Raffaele Iervolino | Engineering | Best Researcher Award

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Prof. Raffaele Iervolino | Engineering | Best Researcher Award

Prof. Raffaele Iervolino, University of Naples Federico II, Italy

Prof. Raffaele Iervolino is an esteemed Associate Professor of Automatic Control at the University of Naples Federico II, specializing in control systems analysis and design. Born in 1971 in Milan, Italy, he earned his M.S. in Aerospace Engineering in 1996 and a PhD in Computer and Automation Engineering in 2002. Raffaele has collaborated on numerous national and European research projects and has authored over 60 publications. His research interests include stability analysis of piecewise linear systems, reinforcement learning, and resource allocation problems. He is a Senior Member of the IEEE Control System Society. 📚✈️🔧

 

Publication profile

Google Scholar

Educational Background

Prof. Raffaele Iervolino holds a Research Doctorate degree from the University of Naples Federico II, obtained in March 2002. His academic journey began with a Research Doctorate in Computer and Automatic Engineering at the same university, specializing in Control and Systems Engineering from 1998 to 2001. He earned his Professional Engineer certificate in November 1996, further demonstrating his expertise. Prof. Iervolino completed his Laurea degree in Aerospace Engineering, graduating summa cum laude in June 1996 from the University of Naples Federico II, showcasing his exceptional academic achievements and commitment to engineering excellence. ✈️

 

Employment 🏫

Prof. Raffaele Iervolino currently serves as an Associate Professor of Automatic Control at the Faculty of Engineering, University of Naples Federico II, since 2024. Previously, he held the position of Assistant Professor of Automatic Control at the same university from 2003 to 2024. Beyond academia, he is a scientific consultant specializing in control system analysis and design for several organizations, including the academic spin-off Megaride (2018-present) and the electronics company Megaris (2015-present). He has also contributed to the CREATE Consortium (2002-present) and was a consultant for the FIAT Research Center from 1999 to 2004. 🔧

 

Teaching Activity 📚

Prof. Raffaele Iervolino has made significant contributions to education through various academic courses. Since 2019, he has taught the Control Lab for the M.S. in Robotics and Automation Engineering at the University of Naples. Additionally, he has been instructing Systems Theory for the B.S. in Electronic Engineering at the Italian Air Force Academy since 2017. From 2011 to 2013, he taught Automation Technologies in the B.S. Computer Science Engineering program at the University of Naples. He also offered the course Fundamentals of Dynamic Systems for Biomedical Engineering from 2003 to 2022. In June 2018, he conducted a seminar on “A Consensus Policy and Piecewise Quadratic Stability for Heterogeneous Opinion Dynamics” at the University of Groningen, Netherlands. 🎓

 

Research Contributions

He has authored over 60 publications, including journal papers, conference papers, and book chapters. His work covers crucial areas such as stability analysis of piecewise linear systems, opinion dynamics, and reinforcement learning, contributing to advancements in automatic control and engineering.

Publication Top Notes

  • Lyapunov stability for piecewise affine systems via cone-copositivity 📄 – Citations: 53, Year: 2017
  • Reinforcement learning in spacecraft control applications: Advances, prospects, and challenges 🚀 – Citations: 47, Year: 2022
  • Primary frequency response improvement in interconnected power systems using electric vehicle virtual power plants ⚡ – Citations: 40, Year: 2020
  • Category II pilot in-the-loop oscillations analysis from robust stability methods ✈️ – Citations: 39, Year: 2001
  • Cone-copositive piecewise quadratic Lyapunov functions for conewise linear systems 🔍 – Citations: 37, Year: 2015
  • Approximate dynamic programming for stochastic resource allocation problems 📊 – Citations: 36, Year: 2020
  • Analysis of pilot-in-the-loop oscillations due to position and rate saturations ⚙️ – Citations: 34, Year: 2000
  • Practical consensus in bounded confidence opinion dynamics 🤝 – Citations: 27, Year: 2021
  • mu synthesis for a small commercial aircraft: Design and simulator validation ✈️ – Citations: 27, Year: 2004
  • A wearable device for sport performance analysis and monitoring 🏋️ – Citations: 26, Year: 2017


Conclusion

Prof. Raffaele Iervolino’s impressive educational credentials, extensive research contributions, active participation in significant projects, and commitment to teaching make him an outstanding candidate for the Best Researcher Award. His work not only advances knowledge in automatic control but also has practical implications across various industries.

