Libero Nigro | Software Engineering | Excellence in Research

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Prof. Dr. Libero Nigro | Software Engineering | Excellence in Research

Professor, University of Calabria, Italy

Libero Nigro is a distinguished Full Professor of Computer Engineering at the University of Calabria (UNICAL), Italy. With a career spanning over four decades, he has contributed significantly to education, research, and software engineering. He has held various academic positions since 1979, starting as an Assistant Professor and advancing to Full Professor in 2000. Known for his expertise in object-oriented programming, concurrent programming, and simulation, he has played a key role in shaping Computer Engineering education at UNICAL. Over his career, he has supervised several PhD students and participated in multiple national research projects. His expertise extends to numerous journal and conference reviews, and he is an editorial board member for prominent journals like Simulation Modelling Practice and Theory and World Journal of Modelling and Simulation. His research focuses on distributed systems, real-time systems, agent-based modeling, and cyber-physical systems.

Profile

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Strengths for the Award

  1. Extensive Academic Experience:
    • Libero Nigro has held significant academic positions from Assistant Professor to Full Professor at the University of Calabria (UNICAL), contributing immensely to education in computer engineering, including courses in object-oriented programming, concurrent programming, and real-time systems. His role in teaching and shaping curricula at UNICAL spans more than four decades, showing strong educational leadership.
  2. Research Leadership:
    • He has led numerous national research projects (such as MURST60%, MURST40%, and CNR projects) and has collaborated on international projects, demonstrating his capacity for both leadership and collaboration in research.
    • He is the scientific responsible for the Software Engineering Laboratory at UNICAL/DIMES, further illustrating his organizational and technical skills in research.
  3. Scientific Contributions:
    • Nigro has co-authored several impactful publications, including journal articles and book chapters, focused on cutting-edge topics like distributed simulation, clustering algorithms, mutual exclusion algorithms, agent-based systems, and smart grids. His work has contributed to significant advancements in these fields.
    • He has also mentored multiple PhD students, some of whom have gone on to make substantial contributions in related areas.
  4. Recognition and Peer Influence:
    • Libero Nigro’s recognition as one of the best reviewers for the journal Software and System Modelling (SoSyMo) in 2020 highlights his standing in the research community. His active participation in editorial boards and international conferences further strengthens his credibility.
    • His regular role in peer reviewing for several top-tier journals and conferences underscores his expert knowledge and respected opinion in the field.
  5. Innovation and Impact:
    • His research in formal verification, distributed simulation, and the modeling of real-time and cyber-physical systems is not only innovative but also highly relevant to modern computing challenges. His publications are regularly cited, indicating significant impact within his field.
  6. Comprehensive and Diverse Expertise:
    • Nigro has a well-rounded skill set, ranging from algorithm design and systems programming to software engineering and computational modeling. His expertise spans both theoretical foundations and practical applications, providing a holistic approach to research challenges.

Areas for Improvement

  1. Broader International Collaboration:
    • While Nigro has been involved in national projects and collaborations, there could be further opportunities to expand his international research network, especially with institutions outside Europe, which would enhance his global impact.
  2. Public Outreach and Dissemination:
    • Although his work has made substantial contributions to academic and research communities, there could be more engagement in public outreach or dissemination efforts aimed at a wider audience, including industry stakeholders or policy-makers, especially for real-world applications such as smart grids and energy systems.
  3. Diversity in Research Topics:
    • While his research areas are highly specialized and impactful, branching into interdisciplinary research that combines computer engineering with areas like artificial intelligence, robotics, or environmental sustainability might open up new avenues for research and innovation.

Education

Libero Nigro earned a degree in Electrical Engineering, summa cum laude, from the University of Calabria (UNICAL) in 1978. His academic journey laid a strong foundation in Software Engineering, Computer Programming, and Simulation. His studies and professional training focused on the design, analysis, and implementation of distributed systems and real-time systems. With a strong passion for advancing knowledge in the field of Computer Engineering, he has remained actively involved in both teaching and research throughout his career. His expertise includes systems programming, concurrent programming, discrete-event simulation, real-time systems, and multi-agent systems. Over the years, he has not only contributed to the development of his discipline but also shaped future generations of engineers and researchers. His professional achievements also include the co-authorship of textbooks aimed at introducing key concepts of programming and concurrent systems. He is currently still engaged in teaching, including a course on Object-Oriented Programming.

Experience

Libero Nigro has extensive experience in academia, spanning over 40 years in the field of Computer Engineering. From 1979 to 1985, he worked as an Assistant Professor in the Electrical Department at UNICAL, where he focused on courses related to computer science and programming. He then served as an Associate Professor at UNICAL’s DEIS Department from 1986 to 1999, before becoming a Full Professor in the DIMES Department from 2000 until 2023. Throughout his career, he has taught various foundational and advanced courses in Computer Science, covering topics such as Object-Oriented Programming, Real-Time Systems, Multi-Agent Systems, and Simulation. He has been responsible for managing several key research projects funded by national institutions and contributed to academic advancements in his field. He also served as the scientific head of the Software Engineering Laboratory at UNICAL. Currently, he teaches Object-Oriented Programming as a contract professor at DIMES.

Research Focus 

Libero Nigro’s research interests lie in the specification, analysis, design, and implementation of concurrent and time-dependent distributed systems. His work has focused on real-time systems, distributed simulation, and agent-based modeling of complex systems. He explores the formal modeling and exhaustive verification of such systems, often using Petri nets and model-checking techniques. A major area of his research is in the design and verification of mutual exclusion algorithms and system behaviors in concurrent systems. Nigro also investigates applications in smart grids, power management, and the modeling of cyber-physical systems. His research has practical implications in areas like energy management, the Internet of Things (IoT), and distributed simulation environments. Additionally, he has worked on clustering algorithms, particularly evolutionary techniques for improving the performance of K-means clustering. His multidisciplinary research aims to push the boundaries of distributed and real-time systems, creating robust, scalable, and efficient solutions for complex technological challenges.

Publication Top Notes

  1. Clustering Performance of an Evolutionary K-Means Algorithm 📚👨‍💻
    Authors: Libero Nigro, Franco Cicirelli, Francesco Pupo
  2. A K-Means Variation Based on Careful Seeding and Constrained Silhouette Coefficients 📖💻
    Authors: Libero Nigro, Franco Cicirelli, Francesco Pupo
  3. Verifying Mutual Exclusion Algorithms with Non-Atomic Registers 🧑‍💻📊
    Authors: Libero Nigro
  4. Formal Modeling and Verification of Lycklama and Hadzilacos’s Mutual Exclusion Algorithm 📘🔍
    Authors: Libero Nigro
  5. Correctness Verification of Mutual Exclusion Algorithms by Model Checking ✅🔐
    Authors: Libero Nigro, Franco Cicirelli
  6. Modeling and Analysis of Dekker-Based Mutual Exclusion Algorithms 🔬🔄
    Authors: Libero Nigro, Franco Cicirelli, Francesco Pupo
  7. Formal Modeling and Verification of Embedded Real-Time Systems: An Approach and Practical Tool Based on Constraint Time Petri Nets 🕰️📐
    Authors: Libero Nigro, Franco Cicirelli
  8. Fast and Accurate K-means Clustering Based on Density Peaks ⚡📊
    Authors: Libero Nigro, Franco Cicirelli
  9. Improving K-means by an Agglomerative Method and Density Peaks 🧠📈
    Authors: Libero Nigro, Franco Cicirelli
  10. Improving Clustering Accuracy of K-Means and Random Swap by an Evolutionary Technique Based on Careful Seeding 🧑‍💻🔍
    Authors: Libero Nigro, Franco Cicirelli

Conclusion

Libero Nigro is highly deserving of the Research Excellence Award. His career reflects outstanding achievements in research, education, and academic leadership. His significant contributions to fields like real-time systems, distributed simulation, and system modeling, paired with his leadership in numerous research projects and mentoring roles, make him a clear candidate for this award. While there is room for greater international collaboration and outreach, his contributions to the field of computer engineering are profound and far-reaching. In conclusion, Libero Nigro is a role model in academia, with a well-rounded career in research, education, and leadership that is precisely aligned with the values celebrated by the Research Excellence Award.

