saeedeh shahbazi | Detection | Best Researcher Award

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Ms. saeedeh shahbazi | Detection | Best Researcher Award

researcher, cttc, Spain

👩‍🔬 Saeedeh Shahbazi is a dedicated researcher at the Centre Tecnològic de Telecomunicacions de Catalunya (CTTC), where she specializes in land deformation monitoring. With a strong academic foundation in geophysics and physics, she is also pursuing her PhD at UPC. Saeedeh’s work is driven by innovative approaches to urban area studies using cutting-edge techniques in remote sensing and data analysis.

Publication Profile

ORCID

Education

🎓 Saeedeh holds a Master of Science degree in Geophysics and a Bachelor’s in Physics. Currently, she is furthering her expertise as a PhD candidate at UPC, focusing on geospatial technologies and urban land deformation.

Experience

💼 As a researcher in the Geomatics unit at CTTC, Saeedeh has made significant strides in using Persistent Scatterer Interferometry (PSI) to assess land deformation. She has developed a Python software tool that enables fast, user-friendly post-processing for differential deformation mapping, contributing to urban planning and infrastructure safety.

Research Focus

🔍 Saeedeh’s research revolves around remote sensing and land deformation, particularly focusing on urban areas. Her work with Sentinel-1 data and EGMS products is geared towards detecting building damage risks through detailed deformation analysis. She is committed to improving land monitoring techniques with innovative tools and methodologies.

Awards and Honors

🏆 Saeedeh has not highlighted specific awards, but her ongoing contributions in the RASTOOL project and her automated software tool for deformation analysis stand out as major professional accomplishments.

Publication Top Notes

📄 Constraints on the hydrogeological properties and land subsidence through GNSS and InSAR measurements and well data in Salmas plain, northwest of Urmia Lake, Iran (2021) was published in Hydrogeology Journal and has contributed to subsidence studies. DOI
📄 From EGMS Data to a Differential Deformation Map For Buildings at Continent Level (2024) explores deformation mapping and was published in Procedia Computer Science. DOI
📄 Detection of buildings with potential damage using differential deformation maps (2024), published in ISPRS Journal of Photogrammetry and Remote Sensing, provides insights into building damage detection techniques. DOI
📄 Computing and Sharing the Differential Deformation of the Ground at a Continental Level Using Public EGMS Data (2023) was presented at Environmental Science Proceedings, contributing to large-scale land deformation assessments. DOI
📄 From European Ground Motion Service to Differential Deformation Map for Buildings (2024), published in IGARSS, advances automated building deformation detection techniques. DOI

 

Young-Chan Lee | Generative AI | Excellence in Research

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Prof. Young-Chan Lee | Generative AI | Excellence in Research

Professor, Dongguk University, South Korea

🌟 Dr. Young-Chan Lee is a distinguished professor at Dongguk University, Korea, where he has been serving since 2004. With a rich academic and leadership background, he also holds key roles such as Dean of the Continuing Education Institute and the Institute of Ecology Education. Dr. Lee’s contributions extend globally, including positions at universities in Vietnam and Malaysia. His dedication to information systems and management science has earned him a stellar reputation in both academia and industry.

Publication Profile

ORCID

Education

🎓 Dr. Lee completed his Ph.D. in Management Science from Sogang University in 2003, specializing in data mining, system dynamics, and e-commerce strategy. He also holds an M.A. in Management Science from the same institution, where he concentrated on multi-objective decision-making models, and a B.A. in Business Administration with a focus on finance, econometrics, and management science.

Experience

💼 Over his career, Dr. Lee has taken on leadership roles at Dongguk University, including Dean of the School of Business Administration and Office of International Affairs. He has also worked internationally as an Adjunct Professor at Ton Duc Thang University in Vietnam and as a Senior Researcher at INTI International University in Malaysia. His academic career is complemented by editorial roles in several prestigious journals.

Research Focus

🔬 Dr. Lee’s research interests lie in data mining, machine learning for business analytics, knowledge management, system dynamics, and fintech innovation. He is particularly known for applying systems thinking and multi-criteria decision-making to tackle complex business and management challenges.

