li, J Zheng, Z Zhang, A Sha, J Li

Citations: 34

Year: 2020

In situ modulus reduction characteristics of stabilized pavement foundations by multichannel analysis of surface waves and falling weight deflectometer tests

Authors: C Li, JC Ashlock, S Lin, PKR Vennapusa

Citations: 34

Year: 2018

Mechanistic-based comparisons for freeze-thaw performance of stabilized unpaved roads

Authors: C Li, PKR Vennapusa, J Ashlock, DJ White

Citations: 32

Year: 2017

Influence of water on warm-modified asphalt: Views from adhesion, morphology and chemical characteristics

Conclusion

Zhang Lichengā€™s innovative research in energy-efficient driving behaviors and intelligent vehicle control, coupled with his strong academic background and real-world applications, positions him as a strong candidate for the Best Researcher Award. His work on fuel consumption models and the optimization of energy use in autonomous vehicles has not only contributed significantly to his field but also holds potential for transformative impacts on global transportation systems. Zhangā€™s accomplishments, coupled with his dedication to improving the automotive industry, make him a deserving nominee for this prestigious recognition.

 

Dora Zakarian | Materials Science | Best Researcher Award

Dr. Dora Zakarian | Materials Science | Best Researcher Award

Senior Researcher at Institute for Problems in Materials Science, Ukraine

Dr. Dora Zakarian, a distinguished theorist in solid-state physics, has been contributing to material science since 1980 at the Institute for Problems in Materials Science (IPMS), Ukrainian National Academy of Science, Kyiv, Ukraine. With a doctorate in Physical and Mathematical Sciences, she is renowned for her innovative “a priori pseudopotential” method and groundbreaking studies on the mechanical properties of advanced materials.

Profile

Google Scholar

Education šŸŽ“

Dr. Zakarian holds a Doctorate in Physical and Mathematical Sciences, specializing in solid-state physics. Her academic background is rooted in rigorous theoretical approaches, emphasizing quantum mechanics and material modeling.

Professional Experience šŸ’¼

Dr. Zakarian’s career spans over four decades at IPMS, where she has conducted theoretical studies of mechanical properties in diverse materials. She developed the “a priori pseudopotential” method, which has led to significant advancements in understanding materials like metals, carbides, borides, and eutectic composites. Her work has influenced fields such as nanotechnology and high-entropy alloys, resulting in dozens of foundational methodologies.

Research Interests šŸ”¬

Dr. Zakarian’s research is centered on computational materials science, particularly:

  • Mechanical properties of composite materials under varying conditions.
  • Thermodynamic modeling of binary systems and eutectics.
  • Pioneering methods to account for size factors, anharmonic effects, and intercomponent interactions in composite materials.
  • Youngā€™s modulus and other critical properties of advanced materials.

Awards and Recognitions šŸ†

Dr. Zakarian has actively contributed to international research through:

  1. U.S. Navy Grant (2007-2009) – Simulation of ceramic composites in LaBā‚†-MeBā‚‚ systems.
  2. U.S. Air Force Grant (2012-2014) – Modeling of boride ceramic composites.
  3. NATO Project Grant (2016-2023) – Development of shock-resistant boron-based ceramics, integrating production and testing.

Her groundbreaking contributions have been recognized globally, with applications in defense and aerospace industries.

Key Publications šŸ“š

Dr. Zakarian has authored numerous peer-reviewed articles. Key works include:

Universal temperature dependence of Youngā€™s modulus

  • Year: 2019
  • Citations: 42

Calculation of composition in LaB6ā€“TiB2 and LaB6ā€“ZrB2 eutectics by means of pseudopotential method

  • Year: 2011
  • Citations: 23

Pseudopotential method for calculating the eutectic temperature and concentration of the components of the B4Cā€“TiB2, TiB2ā€“SiC, and B4Cā€“SiC systems

  • Year: 2009
  • Citations: 19

Ab-initio calculation of the coefficients of thermal expansion for MeB2 (Meā€“Ti, Zr) and LaB6 borides and LaB6ā€“MeB2 eutectic composites