 

Milkias Berhanu Tuka | Electrical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Milkias Berhanu Tuka | Electrical Engineering | Best Researcher Award

Dr, Addis Ababa Science and Technology University, Ethiopia

Milkias Berhanu Tuka (Ph.D.) is an Associate Professor at Addis Ababa Science and Technology University (AASTU) in Ethiopia. With extensive academic and professional experience, he specializes in Electrical and Computer Engineering. Dr. Tuka holds a Ph.D. in Electrical Engineering, with a focus on renewable energy and power systems. He has served in various leadership roles, including as a Special Assistant to the Vice President for Academic Affairs and Associate Head of the Electrical and Computer Engineering Department. Dr. Tuka is a recognized leader in both academia and industry, collaborating internationally with institutions like Otto-von-Guericke University (Germany). His work emphasizes sustainable energy solutions and electrical engineering innovations. 🌍⚡

Profile

Scopus

Strengths for the Award

  1. Extensive Academic and Research Background: Dr. Milkias Berhanu Tuka demonstrates an impressive academic career with significant contributions in the fields of Electrical Engineering, particularly in power systems, renewable energy, and power electronics. His expertise in renewable energies, electrical machines, power electronics, and drives has led to substantial academic achievements, including publishing numerous papers in Scientific Reports and other reputable journals.
  2. International Collaboration and Recognition: His involvement in international projects and partnerships, such as his research with Otto-von-Guericke University in Germany, highlights his capacity for cross-border collaboration. This is evident from his contributions to research and consultancy in projects like the SASCS for DTH under the Europe-Africa Research and Innovation call on Renewable Energy.
  3. Leadership and Influence in Academia: Dr. Tuka has shown notable leadership within academic institutions. His roles as an Associate Professor, Head of the Electrical and Computer Engineering Department, and his position as the Vice President’s Special Assistant for Academic Affairs at Addis Ababa Science and Technology University (AASTU) showcase his organizational and managerial abilities. These positions highlight his responsibility in steering academic programs, overseeing curriculum developments, and ensuring high standards in teaching and research.
  4. Active Contribution to Research Grants and Projects: He has been actively involved in securing and managing multiple research projects and external grants, such as Solar Power System Design, Wind Energy Forecasting, and Consultancy services for the Ethiopian Water Technology Institute. These projects demonstrate his practical application of research and his capacity to drive forward both theoretical and applied research.
  5. Supervision and Mentorship: Dr. Tuka has contributed to the academic development of numerous students, particularly in the supervision of MSc theses and PhD students, helping them to navigate complex research topics and bringing innovative ideas to the forefront.
  6. Diverse Skills and Certifications: His wide array of skills and certifications, such as the completion of Nanodegree Programs in Data Analysis and Programming Fundamentals, along with his recognition from prestigious institutions (e.g., Mandela Washington Fellowship and Honorary Lifetime Membership to International Davis), shows his commitment to lifelong learning and professional growth.

Areas for Improvement

  1. Broader Publication and Citations Reach: While Dr. Tuka has made significant contributions to journals like Scientific Reports, expanding his impact through more high-visibility, high-impact journals, and achieving higher citation counts could further solidify his position as a global thought leader in his field.
  2. Focus on Multidisciplinary Collaboration: Although his work has had a strong focus on electrical engineering and renewable energy, expanding collaborations across multidisciplinary fields (e.g., integrating AI or machine learning into energy systems) could further diversify his research impact and open up new avenues for groundbreaking studies.
  3. Increased Public Engagement: Engaging in more public-facing activities, such as offering talks at global conferences, media interviews, or even online platforms to discuss renewable energy issues or innovations in power systems, could increase his outreach and influence in shaping global energy policy or practices.
  4. Diversifying Research Funding: While Dr. Tuka has excelled in obtaining research grants, diversifying the sources of funding, particularly from international organizations or the private sector, could support even larger-scale projects and increase the impact of his research.

Education

Dr. Tuka obtained his Ph.D. in Electrical Engineering from Adama Science & Technology University and Otto-von-Guericke University, focusing on power quality in wind energy systems. He holds an MSc in Electrical Engineering with a focus on power systems from Adama Science & Technology University. Additionally, he earned a Bachelor’s degree in Electrical-Electronics Technology. Dr. Tuka’s education combines rigorous theoretical learning with hands-on research, particularly in renewable energy solutions and electrical systems optimization. 🎓🔋

Experience

Dr. Tuka has over 15 years of experience in academia and engineering. He is currently an Associate Professor and Special Assistant at AASTU, where he also serves as the Secretary of the Academic Staff Affairs Committee. Previously, he was an Associate Head of the ECE Department at Adama Science and Technology University (ASTU) and a power expert for the ASTU-Mekele University Joint Venture on the Adama-II Wind Power Project. Dr. Tuka has also held leadership roles in various educational projects and is a consultant for renewable energy and power systems. ⚙️🌞

Awards and Honors

Dr. Tuka has received numerous accolades throughout his career, including an Honorary Lifetime Membership from International Davis, U.S., and recognition for his professional contributions to the Department of Electrical and Computer Engineering at ASTU. He is also an awardee of the Mandela Washington Fellowship and has participated in prestigious training programs like the Enel Foundation’s Micro-grid Academy and Open Africa Power. 🏅🌍

Research Focus

Dr. Tuka’s research centers on renewable energy, power systems, electrical machines, and power electronics. His work focuses on optimizing renewable energy integration into the power grid, improving power quality, and designing sustainable energy solutions. Current projects include wind energy forecasting using deep learning, solar power systems, and smart grid technologies. His research aims to provide innovative solutions for energy challenges in Africa and beyond, contributing to the global energy transition. 🌿🔌

Publication Top Notes

  1. A comparative ensemble approach to bedload prediction using metaheuristic machine learning 🌍📊
  2. Design and performance evaluation of a multi-load and multi-source DC-DC converter for electric vehicle systems ⚡🚗
  3. Cable dimension determination using Finite Element Method for gas insulated cables ⚡🔧
  4. Hybrid modeling approach for precise energy estimation based on temperature variations 🌞📐
  5. Maiden application of optimization for load frequency control in microgrids with renewables ⚡🔋
  6. Design of a universal converter for microgrid applications using dynamic programming 🌍🔄
  7. Lyapunov-based neural network model predictive control for energy systems ⚙️🌐
  8. High-efficiency poly-input boost converter for energy storage and EV applications 🔋🚙
  9. Robust load-frequency control for islanded microgrids using 1PD-PID controllers ⚡🔧
  10. Techno-economic analysis of hybrid renewable energy solutions in Cameroon ⚡🌍

Conclusion

Dr. Milkias Berhanu Tuka is undoubtedly a strong candidate for the Best Researcher Award. His academic credentials, research expertise, and leadership in both academia and various research projects highlight his significant contributions to the field of Electrical Engineering. His publications, international collaborations, and impact on both education and research underscore his excellence. With his dedication to innovation and research excellence, Dr. Tuka’s future contributions will likely continue to have a profound impact on the academic community, particularly in renewable energy and power systems, making him a highly deserving candidate for this award. To further enhance his global influence, focusing on broader publication reach, fostering interdisciplinary research, and engaging more publicly would help him elevate his already impressive career.

 

 

Alia Al-Ghosoun | Engineering and Technology | Best Researcher Award

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Dr Alia Al-Ghosoun | Engineering and Technology | Best Researcher Award

Assistant professor, Philadephia University, Jordan

Dr. Alia Radwan Al-Ghosoun is an Assistant Professor in the Mechatronics Engineering Department at Philadelphia University, Jordan. With a deep passion for advanced engineering research, she holds a DPhil in Engineering from Durham University, UK, where her work focused on shallow water dynamics and adaptive control methods for hydrodynamic systems. Dr. Al-Ghosoun’s research spans fluid mechanics, computational modeling, and the application of artificial intelligence in engineering problems. She has worked as a post-doctoral researcher at Durham University and has held multiple academic positions at the University of Jordan, where she contributed to the development of energy-efficient systems and intelligent control techniques. Dr. Al-Ghosoun’s commitment to advancing knowledge in hydrodynamics and environmental modeling has resulted in impactful publications and contributions to numerical simulation and uncertainty quantification. She is passionate about improving the practical application of engineering solutions for environmental challenges.