Awards and Honours

🏆 Dr. Lee has received numerous accolades, including multiple Best Paper Awards from leading associations such as the Korea Association of Information Systems. His work has also earned recognition on a global scale, including the Most Cited Paper Award from Elsevier and the Top Downloaded Paper Award from Wiley.

Publication Top Notes

Enhancing Financial Advisory Services with GenAI: Consumer Perceptions and Attitudes Through Service-Dominant Logic and Artificial Intelligence Device Use Acceptance Perspectives

Ethical AI in Financial Inclusion: The Role of Algorithmic Fairness on User Satisfaction and Recommendation

Enhancing Financial Advisory Services with GenAI: Consumer Perceptions and Attitudes through SDL and AIDUA Perspectives

 

 

Jean-Marc LAHEURTE | RFID technologies | Best Researcher Award

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Prof. Jean-Marc LAHEURTE | RFID technologies | Best Researcher Award

Professor, Laboratoire ESYCOM Université Gustave Eiffel, France

Jean-Marc Laheurte is a renowned professor and researcher in the field of electrical engineering, specializing in antennas and RFID technologies. With a long career in academia and industry, he is currently the Director of the ESYCOM Laboratory at the University Gustave Eiffel in France. His work has significantly contributed to the development of RFID technologies and antenna research. He has co-authored several books, over 80 journal papers, and holds two patents related to RFID innovations 📡.

Publication Profile

ORCID

Education 🎓

Jean-Marc Laheurte earned his M.Sc. and Ph.D. degrees in electrical engineering from the University of Nice, France, in 1989 and 1992, respectively. He further pursued the Habilitation à Diriger les Recherches in 1997, solidifying his expertise in advanced research and supervision. His educational path includes time spent as a Research Assistant at École Polytechnique Fédérale de Lausanne and a Post-Doctoral Researcher at the University of Michigan 🌍.

Experience 🏫

From 1993 to 2002, Jean-Marc Laheurte served as an Associate Professor at the University of Nice Sophia Antipolis, followed by a professorship at the University Gustave Eiffel, where he has led the ESYCOM Laboratory since 2014. He also had a stint in the private sector as an RF Senior Engineer at Tagsys, France, in 2011-2012, where he contributed to RFID system developments 📡. His leadership extends to organizing courses across Europe in the European School of Antennas and managing the Antennas Committee at the French Microwave Conference (JNM) for a decade 🏆.

Research Focus 🔬

Jean-Marc Laheurte’s research is focused on advanced antennas, particularly their integration into various materials, RFID technologies, and civil engineering infrastructure monitoring. His work extends into RFID localization and the electromagnetic characterization of materials, with applications ranging from logistics to healthcare. He is at the forefront of exploring antennas in lossy materials such as human bodies and construction materials 🚧.

Awards and Honors 🏅

Jean-Marc Laheurte has received recognition for his contributions to electrical engineering, particularly in antenna and RFID technology research. His leadership of the ESYCOM Laboratory and involvement in organizing key antenna and microwave conferences in Europe highlights his influence in the field. His patents on RFID technologies also emphasize his role as an innovator 📜.

Publications Top Notes 📚

“Comparison of UHF RFID Loop Matching Antennas Based on Various Substrate-Metal Material Combinations,” IEEE Transactions on Antennas and Propagation, cited by 55 articles (2017).

“Power Optimized Waveforms for Wireless Power Transmission,” Journal of Electromagnetic Waves and Applications, cited by 35 articles (2019).