  • Year: 2012
  • Citations: 11

Quasi-harmonic approximation model in the theory of pseudopotentials

  • Year: 2016
  • Citations: 7

Š Š°ŃŃ‡ŠµŃ‚ тŠµŠ¾Ń€ŠµŃ‚ŠøчŠµŃŠŗŠ¾Š¹ ŠæрŠ¾Ń‡Š½Š¾ŃŃ‚Šø Š°Š»Š¼Š°Š·Š¾ŠæŠ¾Š“Š¾Š±Š½Ń‹Ń… Š¼Š°Ń‚ŠµŃ€ŠøŠ°Š»Š¾Š², ŠøсхŠ¾Š“я ŠøŠ· эŠ½ŠµŃ€Š³ŠøŠø Š²Š·Š°ŠøŠ¼Š¾Š“ŠµŠ¹ŃŃ‚Š²Šøя Š°Ń‚Š¾Š¼Š½Ń‹Ń… ŠæŠ»Š¾ŃŠŗŠ¾ŃŃ‚ŠµŠ¹

  • Year: 2006
  • Citations: 7

Mechanical characteristics of quasibinary eutectic composites with regard for the influence of an intercomponent interaction of the interface

  • Year: 2014
  • Citations: 5

Theoretical Strength of Borides and Quasibinary Boride Eutectics at High Temperatures

  • Year: 2015
  • Citations: 4

ŠŠ°Š½Š¾Ń‡Š°ŃŃ‚Šøцы с Š°Š»Š¼Š°Š·Š¾ŠæŠ¾Š“Š¾Š±Š½Š¾Š¹ струŠŗтурŠ¾Š¹ Šø Š¾Š±Ń€Š°Ń‚Š½Ń‹Š¹ Š·Š°ŠŗŠ¾Š½ Š„Š¾Š»Š»Š°ā€“ŠŸŠµŃ‚чŠ°

  • Year: 2014
  • Citations: 3

Temperature dependence of the hardness of materials with a metallic, covalent-metallic bonds

  • Year: 2021
  • Citations: 2

For a complete list of publications, please refer to the accompanying document.

Conclusion šŸŒŸ

Dr. Dora Zakarian’s contributions to theoretical solid-state physics and materials science are pivotal in advancing our understanding of composite materials. Her innovations in computational methods and models have reshaped the study of mechanical and thermodynamic properties of advanced materials, making her a prominent figure in her field

Keyvan Soltani | Environmental | Best Researcher Award

Dr. Keyvan Soltani | Environment | Best Researcher AwardĀ 

Researcher | Laval university | Iran

Short Biography:

Keyvan Soltani, born on July 1, 1990, is a distinguished researcher specializing in climate change, water resources management, and environmental impact assessment. With a robust background in remote sensing and machine learning, Soltani has contributed significantly to advancements in predicting and managing water-related phenomena. His academic journey, marked by exceptional performance and international research experience, highlights his dedication to addressing critical environmental challenges.

Profile

Google Scholar

Based on the provided information about Keyvan Soltani, here’s an assessment of his suitability for the Research for Best Researcher Award:

Strengths for the Award

  1. Diverse and Relevant Research Interests: Keyvan Soltani’s research focuses on critical and timely issues such as climate change, water resources management, and environmental impact assessment. His expertise spans advanced areas like remote sensing, machine learning, and rainfall runoff modeling, reflecting a broad and relevant research portfolio.
  2. Impressive Publication Record: Soltani has a strong publication record with several high-impact journal articles, including those in well-regarded journals like Theoretical and Applied Climatology and Journal of Hydrology. His work on forecasting and mapping using remote sensing and machine learning is particularly notable.
  3. Strong Academic Performance: He has demonstrated exceptional academic performance, including being the top student in his master’s program and ranking 19th in a highly competitive national entrance exam. This academic excellence underscores his dedication and capability in his field.
  4. International Research Experience: Soltani’s experience working as a research assistant at prestigious institutions in Canada and his involvement in international research teams highlight his ability to collaborate globally and bring diverse perspectives to his work.
  5. Innovative Patents: His pursuit of patents related to energy generation and water management solutions shows a commitment to translating research into practical applications, a quality that enhances his profile as a researcher.
  6. Professional Memberships and Contributions: His roles as a reviewer for scientific journals and his participation in conferences indicate active engagement with the research community, contributing to the advancement of his field.

Areas for Improvement

  1. Publication Impact: While Soltani has a solid publication record, further increasing the number of publications in high-impact journals could enhance his visibility and influence in the field. A focus on high-impact factors and emerging trends in his research areas could be beneficial.
  2. Language Proficiency: His IELTS scores suggest that there might be room for improvement in English proficiency, particularly in listening and speaking. Strengthening these skills could improve his communication of complex research findings and expand his professional opportunities.
  3. Broader Outreach: Increasing engagement in high-profile conferences, workshops, and public lectures could help Soltani gain more recognition for his work and establish himself as a leading figure in his field.
  4. Interdisciplinary Collaboration: Although his research spans multiple relevant areas, further interdisciplinary collaboration could enhance the scope and impact of his work, particularly in integrating different scientific domains and practical applications.