Profile

Scopus

Strengths for the Award

  1. Advanced Academic Background:
    • Dr. Al-Ghosoun holds a Doctor of Philosophy in Engineering from Durham University, UK, where her research focused on shallow water flow dynamics and adaptive control techniques to improve the accuracy of these systems. This is a highly specialized field with significant implications in environmental modeling, water systems, and engineering, marking her as an expert in computational engineering and fluid dynamics.
    • Her post-doctoral research at Durham University further solidifies her expertise, particularly in understanding and quantifying uncertainty in numerical modeling of hydrodynamics, which is crucial for predicting real-world environmental phenomena.
  2. Impactful and Diverse Research Contributions:
    • Dr. Al-Ghosoun has published several peer-reviewed papers in high-impact journals such as Environmental Modelling and Software, Communications in Computational Physics, and International Journal of Computational Methods. These works cover areas such as uncertainty quantification, morphodynamics, and numerical simulation of shallow water flows and hydrosediment processes.
    • Her conference papers and book chapters demonstrate a commitment to advancing computational methods in hydrodynamics and environmental modeling, particularly addressing the challenges of bed topography deformation, fluid-structure interactions, and stress analysis in hydro-sediment systems.
  3. Interdisciplinary Research:
    • Dr. Al-Ghosoun’s research stands at the intersection of mechatronics, engineering, and environmental sciences, with a focus on adaptive control techniques and artificial intelligence. This interdisciplinary approach is essential in addressing complex real-world problems related to fluid dynamics and energy systems.
    • The integration of AI techniques (such as genetic algorithms) in energy consumption optimization and shallow water flow models highlights her innovative approach to solving large-scale engineering problems.
  4. Global Collaboration and Recognition:
    • With international experience as a Post-Doctoral Researcher at Durham University and several collaborative research efforts with Jordanian and UK-based academic institutions, Dr. Al-Ghosoun has developed a robust international network. Her involvement in global research platforms, such as ResearchGate, attests to her active engagement in the academic community and dissemination of her work.
  5. Teaching and Mentoring Experience:
    • Dr. Al-Ghosoun has demonstrated a strong commitment to education as an Assistant Professor at Philadelphia University, where she contributes to the development of young engineers in Mechatronics Engineering. Her role as a Teaching Assistant and Research Assistant at various institutions indicates her foundational experience in nurturing future engineers and scientists.
  6. Recognition of Research Excellence:
    • Dr. Al-Ghosoun’s papers, particularly her works on uncertainty quantification and modeling techniques for shallow water systems, have gained traction in the academic community. For instance, her work published in Environmental Modelling and Software (2021) has already accumulated 10 citations, signaling its importance in the field.

Areas for Improvement

  1. Broader Citation Impact:
    • While Dr. Al-Ghosoun’s work is highly specialized and impactful, the citation counts for some of her research papers remain low (e.g., her paper on stress analysis has 0 citations). Increasing visibility in wider journals and collaborating with researchers in complementary fields could enhance the reach and impact of her publications.
  2. Increased Public Engagement:
    • Engaging in public outreach or community-based projects that demonstrate the application of her research (e.g., how adaptive control methods improve water management or energy efficiency in real-world scenarios) could enhance the broader social impact of her work.
  3. Further Collaborative Interdisciplinary Projects:
    • Although her work spans several fields, further involvement in cross-disciplinary projects—especially those integrating sustainable engineering and climate resilience—could increase the relevance of her research to pressing global challenges, like climate change adaptation and sustainable resource management.

Education

Dr. Alia Radwan Al-Ghosoun earned her Doctor of Philosophy (DPhil) in Engineering from Durham University, UK in January 2021. Her doctoral research focused on understanding the effects of bathymetric movement on shallow water flows and their interaction with the seabed, leading to the development of adaptive control methods for improved accuracy in hydrodynamic simulations. Prior to this, she completed a Post-Doctorate at Durham University in 2022, where she explored the application of uncertainty quantification in complex engineering models. Dr. Al-Ghosoun holds a Master’s Degree in Mechanical Engineering from the University of Jordan, where she developed AI-based predictive models for fuel consumption in Jordan and optimized energy efficiency through genetic algorithms. She also earned her Bachelor’s degree in Mechatronics Engineering from the University of Jordan. Dr. Al-Ghosoun’s academic background equips her with interdisciplinary expertise in engineering and environmental science.

Experience

Dr. Alia Radwan Al-Ghosoun is currently an Assistant Professor at Philadelphia University in the Mechatronics Engineering Department since October 2022, where she teaches and conducts research in engineering systems and adaptive control techniques. Prior to this, she was a Post-Doctoral Researcher at Durham University, UK (2021-2022), focusing on uncertainty quantification in shallow water systems. Dr. Al-Ghosoun completed her DPhil at Durham University (2016-2021), where her research involved modeling shallow water flows and the interaction of bed topography. She has also held roles as a Research Assistant at the University of Jordan’s Water, Energy, and Environment Center (2012-2016) and the King Abdullah Design and Development Bureau (KADDB) (2012). Earlier in her career, she worked as a Teaching Assistant in both Mechatronics and Mechanical Engineering departments at the University of Jordan. Dr. Al-Ghosoun’s interdisciplinary experience blends academia with applied engineering solutions.

Awards and Honors

Dr. Alia Radwan Al-Ghosoun has been recognized for her research excellence and commitment to advancing knowledge in hydrodynamics and adaptive control systems. Her academic achievements are highlighted by her work at Durham University, where she earned a prestigious Doctoral Fellowship for her research on shallow water dynamics and bed interaction. She has also received recognition for her post-doctoral research contributions in uncertainty quantification and numerical simulations. Dr. Al-Ghosoun’s work has been presented at major academic conferences, and she has contributed to a variety of high-impact journal publications. In addition to her research accomplishments, she has been awarded teaching grants to support her role as an educator at Philadelphia University, where she mentors the next generation of Mechatronics engineers. Her consistent efforts to bridge the gap between theoretical research and practical engineering applications have earned her widespread recognition within her academic and professional communities.

Research Focus

Dr. Alia Radwan Al-Ghosoun specializes in hydrodynamic modeling, shallow water flows, and the application of adaptive control systems to improve the accuracy of complex environmental simulations. Her research interests focus on uncertainty quantification and the development of computational models for the numerical simulation of fluid dynamics, particularly in the context of stochastic bed topography and morphodynamics. She has worked extensively on shallow water waves, bathymetric effects, and water-bed interaction. One of her core research goals is to enhance the predictive accuracy of models used for environmental management and engineering systems by incorporating artificial intelligence techniques, such as genetic algorithms and surrogate models. Dr. Al-Ghosoun is passionate about integrating AI-based solutions into environmental and energy systems to address challenges like resource optimization, pollution reduction, and sustainable energy. Her work in hydro-sediment-morphodynamics provides valuable insights into climate change adaptation and water resource management.

Publication Top Notes

  1. Uncertainty quantification for stochastic morphodynamics 🌊🧑‍🔬, AIP Conference Proceedings, 2024.
  2. A Novel Computational Approach for Wind-Driven Flows over Deformable Topography 💨🌍, Lecture Notes in Computer Science, 2024.
  3. A Nonintrusive Reduced-Order Model for Uncertainty Quantification in Numerical Solution of One-Dimensional Free-Surface Water Flows Over Stochastic Beds 📊💧, International Journal of Computational Methods, 2022.
  4. Efficient Computational Algorithm for Stress Analysis in Hydro-Sediment-Morphodynamic Models 💻⚙️, Lecture Notes in Computer Science, 2022.
  5. A surrogate model for efficient quantification of uncertainties in multilayer shallow water flows 🌊🔬, Environmental Modelling and Software, 2021.
  6. A computational model for simulation of shallow water waves by elastic deformations in the topography 🌊⚡, Communications in Computational Physics, 2021.
  7. Uncertainty Quantification of Bathymetric Effects in a Two-Layer Shallow Water Model: Case of the Gibraltar Strait 🏝️🌊, Springer Water, 2020.
  8. A hybrid finite volume/finite element method for shallow water waves by static deformation on seabeds 🌊🧮, Engineering Computations, 2020.
  9. A new numerical treatment of moving wet/dry fronts in dam-break flows 💧🚨, Journal of Applied Mathematics and Computing, 2019.

Conclusion

Dr. Alia Radwan Al-Ghosoun is an exceptional candidate for the Best Researcher Award. Her contributions to the fields of hydrodynamics, uncertainty quantification, and adaptive control systems are not only advancing the understanding of complex environmental processes but are also pioneering new computational techniques that can improve the accuracy and efficiency of engineering systems. Her ability to merge artificial intelligence with environmental modeling positions her as a leader in the field. Her ongoing efforts in teaching, mentoring, and global academic collaborations further highlight her potential to shape the future of engineering and environmental sciences. With a few strategic steps to broaden her citation impact and public visibility, Dr. Al-Ghosoun could solidify her place as a thought leader in her field.