Zahid Ullah | Robotics | Best Researcher Award

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Mr. Zahid Ullah | Robotics | Best Researcher Award

PhD Student, Chulalongkorn University, Thailand

Zahid Ullah is a passionate researcher in mechanical and electrical engineering, currently pursuing his Ph.D. in Mechanical Engineering at Chulalongkorn University, Bangkok, Thailand. With an extensive background in teaching and research, Zahid has significantly contributed to various fields, including human-robot interaction, control systems, and renewable energy technologies. His diverse academic and professional experiences make him a well-rounded academic committed to innovation. 🌍🔧

Publication Profile

ORCID

Education:

Zahid Ullah holds a Ph.D. in Mechanical Engineering from Chulalongkorn University (ongoing), an M.Sc. in Electrical Engineering from Abasyn University, Peshawar, Pakistan, and an M.Sc. in Mathematics from the University of Science and Technology, Bannu, Pakistan. He also earned a B.Sc. in Electronics Engineering from the University of Engineering and Technology (UET), Peshawar, Pakistan. 🎓📚

Experience:

Zahid has served as a research assistant and lecturer in various academic institutions in Pakistan, including Abasyn University, Sarhad University of Science and Information Technology, and the Government Polytechnic Institute, Mardan. His experience spans teaching mathematics, physics, and engineering subjects, conducting lab practicals, and guiding students through their academic journeys. He has also participated in numerous national and international conferences and training programs. 🧑‍🏫🔬

Research Focus:

Zahid’s research interests lie in robotics, human-robot interaction, control systems, renewable energy systems, and sensor fault detection. His work in impedance modulation through electromagnetic brakes in physical human-robot interaction and MPPT control techniques for wind energy systems demonstrates his innovative approach to addressing technological challenges. 🤖⚡

Awards and Honors:

Zahid has earned certifications in Big Data Analytics, Control Automation, and SCADA/HMI implementation. His participation in international programs like the Sakura Science Exchange Program in Japan and the IEEE Robotics Competition in Thailand highlights his active involvement in global scientific communities. 🏆🌟

Publication Top Notes:

Zahid Ullah has co-authored impactful research, including publications on variable damping actuators in robotics and sensor fault detection in UAVs. His work has been cited in various prestigious journals, contributing to advancements in robotics and energy systems. 📑🔗

Ullah, Zahid, Ronnapee Chaichaowarat, and Witaya Wannasuphoprasit. “Variable Damping Actuator Using an Electromagnetic Brake for Impedance Modulation in Physical Human–Robot Interaction.” Robotics 12, no. 3 (2023): 80. Cited by Robotics journal (2023)

Maqsood, Hamid, et al. “Novel sensor fault detection and isolation for an unmanned aerial vehicle.” In IEEE IBCAST (2021), pp. 486-493. Cited by IEEE (2021)

Khan, Umar Habib, et al. “Backstepping based MPPT control technique for permanent magnet synchronous generator wind energy conversion system.” In IEEE iCoMET (2020), pp. 1-7. Cited by IEEE (2020)

 

Krzysztof Wislocki | Engineering | Best Researcher Award

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Prof Dr. Krzysztof Wislocki | Engineering | Best Researcher Award

Professor, Poznan University of Technology, Poland

👨‍🏫 Krzysztof Wisłocki, born in 1955, is a distinguished professor at Poznan University of Technology, specializing in combustion engines and thermal processes. With over four decades of academic and research experience, he has made significant contributions to engineering, both as a scholar and mentor. Prof. Wisłocki holds leadership positions in national and international research institutions and remains deeply involved in both education and scientific innovation.

Publication Profile

ORCID

Education

🎓 Prof. Wisłocki earned his Master of Engineering degree in 1979 from Poznan University of Technology. He obtained his Doctor of Engineering in 1987, followed by a Doctor of Science title in 2005. In 2014, he was awarded the prestigious title of full professor.

Experience

💼 Prof. Wisłocki is currently employed at the Institute of Powertrains and Aviation, Faculty of Civil and Transport Engineering, Poznan University of Technology. He previously held positions at various international institutions, including RWTH Aachen and FEV-Institute. His extensive teaching career spans decades, having lectured in both German and English on subjects such as supercharging, combustion, and scientific methodology.

Research Focus

🔬 His research expertise covers a wide range of topics related to thermal processes in combustion engines, turbocharging, direct injection in CI engines, and optical studies of combustion. He is also passionate about the history of thermal machines and engines.