 

Zhipeng Zhao | Engineering | Best Researcher Award

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Assist Prof Dr. Zhipeng Zhao | Engineering | Best Researcher Award

Assistant Professor, Tongji University, China

Dr. Zhipeng Zhao, currently an Assistant Professor at Tongji University, showcases an impressive academic and research profile, making him a strong candidate for the Research for Best Researcher Award. With a Ph.D. in Civil Engineering and a GPA of 90.30, he has garnered several accolades, including recognition among the World’s Top 2% Scientists in 2024. His research interests focus on artificial intelligence in structural health monitoring and innovative anti-seismic systems, contributing significantly to advancements in civil engineering. He has published numerous peer-reviewed articles, demonstrating a commitment to advancing knowledge in his field. His collaborative work has resulted in impactful research, earning him prestigious fellowships and awards, such as the JSPS Foreign Research Fellow and Shanghai Leading Talents recognition. Dr. Zhao’s combination of research excellence, innovation, and leadership positions him as an exemplary figure in civil engineering, underscoring his suitability for this prestigious award.

Profile:

Education

Dr. Zhipeng Zhao earned his Ph.D. in Civil Engineering from Tongji University, Shanghai, China, in 2021, where he achieved an impressive GPA of 90.30/100. His academic journey began at the same institution, where he completed his Bachelor’s degree in Civil Engineering in 2017, graduating with a remarkable GPA of 93.00/100. During his doctoral studies, Dr. Zhao focused on advanced topics in structural health monitoring and vibration control, demonstrating a commitment to enhancing the resilience of civil engineering structures. His educational background has provided him with a solid foundation in both theoretical and practical aspects of civil engineering, equipping him with the skills necessary to tackle complex engineering challenges. Dr. Zhao’s strong academic performance and rigorous training reflect his dedication to excellence in the field, positioning him as a valuable contributor to research and innovation in civil engineering.

 

Research Skills

Dr. Zhipeng Zhao possesses exceptional research skills that significantly contribute to the advancement of civil engineering, particularly in artificial intelligence-based structural health monitoring and vibration control. His ability to develop innovative anti-seismic structural systems is demonstrated through numerous peer-reviewed publications, reflecting a strong command of both theoretical and practical applications. Dr. Zhao excels in employing cutting-edge methodologies for ground motion simulation, allowing for accurate predictions and enhanced structural safety. His collaborative work as a corresponding author on various high-impact journals showcases his capacity to lead multidisciplinary teams and drive impactful research initiatives. Additionally, his recognition as one of the world’s top 2% scientists and several prestigious awards underscore his commitment to excellence in research. Overall, Dr. Zhao’s research skills are characterized by a blend of creativity, technical proficiency, and a keen understanding of contemporary challenges in civil engineering, making him a leading candidate for the Research for Best Researcher Award.

 

Professional Experiences

Dr. Zhipeng Zhao, currently an Assistant Professor at Tongji University, has cultivated a distinguished career in civil engineering, particularly in structural health monitoring and vibration control. He has served as a JSPS Foreign Research Fellow at Tohoku University, Japan, where he engaged in advanced research from 2022 to 2023. Prior to this, he completed a postdoctoral fellowship at the Hong Kong Polytechnic University and City University of Hong Kong. Dr. Zhao’s academic journey began with a Bachelor’s and a Ph.D. in Civil Engineering from Tongji University, where he excelled in his studies. His remarkable contributions to the field are underscored by multiple honors, including recognition as one of the world’s top 2% scientists in 2024 and the prestigious Shanghai Leading Talents (Overseas) Young Talents award in 2022. With an extensive publication record, Dr. Zhao is a leader in innovative anti-seismic structural systems.

Award And Recognition

Dr. Zhipeng Zhao, an Assistant Professor at Tongji University, has garnered significant accolades for his groundbreaking research in civil engineering, particularly in artificial intelligence-based structural health monitoring and seismic resilience. Recognized among the world’s top 2% of scientists in 2024, he has received prestigious awards, including the Shanghai Leading Talents (Overseas) Young Talents in 2022 and the Tongji University’s top ten scientific achievements with transformative potential in 2023. His work has been frequently cited, earning him the Most Cited Articles recognition in Engineering Structures from 2018 to 2021. Notably, Dr. Zhao was honored with first and second prizes for outstanding papers at the National Structural Engineering Academic Conference in 2018 and 2023, respectively, further solidifying his reputation as a leading researcher in his field. His exceptional contributions demonstrate a commitment to advancing civil engineering and improving infrastructure resilience against natural disasters.