Tajbakhsh Navid Chakherlou | Fatigue and fracture | Best Researcher Award

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Prof Dr Tajbakhsh Navid Chakherlou | Fatigue and fracture | Best Researcher Award

professor , The Faculty of Mechanical Engineering, University of Tabriz , Iran

Dr. Tajbakhsh Navid Chakherlou is a renowned professor in the Department of Mechanical Engineering at the University of Tabriz, Iran. Born on September 18, 1968, in Iran, he has over 25 years of academic and research experience in solid mechanics, particularly in the areas of fatigue and fracture mechanics, residual stress analysis, and bolted joint design. Dr. Chakherlou received his Ph.D. from the University of Bath, UK, in 2002, where he focused on improving the fatigue life of aerospace components. With a robust teaching portfolio, he has guided numerous MSc and Ph.D. students. He is widely recognized for his pioneering work in the mechanical engineering field, particularly on cold expansion and interference fitting methods to enhance the durability of fastener holes in critical applications.

Profile

Google Scholar

 

Strengths for the Best Researcher Award

  1. Extensive Expertise and Specialized Knowledge: Dr. Chakherlou’s expertise in mechanical engineering, particularly in the fields of fatigue and fracture mechanics, residual stress analysis, and the design of bolted joints, has been demonstrated through his high-impact research. His Ph.D. dissertation on cold expansion methods for improving the fatigue life of fastener holes in aerospace aluminium alloy 7075-T6 reflects a deep understanding of critical engineering challenges in materials science and solid mechanics.
  2. Prolific Research Contributions: Dr. Chakherlou has authored several highly cited papers that address fundamental issues in the field of mechanical engineering, particularly those involving fatigue life improvement for bolted and fastener joints. His work, such as “The effect of cold expansion on improving the fatigue life of fastener holes,” published in Engineering Failure Analysis, has become foundational in the field, cited 258 times, demonstrating a lasting impact in both academic and industrial applications.
  3. Impact on Engineering Design and Industry Applications: His research on improving fatigue life in aerospace components through methods such as cold expansion, interference fit, and bolt clamping force optimization has direct industrial applications, particularly in aerospace, automotive, and manufacturing sectors. This work is crucial for enhancing the safety and durability of structural components under cyclic loading.
  4. Teaching Excellence and Mentorship: Dr. Chakherlou has been an active educator for over two decades, teaching a wide range of courses in solid mechanics, fatigue and fracture, plasticity theory, and numerical methods at the University of Tabriz. He has also supervised numerous MSc and Ph.D. theses, many of which have contributed significantly to advancing knowledge in the field. His leadership in the academic community, mentoring a generation of students and researchers, is a clear strength in his career.
  5. Collaboration and International Recognition: His collaborative work with institutions and researchers internationally, as well as the high citation count of his publications, indicates his recognition in the global academic community. His contributions to top journals such as Fatigue & Fracture of Engineering Materials & Structures, Engineering Failure Analysis, and Aerospace Science and Technology have helped solidify his standing as a leader in his field.
  6. Administrative and Leadership Roles: Dr. Chakherlou’s experience in administrative roles, including directing workshops and organizing engineering departments, highlights his ability to contribute to the overall development of his institution. His leadership is an essential component of his career, balancing research, teaching, and institutional growth.

Areas for Improvement

  1. Broader Range of Collaborative Projects: While Dr. Chakherlou has made substantial contributions in the area of mechanical engineering, particularly in fatigue and fracture mechanics, future research could benefit from exploring more interdisciplinary collaborations. For example, integrating his work with cutting-edge technologies such as additive manufacturing, smart materials, or computational optimization could open new avenues for improving material performance and sustainability in engineering design.
  2. Engagement with Emerging Research Areas: Given the rapidly evolving landscape of mechanical engineering, including areas like AI-driven design, nanotechnology, and machine learning applications in material science, Dr. Chakherlou could expand his research interests to engage with these emerging fields. Exploring how these technologies can improve the fatigue life of materials or optimize mechanical systems could enhance his work’s relevance in the next generation of engineering challenges.
  3. Public Dissemination of Research: While Dr. Chakherlou has an impressive body of work and significant impact in peer-reviewed journals, he could work on increasing the visibility of his research to a broader audience outside of academia, including industry leaders and policymakers. Engaging in more outreach activities, public talks, or publishing in more industry-focused journals could further elevate his influence.
  4. Increased Focus on Sustainability and Environmental Considerations: Considering the global emphasis on sustainability, incorporating research on environmentally friendly manufacturing processes or the development of materials with better energy efficiency and recyclability could significantly enhance the societal impact of his work.

Education

Dr. Chakherlou completed his Ph.D. in Mechanical Engineering at the University of Bath, UK, in 2002, specializing in the fatigue life improvement of fastener holes using cold expansion techniques. His MSc was awarded by the Iran University of Science and Technology in 1995, where his thesis focused on the fatigue behavior of notched members. He earned his BSc in Mechanical Engineering from Amir Kabir University of Technology in 1992. His extensive academic training equipped him with a deep understanding of solid mechanics, which he applies in both his research and teaching. The combination of his education and international research experience has positioned him as an influential figure in the engineering community, particularly in the design and optimization of mechanical systems under cyclic loads.

Experience

Dr. Chakherlou has been a Professor of Solid Mechanics at the University of Tabriz since 2012. He has previously served as an Associate Professor (2008–2012) and Assistant Professor (2002–2008). Before that, he was a Lecturer at Sahand University of Technology (1996–1999). He has taught a wide range of courses, including Finite Element Methods, Fatigue and Fracture, Theory of Plasticity, Thermoelasticity, and Metal Forming at both undergraduate and graduate levels. As a Workshop Director at Sahand University of Technology (1996–1999), Dr. Chakherlou managed and developed the materials engineering department’s practical training programs. He also served in administrative roles, including organizing engineering departments in Mianeh (2006–2010), enhancing his leadership and management skills. His comprehensive experience spans teaching, research, and administrative responsibilities.

Awards and Honors

Dr. Chakherlou has received multiple Research Excellence Awards throughout his career, recognizing his contributions to solid mechanics and fatigue life improvement. His highly-cited papers have earned international recognition, and his work on cold expansion methods is considered pioneering in the aerospace and automotive industries. His collaboration with top international researchers has earned him accolades in academic circles, and his leadership in supervising MSc and Ph.D. theses has shaped the next generation of engineers. His publications, many of which have appeared in prestigious journals like Engineering Failure Analysis and Fatigue & Fracture of Engineering Materials & Structures, have contributed significantly to the scientific community. Although specific awards are not listed, his citation count and contributions to critical fields underline his academic achievements.

Research Focus

Dr. Chakherlou’s research focuses on fatigue and fracture mechanics, specifically the improvement of the fatigue life of fastener holes and bolted joints in aerospace and manufacturing components. He is particularly known for his work on cold expansion and interference fit methods to enhance the residual stresses around fastener holes, thus improving the fatigue strength of materials like aerospace aluminum alloys. His research involves both numerical simulations and experimental investigations to explore the influence of various factors such as clamping force, bolt preload, and temperature on the fatigue performance of joints. He also investigates the fracture behavior and stress distribution in bolted and hybrid joints. Dr. Chakherlou’s interdisciplinary approach bridges mechanical engineering with practical industry applications, particularly in the aerospace, automotive, and manufacturing sectors.

Publications

  1. The effect of cold expansion on improving the fatigue life of fastener holes 🔧💥
  2. Experimental and numerical investigation of the effect of clamping force on the fatigue behaviour of bolted plates 🔩📊
  3. An investigation about interference fit effect on improving fatigue life of a holed single plate in joints ⚙️📐
  4. The effect of bolt clamping force on the fracture strength and the stress intensity factor of a plate containing a fastener hole with edge cracks 🔩💥
  5. Experimental and numerical investigations into the effect of an interference fit on the fatigue life of double shear lap joints 🔧🛠️
  6. A novel method of cold expansion which creates near‐uniform compressive tangential residual stress around a fastener hole 🌀🔩
  7. An experimental investigation of the bolt clamping force and friction effect on the fatigue behavior of aluminum alloy 2024-T3 double shear lap joint 🛠️🪛
  8. Effects of aluminum surface treatments on the interfacial fracture toughness of carbon-fiber aluminum laminates 🌐🔬
  9. Investigation of bolt clamping force on the fatigue life of double lap simple bolted and hybrid (bolted/bonded) joints via experimental and numerical analysis ⚙️💡
  10. Experimental and numerical comparison of cold expansion and interference fit methods in improving fatigue life of holed plate in double shear lap joints 🔩🔧
  11. On the fatigue behavior of cold expanded fastener holes subjected to bolt tightening 🔧🛠️
  12. Experimental and numerical study of fatigue crack growth of aluminum alloy 2024-T3 single lap simple bolted and hybrid (adhesive/bolted) joints 📉⚙️
  13. Prediction of fatigue life in aircraft double lap bolted joints using several multiaxial fatigue criteria 🚀🔩
  14. Investigation of the fatigue life and crack growth in torque tightened bolted joints 🔩⚡
  15. Numerical simulation of residual stress relaxation around a cold‐expanded fastener hole under longitudinal cyclic loading using different kinematic hardening models 💻🔬

Conclusion

Dr. Tajbakhsh Navid Chakherlou’s career is a testament to his dedication and excellence in the field of mechanical engineering, particularly in the areas of fatigue and fracture mechanics, fastener design, and material improvement methods. His prolific research, impactful publications, and longstanding teaching career position him as an ideal candidate for the Best Researcher Award. His work has not only advanced the field but has also had significant practical applications in aerospace and manufacturing industries.While there are areas where he could expand his research focus, such as interdisciplinary collaboration, emerging technologies, and sustainability, these are complementary directions for future growth and do not detract from his outstanding achievements to date. Therefore, Dr. Chakherlou is highly deserving of the Best Researcher Award in recognition of his significant contributions to engineering science and education.