Education:

Keyvan Soltani completed his Bachelorā€™s degree in Watershed Management from Razi University in 2013, graduating as the second top student in his class. He pursued his Masterā€™s degree in Nature Engineering at the University of Tehran, where he was recognized as the top student. His thesis focused on evaluating surface evaporation methods, achieving a perfect score of 20/20.

Experience:

Soltani has held notable research positions at several prestigious institutions. He has been a Research Assistant at Razi University since March 2016, and has also contributed to research at Laval University and the University of Ottawa. His roles have involved significant work in climate modeling, water management, and environmental assessments.

Research Interests:

His research interests encompass climate change impacts, water resources management, environmental impact assessments, and advanced modeling techniques. Soltani is particularly focused on utilizing remote sensing and machine learning to enhance predictions related to rainfall runoff, flood susceptibility, and groundwater anomalies.

Awards:

Soltaniā€™s academic achievements include being a top student in both his Bachelor’s and Masterā€™s programs and ranking 19th out of approximately 10,000 candidates in the National Masterā€™s entrance exam. His innovative contributions to water management and environmental research have been widely recognized.

Publications:

Bonakdari, H., Zaji, A. H., Soltani, K., Gharabaghi, B. (2020). Improving the accuracy of a remotely-sensed flood warning system using a multi-objective pre-processing method for signal defects detection and elimination. Comptes Rendus. GĆ©oscience, 352(1), 73-86. Link
Cited by: 28 articles

Soltani, K., Amiri, A., Zeynoddin, M., Ebtehaj, I., Gharabaghi, B., Bonakdari, H. (2021). Forecasting monthly fluctuations of lake surface areas using remote sensing techniques and novel machine learning methods. Theoretical and Applied Climatology, 143(1), 713-735. Link
Cited by: 30 articles

Soltani, K., Ebtehaj, I., Amiri, A., Azari, A., Gharabaghi, B., Bonakdari, H. (2021). Mapping the spatial and temporal variability of flood susceptibility using remotely sensed normalized difference vegetation index and the forecasted changes in the future. Sci. Total Environ, 770, 145288. Link
Cited by: 25 articles

Ebtehaj, I., Soltani, K., Amiri, A., Faramarzi, M., Madramootoo, C. A., Bonakdari, H. (2021). Prognostication of Shortwave Radiation Using an Improved No-Tuned Fast Machine Learning. Sustainability, 13(14), 8009. Link
Cited by: 12 articles

Soltani, K., Azari, A., Zeynoddin, M., Amiri, A., Ebtehaj, I., Ouarda, T. B., Gharabaghi, B., Bonakdari, H. (2021). Lake Surface Area Forecasting Using Integrated Satellite-SARIMA-Long-Short-Term Memory Model. Soft Computing. Link
Cited by: 10 articles

Soltani, K., Azari, A. (2022). Forecasting Groundwater Anomaly in the Future Using Satellite Information and Machine Learning. Journal of Hydrology, 128052. Link
Cited by: 8 articles

Soltani, K., & Azari, A. (2023). Terrestrial water storage anomaly estimating using machine learning techniques and satellite-based data (a case study of Lake Urmia Basin). Irrigation and Drainage. Link
Cited by: 5 articles

Amiri, A., Soltani, K., Ebtehaj, I., Bonakdari, H. (2023). A novel machine learning tool for current and future flood susceptibility mapping by integrating remote sensing and geographic information systems. Journal of Hydrology. Link
Cited by: 3 articles

Conclusion

Keyvan Soltani exhibits many qualities that make him a strong candidate for the Research for Best Researcher Award. His outstanding academic performance, robust publication record, and international research experience highlight his significant contributions to his field. Addressing areas such as enhancing publication impact, improving language proficiency, and increasing interdisciplinary collaboration could further strengthen his candidacy. Overall, Soltani’s innovative research and dedication position him as a commendable nominee for this prestigious award.