Conclusion

In summary, Dr. Zhipeng Zhao exemplifies excellence in civil engineering, particularly in the fields of artificial intelligence-based structural health monitoring and seismic control systems. His impressive academic background, highlighted by a Ph.D. from Tongji University, is complemented by numerous accolades, including recognition as one of the world’s top 2% scientists in 2024. Dr. Zhao’s innovative contributions, reflected in over 40 peer-reviewed publications, demonstrate his commitment to advancing structural resilience against seismic activities. His research not only addresses critical challenges in civil engineering but also significantly impacts the safety and sustainability of urban infrastructure. As an Assistant Professor at Tongji University and a recipient of multiple prestigious awards, Dr. Zhao’s ongoing research initiatives position him as a leader in the field. His dedication to enhancing structural engineering practices makes him a worthy candidate for the Research for Best Researcher Award.

Publication Top Notes

  • Seismic response mitigation of a wind turbine tower using a tuned parallel inerter mass system
    R. Zhang, Z. Zhao, K. Dai
    Engineering Structures, 180, 29-39, 221 citations, 2019
  • Damping enhancement principle of inerter system
    R. Zhang, Z. Zhao, C. Pan, K. Ikago, S. Xue
    Structural Control and Health Monitoring, 27(5), e2523, 147 citations, 2020
  • Seismic response mitigation of structures with a friction pendulum inerter system
    Z. Zhao, R. Zhang, Y. Jiang, C. Pan
    Engineering Structures, 193, 110-120, 125 citations, 2019
  • A tuned liquid inerter system for vibration control
    Z. Zhao, R. Zhang, Y. Jiang, C. Pan
    International Journal of Mechanical Sciences, 164, 105171, 108 citations, 2019
  • Optimal design based on analytical solution for storage tank with inerter isolation system
    Y. Jiang, Z. Zhao, R. Zhang, D. De Domenico, C. Pan
    Soil Dynamics and Earthquake Engineering, 129, 105924, 91 citations, 2020
  • Optimal design of an inerter isolation system considering the soil condition
    Z. Zhao, Q. Chen, R. Zhang, C. Pan, Y. Jiang
    Engineering Structures, 196, 109324, 76 citations, 2019
  • Energy dissipation mechanism of inerter systems
    Z. Zhao, Q. Chen, R. Zhang, C. Pan, Y. Jiang
    International Journal of Mechanical Sciences, 105845, 74 citations, 2020
  • Influence of mechanical layout of inerter systems on seismic mitigation of storage tanks
    R. Zhang, Z. Zhao, C. Pan
    Soil Dynamics and Earthquake Engineering, 114, 639-649, 70 citations, 2018
  • Impact of soil–structure interaction on structures with inerter system
    Q. Chen, Z. Zhao, R. Zhang, C. Pan
    Journal of Sound and Vibration, 433, 1-15, 65 citations, 2018
  • A particle inerter system for structural seismic response mitigation
    Z. Zhao, R. Zhang, Z. Lu
    Journal of the Franklin Institute, Engineering and Applied Mathematics, 356, 54 citations, 2019
  • Comfort based floor design employing tuned inerter mass system
    Q. Chen, Z. Zhao, Y. Xia, C. Pan, H. Luo, R. Zhang
    Journal of Sound and Vibration, 458, 143-157, 47 citations, 2019
  • Displacement mitigation–oriented design and mechanism for inerter-based isolation system
    Z. Zhao, R. Zhang, N.E. Wierschem, Y. Jiang, C. Pan
    Journal of Vibration and Control, 27(17-18), 1991-2003, 46 citations, 2021
  • Seismic performance upgrading of containment structures using a negative-stiffness amplification system
    Z. Zhao, Y. Wang, X. Hu, D. Weng
    Engineering Structures, 262, 114394, 42 citations, 2022
  • A negative stiffness inerter system (NSIS) for earthquake protection purposes
    Z. Zhao, Q. Chen, R. Zhang, Y. Jiang, C. Pan
    Smart Structures and Systems, 26(4), 481-493, 33 citations, 2020
  • Enhanced energy dissipation benefit of negative stiffness amplifying dampers
    Z. Zhao, Q. Chen, X. Hu, R. Zhang
    International Journal of Mechanical Sciences, 240, 107934, 32 citations, 2023
  • Input energy reduction principle of structures with generic tuned mass damper inerter
    Z. Zhao, R. Zhang, C. Pan, Q. Chen, Y. Jiang
    Structural Control and Health Monitoring, 28(1), e2644, 31 citations, 2021
  • Interaction of two adjacent structures coupled by inerter-based system considering soil conditions
    Z. Zhao, Q. Chen, R. Zhang, Y. Jiang, Y. Xia
    Journal of Earthquake Engineering, 26(6), 2867-2887, 28 citations, 2022
  • Seismic demand and capacity models, and fragility estimates for underground structures considering spatially varying soil properties
    Z. He, H. Xu, P. Gardoni, Y. Zhou, Y. Wang, Z. Zhao
    Tunnelling and Underground Space Technology, 119, 104231, 27 citations, 2022
  • Analytical optimization of the tuned viscous mass damper under impulsive excitations
    Z. Zhao, X. Hu, R. Zhang, Q. Chen
    International Journal of Mechanical Sciences, 228, 107472, 25 citations, 2022
  • Friction pendulum-strengthened tuned liquid damper (FPTLD) for earthquake resilience of isolated structures
    Z. Zhao, X. Hu, Q. Chen, Y. Wang, N. Hong, R. Zhang
    International Journal of Mechanical Sciences, 244, 108084, citations not specified.