Mohammad-Mahdi Pazuki | Energy Systems Engineering | Best Researcher Award

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Mr Mohammad-Mahdi Pazuki | Energy Systems Engineering | Best Researcher Award

Ph.D Student, KN Toosi University, Iran

Mohammad-Mahdi Pazuki is an accomplished researcher and engineer specializing in energy systems and policy analysis. He has made significant contributions to sustainable energy transitions through innovative research and interdisciplinary projects. His work blends advanced technologies, such as machine learning and optimization algorithms, with real-world applications in renewable energy solutions. He is dedicated to addressing critical energy challenges in Iran and beyond, and his commitment to academic excellence is evidenced by his top rankings in national exams and university performance. He actively engages in teaching and mentorship, fostering the next generation of engineers and researchers.\

Profile

Orcid

Strengths for the Award

  1. Innovative Research: Mohammad-Mahdi Pazuki has made significant contributions to the field of energy systems through his advanced research in energy policy analysis, optimization, and renewable energy solutions. His work, especially in machine learning applications for carbon capture and renewable energy systems, showcases his ability to integrate cutting-edge technology with practical energy solutions.
  2. Strong Academic Background: With an impressive GPA of 18.88/20 in his M.Sc. in Energy Systems Engineering, he ranks second in his university. His academic achievements, alongside his top ranking in the national university entrance exam, highlight his dedication and competence in his field.
  3. Diverse Skill Set: Pazuki’s proficiency in programming (MATLAB, Python), machine learning, and energy system modeling demonstrates a robust technical skill set. His ability to apply various optimization algorithms and engage in CFD simulation further solidifies his expertise.
  4. Publications and Projects: He has authored and contributed to multiple high-quality publications, many of which are under review or in progress. His diverse projects, ranging from solar desalination systems to energy policy assessments, indicate a well-rounded approach to research and practical applications.
  5. Teaching and Leadership Experience: His role as a teaching assistant and involvement in organizing significant conferences and projects reflect strong communication and leadership abilities. His participation in judging panels for technology festivals demonstrates his commitment to advancing the field.

Areas for Improvement

  1. Broader Impact Assessment: While his research is innovative, further emphasis on the societal and environmental impacts of his work could enhance its relevance. Developing frameworks to measure these impacts could provide more comprehensive insights into the implications of his research.
  2. Networking and Collaboration: Although he has engaged in various projects, expanding his professional network through international collaborations could lead to more diverse perspectives and opportunities for joint research initiatives.
  3. Public Engagement: Increasing public engagement through outreach initiatives or community projects related to energy sustainability could enhance the visibility of his work and promote awareness of renewable energy technologies.

Education

Mohammad-Mahdi holds a Master’s degree in Energy Systems Engineering from K.N. Toosi University of Technology, where he achieved a GPA of 18.88/20, ranking second in his program. He completed his Bachelor’s degree in Mechanical Engineering at the same institution, with a GPA of 14.93/20. His academic journey began with a diploma in Physics and Mathematics from Roshd High School, where he graduated with a GPA of 19.70/20. His education has equipped him with a strong foundation in engineering principles, energy systems, and policy analysis, enabling him to tackle complex challenges in sustainable energy.

Experience

Mohammad-Mahdi’s professional experience encompasses a variety of research and engineering roles. He has served as a researcher at Niroo Research Institute and the Energy Integration Lab, contributing to projects on energy policy, optimization, and renewable technologies. He has also held executive positions, including Chief Operating Officer at a digital marketing agency. His internships in construction and power plant engineering have provided practical insights into the energy sector. Additionally, he has taught courses in system dynamics and decision-making, showcasing his dedication to education and knowledge dissemination in the field of energy systems.

Research Focus

Mohammad-Mahdi’s research interests span energy policy and economics, system dynamics, renewable energy, and machine learning applications. He is particularly focused on enhancing energy efficiency and sustainability through innovative solutions, such as geothermal poly-generation systems and carbon capture technologies. His work in electricity demand-side management aims to inform effective policymaking for sustainable energy transitions. He also explores the integration of renewable energy in urban settings and the socio-environmental implications of energy systems. His interdisciplinary approach combines technical expertise with an understanding of environmental and social challenges in the energy sector.

Publication Top Notes

  • “Enhancing efficiency in an innovative geothermal poly-generation system for electricity, cooling, and freshwater production through integrated multi-objective optimization: A holistic approach to energy, exergy, and enviro-economic effects”
  • “An Intelligent Solvent Selection Approach in Carbon Capturing Process: A Comparative Study of Machine Learning Multi-Class Classification Models”
  • “Solar-Powered Bitcoin Mining: Bridging Economic Viability with Environmental Sustainability”
  • “Exploring Evaporation Dynamics in Solar Stills: Influence of Fabric Material Composition and Brine Concentration”
  • “Optimization and Analysis of Adsorption Desalination Systems: Integrating Multi-Objective Particle Swarm Optimization (MOPSO) with Environmental, Economic, and Exergy Analyses”
  • “The evaporation experiments on carboxyl-functionalized multi-walled carbon nanotube/polyvinyl alcohol – polyester (3D CNT/PVA-PET) fabric with hole array”
  • “Modeling and assessment of Iran’s electricity demand-side management (DSM) policies applying system dynamics (SD) approach”
  • “Intelligent Energy Management: Strategies, Applications, and Policy Implications” (Book in progress)

Conclusion

Mohammad-Mahdi Pazuki stands out as a leading candidate for the Best Researcher Award due to his innovative contributions to energy systems, strong academic credentials, diverse skill set, and impactful research. By focusing on enhancing the societal impact of his work and expanding his collaborative efforts, he can further elevate his research profile and contribute meaningfully to the field of energy sustainability. His commitment to advancing energy policy and technology positions him as a promising researcher poised to make significant contributions in the future.

Saibo She | Electrical Engineering | Best Researcher Award

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Dr Saibo She | Electrical Engineering | Best Researcher Award 

Ph.D Student, University of Manchester, United Kingdom

Saibo She is a dedicated researcher specializing in electromagnetic non-destructive testing and sensor design. Currently pursuing a PhD at the University of Manchester, UK, he previously earned his bachelor’s degree from Hunan University, China. With a strong foundation in electrical engineering, Saibo has actively contributed to various innovative research projects, focusing on defect detection and material evaluation. He is passionate about applying artificial intelligence to enhance diagnostic methodologies. Beyond academia, Saibo has demonstrated leadership in multiple competitions, reflecting his commitment to innovation and collaboration. His work has led to numerous publications and patents, marking him as a rising star in his field.

Profile

Scopus

Strengths for the Award

  1. Extensive Research Experience: Saibo has been involved in numerous significant research programs, focusing on advanced topics in non-destructive testing and electromagnetic evaluation. His work is supported by prestigious funding, such as the National Natural Science Foundation of China.
  2. Innovative Contributions: He has made substantial contributions to the field, as evidenced by multiple patents and published papers in reputable journals like the IEEE Sensors Journal and IEEE Transactions on Instrumentation and Measurement. His research on eddy current sensors demonstrates a blend of innovation and practical application.
  3. Strong Publication Record: Saibo has co-authored several papers with impactful findings, showcasing his ability to engage in high-quality research and contribute to scientific knowledge. His work on defect detection and materials evaluation reflects a commitment to advancing the field.
  4. Awards and Scholarships: His accolades, including the IEEE Instrumentation and Measurement Graduate Fellowship Award and various scholarships, highlight his academic excellence and recognition by peers and institutions.
  5. Leadership Experience: His role as a group leader in several competitions suggests strong leadership and teamwork skills, which are crucial for collaborative research environments.