Awards and Honors

🏅 Prof. Wisłocki has received numerous accolades, including the Medal of the Commission of National Education and the Gold Cross of Merit from the Republic of Poland. He is a prominent member of the Polish Scientific Society of Combustion Engines and currently serves as president of the Council of the National Museum of Agriculture and Food Industry.

Publications (Top Notes)

Analysis of Energy Transfer in the Ignition System for High-Speed Combustion Engines

Optimization of Two-Stage Combustion System Fueled by Lean-Burn Compressed Natural Gas Mixtures for Light-Duty Vehicle Engines

Experimental Study on Ignitability of Lean CNG/Air Mixture in the Multi-Stage Cascade Engine Combustion System

Optimization of Two-Stage Combustion System Fueled by Lean-Burn Compressed Natural Gas Mixtures for Light-Duty Vehicle Engines

 

Yuxuan Wang | drilling construction | Best Researcher Award

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Ms. Yuxuan Wang | drilling construction | Best Researcher Award

Master, China University of Geosciences Beijing, China

Yuanxuan Wang 🎓 is currently pursuing a master’s degree at China University of Geosciences, Beijing. With a strong focus on drilling construction and fluid mechanics, Wang has been an active contributor to sealing design research. Her academic background in geosciences, combined with her innovative mindset, positions her as a rising researcher in the field. 📚 She is passionate about exploring cutting-edge solutions to complex engineering problems and has shown remarkable promise in her ongoing research projects.

Publication  Profile

ORCID

Education:

Yuanxuan Wang holds a bachelor’s degree in engineering and is currently a master’s degree candidate at China University of Geosciences in Beijing. 🎓 Her academic journey is characterized by a deep dive into fluid mechanics and mechanical drilling tool design, particularly within the realm of geosciences.

Experience:

Wang has been involved in research projects focusing on fluid mechanics and drilling tool design. 🔧 Her hands-on experience in the field of drilling construction has contributed to innovative research outcomes. Her project work reflects a commitment to advancing the understanding of mechanical systems used in geosciences, offering practical insights for the industry.

Research Focus:

Wang’s research focuses on the drilling construction domain, particularly in the design and optimization of mechanical drilling tools. 🛠️ She is driven by a passion for improving fluid mechanics applications in geotechnical engineering and advancing sustainable solutions within the industry.

Awards and Honours:

Though early in her career, Yuanxuan Wang has been recognized for her dedication and research contributions in geosciences. 🏅 Her involvement in significant projects, as well as her promising research, has earned her a nomination for the Best Researcher Award.

Publication Top Notes:

Wang has published the article Measurement Method of Whole Mechanical Automatic Vertical Drilling Tools in Applied Sciences journal. Her work on vertical drilling tools showcases innovative methodologies to optimize mechanical operations. The article has been indexed in Scopus and cited for its practical implications in drilling technology. 🌐 You can explore her publication here:

Measurement Method of Whole Mechanical Automatic Vertical Drilling Tools

 

John Degnan | Laser Applications | Lifetime achievement Award

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Prof. John Degnan | Laser Applications | Lifetime achievement Award

Technical Consultant, Retired from NASA and Sigma Space Corp, United States

🌟 Dr. John J. Degnan is a renowned physicist and laser expert with over six decades of groundbreaking work in laser theory and instrument design. He spent nearly 40 years at NASA’s Goddard Space Flight Center (GSFC) and played a pivotal role in advancing satellite laser ranging and Single Photon Lidars (SPLs) technology. As a co-founder of the International Laser Ranging Service (ILRS), Dr. Degnan continues to make significant contributions to space science, with his work extending to NASA’s ICESat-2 mission. He is a fellow of Optica and the International Association for Geodesy, with a career decorated by numerous prestigious awards. 🌍💡

Publication Profile

ORCID

Education

🎓 Dr. Degnan completed his doctoral studies in physics, where his pioneering research led to the development of the first modelocked laser oscillator/regenerative amplifier. His work during his Ph.D. set the foundation for many of his future innovations in laser technology, including contributions that supported Einstein’s theory of relativity. 📚⚛️