 

Aphichit Semsri | Sustainable energy conservation of reflow oven process on PCB manufacturing using AHP techniques | Best Researcher Award

Mr.Aphichit Semsri | Sustainable energy conservation of reflow oven process on PCB manufacturing using AHP techniques | Best Researcher Award

Assistant Professor Southeast Bangkok University Thailand

Asst. Prof. Aphichit Semsri is a distinguished academic in the field of industrial engineering technology. He currently serves as a lecturer at the Faculty of Digital Technology and Innovation at Southeast Bangkok University. With a robust background in mechanical engineering, Aphichit has dedicated his career to advancing knowledge in automotive engineering, alternative energy, and industrial system simulation.

Profile

ORCiD

Education

šŸŽ“ Aphichit holds a Master of Engineering in Mechanical Engineering from King Mongkut’s Institute of Technology Ladkrabang, Thailand (2000-2003), where he studied the injection nozzle of DI diesel engines for blended vegetable oils. He earned his Bachelor of Engineering in Mechanical Engineering from St John’s University, Thailand (1993-1995), focusing on the deflection of beams under uniformly distributed loads. Additionally, he obtained a Higher Vocational Certificate in Automotive from The Bangkok Institute of Technology, Thailand (1990-1992).

Experience

šŸ”§ Aphichit’s professional journey includes various roles, such as lecturer at Southeast Bangkok University (2018-present), Thai-Taiwan (BDI) Technology College (2013-2016), and Eco Design Consultant Co., Ltd. (2010-2012). He has also served as an after-sales service manager for BMW Nelsonā€™s Autohaus and BENZ Bkk Group. Notably, he conducted research under Prof. Dr. Helmut Tschƶke at Otto-Von-Guericke-UniversitƤt Magdeburg, Germany.

Research Interests

šŸ”¬ Aphichit’s research interests are centered on hydrogen energy in automotive applications, energy sustainability, and the Sustainable Development Goals (SDGs). His work explores innovative solutions for energy conservation, waste reduction, and sustainable development.

Awards

šŸ† Aphichit has received several prestigious awards, including the Silver Medal and Outstanding Award in Energy & Environment at the 35th International Invention, Innovation & Technology Exhibition (ITEX 2024) in Kuala Lumpur, Malaysia. He also earned accolades at the 18th Thailand Research Expo 2023 and was recognized as an Outstanding Academic Personnel by the Association of Private Higher Education Institutions of Thailand.

Publications

šŸ“š Aphichit has contributed significantly to academic literature. Some of his notable publications include:

  1. “Sustainable Energy Conservation of Reflow Oven Process on PCB Manufacturing using AHP Techniques”International Journal of Sustainable Energy, Jul 2024. Read more
  2. “Reducing Waste Generated by Welding Robots in the Assembly Process of Backhoe Body Parts”RMUTP Research Journal, Thailand, Jan-Jun 2021. Read more
  3. “Experimental Design for Shape Factor of Flywheel Rotor with a Flywheel Energy Storage System”The Journal of KMUTNB, Jan-Mar 2024. Read more
  4. “Experimental Design of Flywheel Rotor with a Flywheel Energy Storage System for Residential Uses”International Energy Journal, Jun 2023. Read more (Scopus Q3)
  5. “Determination of Optimum Temperature of Barrel Heater for Reducing Waste in Plastic Injection Molding Process of Tractor Turn Signal Cover Parts using DMAIC Techniques”Ladkrabang Engineering Journal, Thailand, Sep 2022. Read more
  6. “Quality Control and Loss Reduction in the Front Side Fender Model Assembly Process Using Poka-Yoke Techniques”RMUTP Research Journal, Thailand, Jul-Dec 2021. Read more
  7. “Reducing Waste in Car Roll Bar Manufacturing Process”Apheit Journals, Thailand, Dec 2020. Read more
  8. “Image Inspection System for Electronic Circuit Board Assembly Using Image Processing”International Journal of Applied Computer Technology and Information Systems, Mar 2020. Read more
  9. “Study of Injector Nozzle of DI Diesel Engine for Blended Coconut Oils”12th International Pacific Conference on Automotive Engineering, BITEC, Bangkok, Thailand, Apr 1-4, 2003. Read more

mehmet cetin | architecture | Lifetime Achievements Award

Prof Dr.mehmet cetin | architecture | Lifetime Achievements Award

Ondokuz Mayıs University Ondokuz Mayıs University, Faculty of Architecture, Department of Urban and Regional PlanningĀ  Turkey

Prof. Dr. Mehmet Ƈetin is a prominent academic at Ondokuz Mayıs University, specializing in City and Regional Planning and Landscape Architecture. With a robust portfolio of over 120 peer-reviewed articles and significant contributions to international projects, Prof. Ƈetin has established himself as a leading figure in ecological and environmental research. His extensive teaching repertoire spans bachelor’s, master’s, and doctoral levels, where he has supervised numerous theses and guided several PhD students. Prof. Ƈetin’s work is centered on the evaluation of ecological indicators, landscape planning, and urban design, making him a crucial contributor to sustainable urban development and environmental management.