Areas for Improvement

  1. Broader Impact: While his research is innovative, exploring avenues to increase the practical impact of his work in industrial applications could enhance his profile. Engaging with industry partners for real-world testing and implementation could broaden his research’s reach.
  2. Interdisciplinary Collaboration: Saibo could benefit from engaging with researchers from different fields to foster interdisciplinary collaboration, which can lead to new perspectives and innovative solutions to complex problems.
  3. Communication Skills: While his publication record is strong, focusing on enhancing presentation and outreach skills could help him communicate his research findings more effectively to diverse audiences, including policymakers and industry stakeholders.

Education

Saibo She is currently pursuing a PhD at the University of Manchester, UK, from September 2022 to June 2026. He previously obtained his bachelor’s degree from Hunan University, China, where he studied from September 2019 to June 2022. His education has provided him with a solid foundation in electrical engineering and materials science, equipping him with the knowledge and skills needed for advanced research. At both institutions, Saibo excelled academically, receiving several scholarships and awards that recognized his outstanding performance. His studies have been complemented by hands-on research experiences, enabling him to apply theoretical concepts to practical challenges in non-destructive testing and sensor technology. Saibo’s educational journey reflects a commitment to excellence and a strong desire to contribute to advancements in his field.

Experience 

Saibo She has extensive research experience, starting in July 2019, where he has been involved in multiple significant projects. His work includes analyzing mechanical stress wave mechanisms in silicon carbide power electronic devices and exploring damage mechanisms using nonlinear electromagnetic acoustic emission methods. He has contributed to research funded by the National Natural Science Foundation of China and participated in projects related to non-destructive testing techniques. Saibo’s main responsibilities include the simulation and analysis of electromagnetic fields, the design and evaluation of electromagnetic sensors, and hardware circuit design. He has also constructed experimental platforms for testing and validation purposes. His involvement in these projects showcases his technical expertise and ability to tackle complex engineering problems, making him a valuable asset in the field of non-destructive evaluation.

Awards and Honors 

Saibo She has received numerous awards and honors throughout his academic career. In March 2023, he was awarded the IEEE Instrumentation and Measurement Graduate Fellowship Award. He is a recipient of the China Scholarship Council (CSC) and University of Manchester Joint Scholarship, covering the period from 2022 to 2026. During his time at Hunan University, he received several accolades, including the Graduate Student National Scholarship for two consecutive years (2020-2021 and 2019-2020) and the Academic First-Class Scholarship. Additionally, he was recognized as an Outstanding Graduate Student for the 2019-2020 academic year. His achievements in competitions include the Central China Second Prize in the China Sensor Innovation and Entrepreneurship Competition and multiple awards in electronic design competitions. These recognitions underscore his dedication to research excellence and innovation in engineering.

Research Focus

Saibo She’s research focuses on the design of eddy current array sensors and the evaluation of ferromagnetic materials, particularly through the study of hysteresis loops and Barkhausen magnetic noise. He is keenly interested in defect diagnosis and identification utilizing artificial intelligence algorithms, aiming to enhance the capabilities of non-destructive testing techniques. His work addresses challenges in materials science and engineering, particularly in improving the reliability and efficiency of sensor technologies. By integrating machine learning approaches into traditional testing methods, Saibo seeks to push the boundaries of current evaluation techniques. His research not only contributes to academic knowledge but also has practical implications for industries requiring advanced non-destructive testing solutions. Saibo’s commitment to innovation and his technical expertise position him as a leading researcher in the field, with the potential to significantly advance the understanding and application of electromagnetic testing methods.

Publication Top Notes

  • Flexible Differential Butterfly-Shape Eddy Current Array Sensor for Defect Detection of Screw Thread 📄
  • Flexible Floral Eddy Current Probe for Detecting Flaws in Metal Plate 📄
  • Optimal Design of Remote Field Eddy Current Testing Probe for Ferromagnetic Pipeline Inspection 📄
  • An Innovative Eddy Current Sensor with E-Core Ferrite Resistant to Lift-Off and Tilt Effects 📄
  • Inspection of Defects Depth for Stainless-Steel Sheets Using Four-Coil Excitation Sensor and Deep Learning 📄
  • Evaluation of Defects Depth for Metal Sheets Using Four-Coil Excitation Array Eddy Current Sensor and Improved ResNet18 Network 📄
  • Thickness Measurement and Surface-Defect Detection for Metal Plate Using Pulsed Eddy Current Testing and Optimized Res2Net Network 📄
  • Simultaneous Measurements of Metal Plate Thickness and Defect Depth Using Low Frequency Sweeping Eddy Current Testing 📄
  • Size-Distinguishing Miniature Electromagnetic Tomography Sensor for Small Object Detection 📄
  • Diffusion Velocity of Eddy Current in Metallic Plates Using Point-Tracing Method 📄
  • Temperature Monitoring of Vehicle Brake Drum Based on Dual Light Fusion and Deep Learning 📄

Conclusion

Saibo She is an excellent candidate for the Research for Best Researcher Award due to his impressive research accomplishments, innovative contributions, and strong leadership capabilities. By addressing the areas for improvement, such as expanding the practical impact of his research and enhancing interdisciplinary collaborations, he can further strengthen his profile. His trajectory indicates a promising future in research and innovation, making him a worthy recipient of this award.

 

 

Gokhan Basar | Mechanical Engineering | Best Researcher Award

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Dr. Gokhan Basar | Mechanical Engineering | Best Researcher Award

Research Assistant at Industrial Engineering, Turkey

Dr. Gokhan Basar is a dedicated researcher and assistant professor in the Department of Industrial Engineering at Osmaniye Korkut Ata University, Turkey. Born on January 1, 1989, in Tarsus, Turkey, he has developed a strong academic and professional foundation in mechanical engineering. Dr. Basar holds a PhD in Mechanical Engineering, specializing in the production of reinforced aluminum matrix composites. He has contributed significantly to the field through his research on friction stir welding and optimization techniques, establishing himself as an expert in machinability and mechanical properties of materials. His commitment to advancing engineering knowledge is evident in his numerous publications and active participation in national and international conferences.

Profile:

Google Scholar

Strengths for the Award:

  1. Diverse Research Areas: Dr. Basar has an extensive range of research interests including Friction Stir Welding, machinability of materials, and optimization techniques. This diversity reflects a strong capability to contribute to various fields within engineering.
  2. Academic Qualifications: With a PhD in Mechanical Engineering and multiple relevant master’s and bachelor’s degrees, Dr. Basar possesses a solid educational foundation that underpins his research.
  3. Significant Contributions: His published works, including book chapters and numerous journal articles, indicate active engagement in research. The citation metrics (42 citations and an H-index of 4) highlight that his work is recognized and valued by the academic community.
  4. Research Methodology Expertise: Dr. Basar’s proficiency in experimental design and optimization methods, particularly the Taguchi Method and Grey Relational Analysis, showcases his ability to apply advanced statistical techniques to real-world engineering problems.
  5. Active Conference Participation: Regular attendance at national and international conferences demonstrates a commitment to staying updated with the latest developments in his field and sharing his findings with the broader scientific community.
  6. Journal Refereeing: Serving as a referee for multiple reputable journals illustrates his involvement in the academic process and recognition by peers.

Areas for Improvement:

  1. Increased Collaboration: While Dr. Basar has a solid publication record, collaboration with researchers from diverse fields could enhance the breadth and impact of his research.
  2. Enhancing Citation Impact: Although his citation metrics are commendable, focusing on publishing in high-impact journals could further increase his visibility and citation rate.
  3. Broader Public Engagement: Engaging with industry stakeholders and public forums could help translate his research findings into practical applications, increasing societal impact.
  4. Exploration of Emerging Technologies: Staying abreast of emerging technologies in materials science and mechanical engineering could provide new avenues for research and innovation.

Education:

Dr. Gokhan Basar’s educational journey began with a Bachelor’s degree in Mechanical Engineering, which laid the groundwork for his advanced studies. He earned his MSc in Mechanical Engineering from Iskenderun Technical University (2013-2016), where he focused on optimizing welding parameters in friction stir welding. His research culminated in a thesis that highlighted his proficiency in practical applications of engineering principles. Dr. Basar continued his academic pursuit at Osmaniye Korkut Ata University, where he completed his PhD in Mechanical Engineering (2017-2023). His doctoral research investigated the production of SiC and B4C particle-reinforced aluminum matrix composites through powder metallurgy, further showcasing his ability to innovate in materials engineering. Throughout his academic career, Dr. Basar has demonstrated a strong commitment to educational excellence and research development.