Sawsan Dagher | Engineering | Best Researcher Award

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Sawsan Dagher | Engineering | Best Researcher Award

Assist Prof Dr Sawsan Dagher, Abu Dhabi Polytechnic, United Arab Emirates

Assist. Prof. Dr. Sawsan Dagher appears to be a strong candidate for the “Best Researcher Award” based on the following factors:

Publication profile

google scholar

Research Experience

Conducted extensive research during her postdoctoral fellowship and as a researcher at UAE University, particularly in materials science and nanotechnology. Expertise in designing and fabricating microfluidic systems, solar cells, and photocatalysts, demonstrating innovation in renewable energy and environmental applications.

Education

Ph.D. in Materials Science & Engineering from UAEU, with a strong academic record and impactful thesis on quantum dot solar cells.

Research Output

She has numerous publications in high-impact journals. Notable works include studies on the synthesis of nanoparticles and photocatalytic removal of pollutants, as well as developing magnetic separation devices for biomedical applications. Her publications have been well-cited, reflecting the relevance and influence of her research within the scientific community.

Awards and Recognition

Dr. Dagher has been recognized with several prestigious awards, such as the Outstanding Research Award from IEEE in 2020 and Best Paper Awards at multiple international conferences, which underscore her research excellence and contributions to her field.

Contribution to Education and Professional Development

In addition to her research, Dr. Dagher has demonstrated a commitment to student development through her teaching and mentoring roles at Abu Dhabi Polytechnic. Her involvement in curriculum development and on-job training coordination showcases her leadership in shaping the next generation of engineers and researchers.

Professional Employment

Assistant Professor at Abu Dhabi Polytechnic since 2018, focusing on electromechanical engineering, teaching, mentoring, and program development. Previously served as On-Job Training Coordinator, fostering student internships and industry partnerships.

Conclusion

Dr. Dagher’s blend of teaching, research, and professional development activities, along with her recognition in the academic community, positions her as a strong candidate for the Best Researcher Award. Her ongoing contributions to innovative engineering solutions and her commitment to student development further underscore her suitability for this honor.

Publication top notes

Synthesis and optical properties of colloidal CuO nanoparticles

Microfluidics Based Magnetophoresis: A Review

Novel method for synthesis of Fe3O4@ TiO2 core/shell nanoparticles

Photocatalytic removal of methylene blue using titania-and silica-coated magnetic nanoparticles

Photo-thermal characteristics of water-based Fe3O4@ SiO2 nanofluid for solar-thermal applications

Microdevice for continuous flow magnetic separation for bioengineering applications

Bilirubin detoxification using different phytomaterials: characterization and in vitro studies

PbS/CdS heterojunction quantum dot solar cells

Influence of Reactant Concentration on Optical Properties of ZnO Nanoparticles

Microfluidic multi-target sorting by magnetic repulsion

Bowing character in wurtzite ZnO-based ternary alloys

Harish Selvam | Engineering | Best Researcher Award

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Dr. Harish Selvam | Engineering | Best Researcher Award

Post-doctoral researcher, Institute of Hydraulic Engineering and Water Resources Management, RWTH Aachen University, Germany

Harish Selvam is a Scientific Staff member at the Institute of Hydraulic Engineering and Water Resources Management (IWW) at RWTH Aachen University, Germany. With over 8 years of expertise in Hydraulics and Coastal Engineering, Harish’s research focuses on physical and numerical modeling, particularly in violent tsunami-structure interactions. His dual MS and PhD in Ocean Engineering were awarded with distinction from RWTH Aachen University and Indian Institute of Technology Madras. 🌊🏛️

Publication Profile

Strengths for the Award:

  1. Academic Excellence: Harish Selvam’s educational background is impressive, with a dual degree (MS & PhD) in Ocean Engineering from RWTH Aachen University and IIT Madras, completed with distinction. His B.E. in Civil Engineering also showcases strong academic performance.
  2. Research Contributions: His PhD thesis on violent tsunami-structure interaction is a significant contribution to the field of Hydraulics and Coastal Engineering. He has published numerous papers in high-impact journals such as Coastal Engineering, Water, Applied Ocean Research, and Ocean Engineering, indicating a strong research output.
  3. Awards and Recognitions: Harish has received prestigious awards, including the Prof. Vallam Sundar best PhD thesis in Ocean Engineering from IIT Madras and the ISH best PhD thesis award in Hydraulics, water resources, and coastal engineering.
  4. Professional Experience: With eight years of experience in Hydraulics and Coastal Engineering, Harish has held significant positions, including Junior Research Group Coastal Engineering Leader and Scientific Staff at RWTH Aachen University. His involvement in major projects and contributions to CFD software development demonstrate his applied research skills.
  5. Technical Skills: Proficiency in programming languages (MATLAB, C++, FORTRAN) and technical software (AutoCAD, Stadd Pro, FreeCAD, OpenFOAM, DualSPHysics, Ansys) highlights his capability in numerical and physical modeling.
  6. Supervision and Mentorship: Harish has supervised multiple Master’s and Bachelor’s theses, indicating his leadership and mentorship abilities. His guidance on projects related to tsunami-like wave impacts and hydraulic engineering showcases his expertise in guiding young researchers.
  7. International Exposure: Harish’s involvement in international projects and conferences, along with scholarships from DAAD and UGC, underscores his global perspective and collaboration.

Areas for Improvement:

  1. Language Proficiency: While Harish has basic proficiency in German (A2.1 level), improving his language skills could enhance his integration and communication within the international research community in Germany and beyond.
  2. Expanded Research Impact: While his research is strong, broadening the impact through more interdisciplinary collaborations and applications beyond tsunami-structure interaction could enhance his profile further.
  3. Industry Collaboration: Increasing collaborations with industry partners could translate his research findings into practical solutions and innovations, thereby enhancing the societal impact of his work.

Conclusion:

Harish Selvam is a highly suitable candidate for the Best Researcher Award. His robust academic background, significant research contributions, professional experience, and technical skills make him a standout researcher in the field of Hydraulics and Coastal Engineering. While there are areas for improvement, such as language proficiency and expanding the impact of his research, his overall profile is highly commendable and deserving of recognition.

 

Education

Harish completed his dual degree MS & PhD in Ocean Engineering from RWTH Aachen University and Indian Institute of Technology Madras in July 2023, graduating with a summa cum laude distinction and a 9.74 CGPA. He holds a B.E. in Civil Engineering from Rajalakshmi Engineering College, Chennai, with an 8.74 CGPA. He also achieved top grades in his Higher Secondary and Matriculation courses. 🎓📚

Experience

Currently, Harish serves as a Junior Research Group Coastal Engineering Leader at IWW, RWTH Aachen University. His previous roles include Scientific Staff at IWW since October 2021 and Project Associate at IIT Madras. He has worked extensively with OpenFOAM and other CFD software, and has been involved in notable projects like the “Impact of waterborne debris on near shore structures” and “Flood-induced building damages after 2021 German floods.” 🏗️🌍

Research Focus

Harish’s research primarily investigates tsunami-like flow interactions with coastal structures. His PhD thesis delves into tsunami-induced forces on shorefront structures, leveraging both physical experiments and numerical simulations to enhance understanding and design improvements in coastal engineering. His current work includes numerical simulations of tsunami impacts and flow interactions with various structural models. 🌪️🔬

Awards

Prof. Vallam Sundar Best PhD Thesis Award (2023), Indian Society of Hydraulics (ISH) Best PhD Thesis Award (2023), GATE Qualification (2016), University Rank Holder in B.E. among colleges affiliated with Anna University, Chennai. 🏆🎖️

Publications

  1. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2021). Tsunami-like flow induced force on the structure: Prediction formulae for the horizontal force in quasi-steady flow phase. Coastal Engineering, 168, 103938.
  2. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2022). Tsunami-like flow induced forces on the structure: Dependence of the hydrodynamic force coefficients on Froude number and flow channel width. Coastal Engineering, 172, 104078.
  3. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2022). Tsunami-like Flow-Induced Forces on the Landward Structure behind a Vertical Seawall with and without Recurve Using OpenFOAM. Water, 14(13), 1986.
  4. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2022). Flow-structure interference effects with the surrounding structure in the choked quasi-steady condition of tsunami: Comparison with traditional obstruction approach. Applied Ocean Research, 126, 103255.
  5. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2024). Tsunami-like flow induced forces on the building with openings and orientation in the quasi-steady flow phase. Ocean Engineering, 301, 117337.