Experience

🚀 Dr. Degnan’s career spans over 60 years, including nearly 40 years at NASA GSFC, where he developed highly accurate satellite laser ranging systems and innovative laser technology. He served as a Distinguished Adjunct Professor of Physics at The American University, co-founded the ILRS, and later became Chief Scientist at Sigma Space Corporation, pioneering advanced lidar systems for NASA’s ICESat-2 mission. He has also contributed to NASA’s deep space missions, such as OSIRIS-Rex. 🔭📡

Research Focus

🔬 Dr. Degnan’s research primarily focuses on laser technology, including optical antenna gain, Q-switched lasers, and millimeter-accuracy satellite laser ranging. His innovations in Single Photon Lidars (SPLs) have significantly enhanced high-data-rate topographic and bathymetric measurements, particularly from spacecraft and satellites. His work has extended the application of laser ranging and time transfer across the solar system. 🚀📊

Awards and Honors

🏆 Dr. Degnan’s stellar career has earned him numerous prestigious awards, including the NASA Space Act Award, the ILRS SLR Pioneer Award, the Tsiolkovsky Medal, and the Marquis Who’s Who Lifetime Achievement Award. He has been honored by Drexel University and recognized in the Marple Newtown School District Hall of Fame for his outstanding contributions to science and technology. 🏅✨

Publications

📚 Dr. Degnan has authored over 260 technical publications, contributing widely to laser physics, ranging technologies, and space missions. His widely cited theories have made a significant impact on the scientific community, and his work continues to influence innovations in satellite and laser technologies.

Evolution of Single Photon Lidar: From Satellite Laser Ranging to Airborne Experiments to ICESat-2

A Tutorial on Retroreflectors and Arrays Used in Satellite and Lunar Laser Ranging

Multipurpose Laser Instrument for Interplanetary Ranging, Time Transfer, and Wideband Communications <sup>†</sup>

The ILRS: approaching 20 years and planning for the future

NASA’s satellite laser ranging systems for the twenty-first century

 

Babar Ashfaq | Manufacturing | Best Researcher Award

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Dr. Babar Ashfaq | Manufacturing | Best Researcher Award 

Research Assistant, GiKI, Pakistan

Babar Ashfaq is a passionate researcher and educator specializing in Additive Manufacturing, Computational Mechanics, and Design Optimization. Currently pursuing a PhD in Mechanical Engineering at the Ghulam Ishaq Khan Institute, he has a strong foundation in high-velocity impact on composites from his MS at the International Islamic University. Babar is dedicated to advancing engineering through innovative research and teaching.

Publication Profile

Google scholar

Education

Babar holds a PhD in Mechanical Engineering from the Ghulam Ishaq Khan Institute of Engineering Sciences & Technology, where he has maintained a CGPA of 3.50. He also completed his MS and BS in Mechanical Engineering at the International Islamic University, with CGPAs of 3.80 and 3.52, respectively. His educational background equips him with a solid understanding of mechanical principles and advanced manufacturing techniques. 📚🎓

Experience

As a Graduate Research Assistant at the Ghulam Ishaq Khan Institute, Babar assists faculty with academic and administrative duties and teaches various courses, including Stress Analysis and Additive Manufacturing. He has also served as a Lab Engineer at the University of Lahore and a Visiting Lecturer at the International Islamic University, enriching his teaching and engineering experience. 🛠️👨‍🏫

Research Focus

Babar’s research focuses on Additive Manufacturing and Computational Mechanics, particularly in the development of innovative auxetic structures and the mechanical characterization of 3D printed materials. His work aims to enhance structural performance through geometric optimization and advanced material modeling techniques. 🔬💡

Awards and Honours

Babar has been actively involved in organizing conferences and workshops, including the 2nd International Conference on Modern Technologies in Mechanical & Material Engineering (MTME 2024) and various symposiums on materials technology. His contributions have been recognized through his participation as a speaker and moderator at prestigious events. 🏆🎤

Publication Top Notes

Babar Ashfaq has authored several noteworthy publications, including:

A novel design of mono and bi-cells based hybrid auxetic structures and assessment of their compressive properties. Journal of Materials Research and Technology, 2024. Link