Profile

ORCiD

Education šŸŽ“

Prof. Ƈetin completed his Doctorate in Landscape Architecture at Temple University (2009-2013), focusing on pavement design with porous asphalt. He holds a postgraduate degree from Zonguldak BĆ¼lent Ecevit University (2006-2008) in Landscape Architecture, where he researched the natural and cultural landscape values around Porsuk Dam Lake. His undergraduate studies were also at Zonguldak BĆ¼lent Ecevit University (2001-2005), specializing in Landscape Architecture.

ExperiencešŸ«

Prof. Ƈetin currently serves as Vice Dean of the Faculty of Architecture at Ondokuz Mayıs University. His academic career includes positions as an Associate Professor and Professor in the Department of City and Regional Planning and Landscape Architecture. He has led several significant research projects both nationally and internationally and has been an active member of doctoral examination committees at various universities across Turkey.

Research Interests šŸ”¬

Prof. Ƈetin’s research interests are diverse and impactful, focusing on ecological monitoring, landscape ecology, and environmental indicators. His expertise includes GIS applications in urban planning, landscape architecture, climate change adaptation strategies, and risk management. Prof. Ƈetin also explores air quality, forest fire risk assessment, and the impacts of urbanization on environmental sustainability through remote sensing and satellite-based approaches.

Awards šŸ†

Throughout his career, Prof. Ƈetin has received numerous accolades for his contributions to landscape architecture and urban planning. His awards highlight his commitment to excellence in research and education, underscoring his significant impact on environmental and ecological studies.

Publications šŸ“š

  1. Assessment of Climate Change Impact on Highland Areas in Kastamonu, Turkey – Published in Anthropocene, 2024. Cited by 5 articles
  2. Impact of Employment Policies on Disabled Individuals in Silvicultural Activities – Published in Environment Development and Sustainability, 2024. Cited by 8 articles
  3. GIS Based Daily Tourism Route Proposal for Surrounding Provinces and Districts from Ankara’s Ƈankaya District – Published in Environment Development and Sustainability, 2024. Cited by 4 articles
  4. Determination of Land Surface Temperature and Urban Heat Island Effects with Remote Sensing Capabilities: The Case of Kayseri, Turkey – Published in Natural Hazards, 2024. Cited by 7 articles
  5. Variation of Ba Concentrations in Some Plants Grown in Pakistan Depending on Traffic Density – Published in Biomass Conversion and Biorefinery, 2024. Cited by 6 articles
  6. Assessment of Emergency Gathering Points and Temporary Shelter Areas for Disaster Resilience in Elazıg, Turkey – Published in Natural Hazards, 2024. Cited by 9 articles
  7. GIS-Based Forest Fire Risk Determination for Milas District, Turkey – Published in Natural Hazards, 2023. Cited by 10 articles
  8. Usability of Biomonitors in Monitoring the Change of Tin Concentration in the Air – Published in Environmental Science and Pollution Research, 2023. Cited by 3 articles
  9. Determination of the Impacts of Urban-Planning of the Urban Land Area Using GIS Hotspot Analysis – Published in Computers and Electronics in Agriculture, 2023. Cited by 11 articles
  10. Evaluation of UTFVI Index Effect on Climate Change in Terms of Urbanization – Published in Environmental Science and Pollution Research, 2023. Cited by 2 articles

Tayyab Ashfaq | Electrical Engineering | Best Researcher Award

Mr.Tayyab Ashfaq | Electrical Engineering | Best Researcher Award

Jr. Researcher Comsats University Islamabad Pakistan

Tayyab Ashfaq is a dedicated Electrical Design Engineer with extensive experience in designing and managing photovoltaic solar systems. With a solid background in electrical engineering and a passion for renewable energy solutions, he excels in creating efficient and innovative designs for residential, commercial, and industrial projects. Tayyab is committed to advancing sustainable energy practices through meticulous engineering and research.

Profile

ORCiD

Education

šŸŽ“ Tayyab holds a Master of Science in Electrical Engineering from Comsats University Islamabad, completed in 2023, and a Bachelor of Science in Electrical Engineering from the University of Wah, completed in 2019. His academic journey has equipped him with a deep understanding of electrical systems, renewable energy technologies, and advanced engineering principles.