Experience:

Dr. Gokhan Basar has amassed extensive experience in academia, starting his career as a Research Assistant in the Department of Mechanical Engineering at Iskenderun Technical University from 2013 to 2016. His responsibilities included conducting research, assisting in teaching, and engaging in various engineering projects. In 2016, he transitioned to Osmaniye Korkut Ata University, where he currently serves as a Research Assistant in the Department of Industrial Engineering. In this role, Dr. Basar has focused on advancing knowledge in the fields of friction stir welding, materials machinability, and optimization methods. He has participated in numerous conferences, enhancing his professional network and contributing to the scientific community. His dedication to research and education has positioned him as a prominent figure in mechanical engineering, with a strong emphasis on innovative practices and experimental design.

Research Focus:

Dr. Gokhan Basar’s research focuses primarily on advanced welding techniques, particularly Friction Stir Welding (FSW), and the machinability and mechanical properties of materials. His expertise extends to optimization methods, including the Taguchi Method, Response Surface Methodology, and Grey Relational Analysis, enabling him to develop effective strategies for improving material performance and process efficiency. He is particularly interested in the production of composite materials, investigating the use of SiC and B4C particles in aluminum matrices to enhance their mechanical properties. His research also includes the design of experiments and multi-response optimization, providing insights into surface quality and operational parameters in various manufacturing processes. Dr. Basar’s commitment to innovation in mechanical engineering drives his work to address contemporary challenges and contribute to the evolution of engineering practices.

Publications Top Notes:

  1. Optimization of machining parameters in face milling using multi-objective Taguchi technique 📄
  2. Modeling and optimization of face milling process parameters for AISI 4140 steel 📄
  3. Determination of the optimum welding parameters for ultimate tensile strength and hardness in friction stir welding of Cu/Al plates using Taguchi method 📄
  4. Optimization of cutting parameters in hole machining process by using multi-objective Taguchi approach 📄
  5. Modeling and optimization for fly ash reinforced bronze-based composite materials using multi-objective Taguchi technique and regression analysis 📄
  6. Multi-response optimization in drilling of MWCNTs reinforced GFRP using grey relational analysis 📄
  7. Delik İşleme Prosesinde Kesme Parametrelerin Taguchi Metodu ve Regresyon Analiz Kullanılarak Modellenmesi ve Optimizasyonu 📄
  8. Kolemanit ve Boraks Takviyeli Fren Balatalarının Sürtünme Performansı 📄
  9. Sıcak presleme yöntemi ile üretilmiş uçucu kül takviyeli bronz matrisli fren balata malzemelerinin sürtünme-aşınma özellikleri üzerine kolemanit miktarının etkisi 📄
  10. Mathematical Modeling and Optimization of Milling Parameters in AA 5083 Aluminum Alloy 📄
  11. 316L Paslanmaz Çeliklerin Frezeleme işlemindeki Yüzey Pürüzlülüğün ANFIS ile Modellenmesi 📄
  12. Bronz Esaslı Kompozit Sürtünme Malzemelerin Üç Nokta Eğme Mukavemetinin Taguchi Metodu ile Optimizasyonu 📄
  13. Statistical Investigation of the Effect of CO2 Laser Cutting Parameters on Kerf Width and Heat Affected Zone in Thermoplastic Materials 📄
  14. A new hybrid meta-heuristic optimization method for predicting UTS for FSW of Al/Cu dissimilar materials 📄
  15. Prediction of surface hardness in a burnishing process using Taguchi method, fuzzy logic model and regression analysis 📄
  16. Multi-objective optimization of cutting parameters for polyethylene thermoplastic material by integrating data envelopment analysis and SWARA-based CoCoSo approach 📄
  17. Kompozit Malzemelerin Delme İşleminde İtme Kuvvetinin Taguchi Metodu ile Optimizasyonu ve Regresyon Analizi ile Tahmini 📄
  18. Tepki yüzeyi metodolojisi kullanılarak nanokompozitin delinmesinde oluşan itme kuvvetinin modellenmesi ve analizi 📄
  19. Analysis and Optimization of Ball Burnishing Process Parameters of AA 7075 Aluminium Alloy with Taguchi Method 📄
  20. The Effect of Colemanite and Borax Reinforced to the Friction Performance of Automotive Brake Linings 📄

Conclusion:

Dr. Gokhan Basar exemplifies the qualities of a strong candidate for the Research for Best Researcher Award. His extensive research experience, educational background, and contributions to the field of engineering position him as a noteworthy researcher. By focusing on collaboration, increasing his publication impact, and engaging with the broader community, he could further enhance his profile as a leading researcher. His commitment to advancing knowledge in his areas of expertise makes him a deserving candidate for this prestigious award.

Majed Almubarak | Geomechanics | Best Researcher Award

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Mr Majed Almubarak | Geomechanics | Best Researcher Award

PhD Student, Massachusetts Institute of Technology, United States

Majed AlMubarak is a dedicated PhD candidate in Petroleum Engineering at Texas A&M University, where he maintains a perfect GPA of 4.0. With a rich academic background that includes a Master’s degree from MIT and a Bachelor’s degree from Texas A&M, Majed has consistently demonstrated excellence in his studies. He has significant experience in both industry and research, having worked as a reservoir engineer at Saudi Aramco and contributed to various high-impact research projects. Majed is passionate about advancing energy technologies and sustainable practices within the petroleum industry.

Profile

Google Scholar

Strengths for the Award

  1. Academic Excellence:
    • Majed has demonstrated exceptional academic performance throughout his educational journey, achieving a 4.0 GPA in his PhD program and a 4.9 GPA in his Master’s degree at MIT. His summa cum laude distinction during his undergraduate studies further showcases his commitment to excellence.
  2. Diverse Research Experience:
    • His extensive research background spans multiple prestigious institutions, including Texas A&M University and MIT. He has participated in various impactful projects related to petroleum engineering, rock mechanics, and geothermal systems, indicating a breadth of knowledge and adaptability in different research environments.
  3. Innovative Contributions:
    • Majed’s research on CO2 injection challenges, electro-hydraulic fracturing, and the development of novel fracturing fluids demonstrates his capacity for innovation in addressing complex industry challenges. His work on smart underground space exploration also reflects a forward-thinking approach to integrating technology and research.
  4. Publication Record:
    • With multiple published works and citations in prominent journals and conferences, Majed has established himself as a thought leader in his field. His involvement in various projects that contribute to the understanding of fluid dynamics and rock interactions enhances his visibility and credibility as a researcher.
  5. Industry Experience:
    • His practical experience as a reservoir engineer at Saudi Aramco equips him with a strong understanding of real-world applications, enhancing his research’s relevance and applicability to the petroleum industry.

Areas for Improvement

  1. Networking and Collaboration:
    • While Majed has a strong foundation, increasing his engagement in interdisciplinary collaborations could enrich his research perspectives and lead to novel findings. Actively participating in more workshops and conferences can enhance his professional network.
  2. Broader Impact of Research:
    • Focusing on how his research can be translated into broader societal benefits, such as environmental sustainability and energy efficiency, could enhance the impact of his work and appeal to a wider audience.
  3. Leadership Roles:
    • Taking on leadership roles in research projects or student organizations could further develop his management and mentorship skills, positioning him as a leader in the academic community.

Education

Majed AlMubarak is currently pursuing a PhD in Petroleum Engineering at Texas A&M University, expected to graduate in 2026 with a 4.0 GPA. He holds a Master of Science in Civil and Environmental Engineering from MIT, where he achieved an impressive GPA of 4.9. Majed also earned his Bachelor of Science in Petroleum Engineering from Texas A&M University in 2019, graduating summa cum laude with a GPA of 3.91. His educational journey reflects a strong foundation in engineering principles, enhanced by rigorous coursework and research experiences that have shaped his expertise in geomechanics and reservoir engineering.

Experience

Majed AlMubarak has gained valuable industry experience as a Reservoir Engineer at Saudi Aramco’s EXPEC Advanced Research Center. During his tenure from 2019 to 2020, he led projects focusing on CO2 enhanced oil recovery and experimental work addressing CO2 injection challenges. His hands-on approach involved utilizing advanced monitoring techniques and conducting laboratory experiments to improve recovery efficiency. In addition to his industry experience, Majed has served as a Graduate Research Assistant at Texas A&M University and MIT, where he engaged in significant research projects, including acid fracturing geomechanics and electro-hydraulic fracturing for geothermal systems. His diverse experience positions him as a well-rounded professional in the field of petroleum engineering.

Awards and Honors

Majed AlMubarak has received numerous accolades throughout his academic career, underscoring his dedication and excellence in engineering. He was a finalist in the Best Young Professional SPE Endogenous Contest in 2020 and received the Distinguished Student Award from the Dwight Look College of Engineering in 2019. His commitment to research was recognized when he secured first place in the SPE Petroleum Engineering Student Paper Contest in 2018. Furthermore, Majed has consistently achieved academic excellence, earning a place on the President’s List and the Dean’s List from 2015 to 2019. His undergraduate studies were fully sponsored by Saudi Aramco Oil Company, reflecting his potential and the value he brings to the engineering community.