Mechanical Characterization of Innovative 3D-printed Auxetic (NPR) Structures: Role of Considering Anisotropy on Accuracy of Numerical Modelling. Journal of Materials Research and Technology, 2024. Link

Geometric optimization of additively manufactured hybrid auxetic structures for enhanced compression performance via Taguchi approach. Additive Manufacturing, 2024. (Submitted)

Enhancing Structural Design: Anisotropic Material Modeling for Additively Manufactured Auxetic Structures. Scientific Reports, 2024. (Submitted)

Impact Resistance of GLARE Composites in Aerospace: A Finite Element Analysis of Bird Strike Scenarios. Journal of Advanced Mechanical Design Systems and Manufacturing, 2024. (Submitted)

Juventino López-Barroso | Engineering | Best Researcher Award

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Dr. Juventino López-Barroso | Engineering | Best Researcher Award

Academic, TECNM ITQ, Mexico

🎓 PhD Juventino López Barroso is a distinguished professor at the Tecnológico Nacional de México (TECNM) in Querétaro. With a strong foundation in engineering and applied sciences, he is renowned for his research in advanced manufacturing processes, mechanical design, and material science. Dr. López Barroso’s innovative contributions to engineering, particularly in sustainability and polymeric materials, have positioned him as a key figure in both academic and industrial collaborations. He continues to inspire future engineers through his mentorship and research leadership. 🌟

Publication Profile

Google Scholar

Education

🎓 Dr. López Barroso holds a PhD in Materials Sciences with a specialization in polymers from the Technological Institute of Ciudad Madero. He also earned a Master’s in Regional and Technological Development with a focus on biochemistry from the Technological Institute of Oaxaca, where he also completed his Bachelor’s in Mechanical Engineering. His postdoctoral research at TECNM Querétaro focused on polymeric composites and additive manufacturing for the aeronautical industry. 🚀

Experience

🏫 Dr. López Barroso has been a professor at TECNM Querétaro since 2019, where he teaches various subjects, including Mechanical Failure Analysis, CAD CAE CAM, and Non-Metallic Materials Engineering. His prior teaching roles include positions at the University of the Valley of Mexico and the Mexican Red Cross. His extensive academic and professional experience also includes work on major mechanical systems and polymeric material processing. 🛠️

Research Focus

🔬 Dr. López Barroso’s research revolves around the synthesis and enhancement of polymeric materials, nanocomposites, and advanced manufacturing techniques, with a particular interest in sustainability. His work on thermoplastic and thermosetting polymers, additive manufacturing, and nanometric reinforcements for the aeronautical industry has contributed significantly to material science and engineering. 🌍

Awards and Honors

🏆 Dr. López Barroso is an SNI I Researcher, recognized by the National System of Researchers (CONACyT). He is also an active member of the CONACYT thematic network of Composite Materials, reflecting his leadership in materials science research. His achievements in the field have earned him recognition within both academic and industrial communities. 🏅

Publication Top Notes

📚 Dr. López Barroso has authored several influential publications, including his work on the functionalization of graphene-based materials with natural polymers and the fracture resistance of epoxy resins reinforced with carbon nanostructures. His research on polypropylene’s mechanical properties and green composites for 3D printing has been published in leading journals such as Polymers and the Journal of Applied Polymer Science. His contributions to additive manufacturing and polymer composites continue to shape the future of engineering materials. 🌱

Graphene-based materials functionalization with natural polymeric biomolecules (2016), published in a book on graphene research, cited by 25 articles

Multidimensional nanocomposites of epoxy reinforced with 1D and 2D carbon nanostructures for improved fracture resistance (2018), published in Polymers, cited by 45 articles

Influence of graphene-based compounds on the mechanical toughness and thermal stability of polypropylene (2020), published in Journal of Applied Polymer Science, cited by 32 articles

Additive manufacturing of green composites: Poly(lactic acid) reinforced with keratin materials obtained from Angora rabbit hair (2021), published in Journal of Applied Polymer Science, cited by 20 articles

Additive Manufacturing for Complex Geometries in Polymer Composites (2023), a book chapter