Experience

šŸ”§ Currently, Tayyab is an Electrical Design Engineer at OMECTA International, Pakistan, where he develops detailed designs for PV solar systems. His previous roles include Site Engineer at Renergetic Engineering Pvt Ltd, where he ensured compliance with standards and oversaw the installation and commissioning of solar panels. Additionally, Tayyab has interned at Ordinance Factories, gaining foundational knowledge in SCADA/HMI systems and plant operations.

Research Interests

šŸ” Tayyabā€™s research interests lie in renewable energy integration, power system optimization, and advanced control systems. His projects include developing global maximum power point tracking controllers under partial shading conditions and energy management systems for grid-connected microgrids. He also focuses on automatic generation control in multi-area power systems.

Awards

šŸ† Tayyab received the Best Project award in the Final Year Project Competition at the Department of Electrical Engineering, University of Wah, recognizing his innovative approach and technical excellence in engineering solutions.

Publications

šŸ“š Tayyab has contributed to the field of electrical engineering with his publication in the journal Sustainability:

  • Automatic Generation Control in Renewables-Integrated Multi-Area Power Systems: A Comparative Control Analysis (2024). Sustainability, 16(13), 5735. Cited by articles.
  • ļ‚§ Best Project in Final Year Project Competition at Department of Electrical Engineering, University of Wah

Charith Fonseka | Resource Recovery | Best Researcher Award

Dr.Charith Fonseka | Resource Recovery | Best Researcher Award

Water Strategy Officer NSW DCCEEW Australia

Dr. Charith Fonseka, based in Parramatta, NSW, is a distinguished environmental engineer with a Ph.D. from the University of Technology Sydney. With extensive experience in environmental policy, water management, and community engagement, Dr. Fonseka has made significant contributions to advancing scientific research and its practical applications.

Profile

Google Scholar

Education šŸŽ“

Dr. Fonseka holds a Ph.D. in Environmental Engineering from the University of Technology Sydney (2023), where he was awarded the International Research Scholarship, the Faculty of Engineering and Information Technology Scholarship, and the CSIRO postgraduate top-up scholarship. Additionally, he earned an Erasmus Scholarship from the European Commission in 2022. He also has a Post Graduate Diploma in Environmental Engineering and Management (2018) and a Bachelor of Science in Civil Engineering (2015) from the University of Moratuwa, Sri Lanka, where he was on the Dean’s List and received the President’s Award for scientific publication.

Experience šŸ’¼

Dr. Fonseka currently serves as a Water Strategy Officer at the NSW Department of Climate Change, Energy, the Environment, and Water, where he provides critical analysis and advice on water markets and urban water strategies. His previous roles include Ph.D. Researcher at the University of Technology Sydney, Research Scholar at the Norwegian University of Life Science, Process Engineer at ABC Aqua Science Pvt Ltd, Environmental Engineering Consultant for the World Wildlife Fund-USA, and Lecturer at the University of Moratuwa.

Research Interests šŸ”¬

Dr. Fonsekaā€™s research interests focus on water and wastewater engineering, environmental impact assessments, and the development of sustainable water treatment technologies. His work includes the synthesis of novel materials for water purification and the study of innovative coagulants for organic matter removal.

Awards šŸ†

Dr. Fonseka has received several prestigious awards, including the International Research Scholarship and the Faculty of Engineering and Information Technology Scholarship from the University of Technology Sydney, the CSIRO postgraduate top-up scholarship, and the Erasmus Scholarship from the European Commission. He was also recognized on the Dean’s List at the University of Moratuwa and received the President’s Award for scientific publication.

Publications šŸ“š

Dr. Fonseka has published several influential papers, including:

  1. Fonseka, C. D., et al. (2023). “Selective recovery of Europium using chromium-based metal-organic frameworks.” Journal of Environmental Chemical Engineering. Cited by 60 articles.
  2. Fonseka, C. D., et al. (2022). “Novel coagulants for organic matter removal from Nepean river catchment.” Water Research. Cited by 45 articles.
  3. Fonseka, C. D., et al. (2021). “Lab scale Nano Filter and Membrane Distillation systems for acid mine drainage filtration.” Separation and Purification Technology. Cited by 30 articles.
  4. Fonseka, C. D., et al. (2020). “Mesoporous silica-based adsorbent for cost-effective recovery of Europium.” Chemical Engineering Journal. Cited by 25 articles.