Research Focus

Majed AlMubarak’s research focuses on advancing the understanding of geomechanics and reservoir engineering within the petroleum sector. His current projects at Texas A&M University involve evaluating acid fracturing geomechanics in carbonate rocks and assessing fracture conductivity in the Austin Chalk Formation. He explores innovative solutions for CO2 enhanced oil recovery and examines the efficiency of matrix acid stimulation techniques. His previous work at MIT concentrated on electro-hydraulic fracturing and the effects of various parameters on rock testing, further enriching his expertise. Majed is dedicated to addressing challenges in the energy industry, particularly in improving recovery techniques and promoting sustainable practices through advanced engineering solutions.

Publication Top Notes

  • Investigation of acid-induced emulsion and asphaltene precipitation in low permeability carbonate reservoirs.
  • A collective clay stabilizers review.
  • Insights on potential formation damage mechanisms associated with hydraulic fracturing.
  • Recent advances in waterless fracturing fluids: A review.
  • Chelating agent for uniform filter cake removal in horizontal and multilateral wells: laboratory analysis and formation damage diagnosis.
  • Influence of zirconium crosslinker chemical structure and polymer choice on the performance of crosslinked fracturing fluids.
  • Zirconium crosslinkers: Understanding performance variations in crosslinked fracturing fluids.
  • Enhancing foam stability through a combination of surfactant and nanoparticles.
  • A study on the adsorption behavior of different surfactants in carbonate using different techniques.
  • Turning the most abundant form of trash worldwide into effective corrosion inhibitors for applications in the oil and gas industry.

Conclusion

Majed AlMubarak is a highly qualified candidate for the Best Researcher Award, showcasing exceptional academic achievements, a diverse research portfolio, and significant contributions to the field of petroleum engineering. His strengths in innovation, publication, and industry experience solidify his position as a leading researcher. By focusing on enhancing his networking, broadening the societal impact of his research, and developing leadership skills, Majed can further elevate his profile and influence in the academic and professional communities. His potential for continued excellence makes him a deserving candidate for this prestigious recognition.

Sanyogita Manu | Engineering and Technology | Best Researcher Award

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Ms. Sanyogita Manu | Engineering and Technology | Best Researcher Award

PhD Candidate, The University of British Columbia, Canada

Publication Profile

Google scholar

Strengths for the Award

  1. Innovative Research Focus: Sanyogita’s work addresses a significant issue—indoor environmental quality during a time when many transitioned to remote work due to the pandemic. Her systematic study has the potential to inform guidelines and policies related to home office setups, highlighting its relevance in current public health discussions.
  2. Methodological Rigor: The research employs a robust methodology, utilizing continuous monitoring of various IEQ parameters alongside subjective assessments from participants. This comprehensive approach enhances the reliability of her findings.
  3. Professional Affiliations and Contributions: Sanyogita is actively engaged in professional organizations related to her field, serving on committees and reviewing journals. Her involvement in international conferences signifies her commitment to advancing research in IEQ and energy-efficient design.
  4. Publication Record: With multiple peer-reviewed publications and conference proceedings, Sanyogita demonstrates a solid track record in disseminating her research findings, contributing to the academic community’s understanding of indoor environments.
  5. Awards and Recognition: Her prior achievements and recognitions, including scholarships and awards, underscore her dedication and excellence in research.

Areas for Improvement

  1. Broader Impact Assessment: While her research is focused on WFH settings, there may be an opportunity to expand her study to include diverse populations and different geographical locations to enhance the generalizability of her findings.
  2. Interdisciplinary Collaboration: Collaborating with professionals from related fields such as psychology, sociology, or occupational health could enrich her research and offer a more holistic understanding of the WFH experience.
  3. Public Engagement: Engaging in public outreach or workshops to share her findings with broader audiences, including policymakers and the general public, could enhance the impact of her work and foster practical applications of her research.

Education

Sanyogita holds a Master’s degree in Interior Architecture and Design, specializing in Energy and Sustainability from CEPT University, India, where her dissertation focused on optimizing window performance in commercial buildings. She also earned her Bachelor’s degree in Interior Design from the same institution, with a dissertation exploring the thermal effects of furniture in interior environments. 🎓

Experience

With extensive experience in academia and research, Sanyogita has contributed to various projects assessing indoor environmental conditions and energy efficiency in buildings. She has served on several scientific committees and has been actively involved in peer review for reputable journals, reflecting her expertise in the field. 🏢

Research Focus

Her research primarily focuses on indoor environmental quality (IEQ) and its impact on occupant well-being and productivity, particularly in work-from-home settings. Sanyogita employs a systematic approach to evaluate both perceived and observed IEQ, utilizing a variety of environmental monitoring tools. 🔍

Awards and Honours

Sanyogita is a member of multiple prestigious organizations, including the International Society of Indoor Air Quality and Climate (ISIAQ) and the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE). She has been recognized for her contributions to building performance simulation and energy conservation, reflecting her commitment to sustainable practices. 🏆

Publication Top Notes

Manu, S., & Rysanek, A. (under review). A novel dataset of indoor environmental conditions in work-from-home settings. Building and Environment.

Manu, S., & Rysanek, A. (2024). A Co-Location Study of 87 Low-Cost Environmental Monitors: Assessing Outliers, Variability, and Uncertainty. Buildings, 14(9), Article 9. Link

Manu, S., et al. (2024). A state-of-the-art, systematic review of indoor environmental quality studies in work-from-home settings. Building and Environment, 111652. Link

Doctor-Pingel, M., et al. (2019). A study of indoor thermal parameters for naturally ventilated occupied buildings in the warm-humid climate of southern India. Building and Environment, 151, 1-14. Link

Manu, S., et al. (2019). Performance evaluation of climate responsive buildings in India – Case studies from cooling dominated climate zones. Building and Environment, 148, 136-156. Link

Gupta, R., et al. (2019). Customized performance evaluation approach for Indian green buildings. Building Research & Information, 47(1), 56–74. Link

Conclusion

Sanyogita Manu’s research on indoor environmental quality in work-from-home settings is both timely and significant. Her methodological rigor, publication record, and active participation in professional communities demonstrate her dedication to advancing knowledge in her field. While there are areas for improvement, her strengths strongly position her as a worthy candidate for the Best Researcher Award. Her work has the potential to influence policy and improve well-being in residential work environments, making her contributions invaluable in today’s context.

Ojong Ojong | Optimization and Control | Best Researcher Award

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Dr Ojong Ojong | Optimization and Control | Best Researcher Award

Lecturer II and Ag. HoD Chemical Engineering at University of Calabar in Nigeria.

Engr. Dr. Ojong Elias Ojong is a distinguished Lecturer II in the Department of Chemical Engineering at the University of Calabar, Nigeria. Born on September 30, 1990, in Bendeghe/Ekiem, Cross River State, he is dedicated to advancing the field of chemical engineering through research and education. Ojong holds a B.Tech., M.Tech., and is currently pursuing a Ph.D. at Rivers State University. With a robust academic background and practical experience in industry, he is committed to fostering the next generation of engineers. Ojong is also actively involved in community services and professional associations, promoting collaboration and innovation in engineering.

Profile

Scopus

Strengths

  1. Academic Qualifications: Ojong has an impressive academic background, with a B.Tech (First Class) in Chemical Engineering, an M.Tech, and a Ph.D. in progress. His strong academic foundation sets him apart as a dedicated and capable researcher.
  2. Teaching Experience: With extensive teaching responsibilities over the past five years at the University of Calabar, he has proven his commitment to education and mentoring. His involvement in key chemical engineering courses demonstrates both depth and breadth in his teaching abilities.
  3. Research Output: Ojong has published several peer-reviewed articles in reputable journals, covering topics such as chemical kinetics, reactor functions, and heat exchanger modeling. His research has practical applications in engineering, as demonstrated by his work on the design and simulation of chemical plants and energy systems.
  4. Professional Engagement: Ojong has attended and presented at multiple national and international conferences, showcasing his research and staying updated on the latest trends in his field. This engagement in the broader academic community is a critical factor in research leadership.
  5. Awards and Scholarships: His scholarships, such as the Ph.D. Scholarship by Tetfund and the Agbami Undergraduate Scholarship, underscore his academic excellence and promise.
  6. Membership in Professional Bodies: Ojong is a Corporate Member of the Nigerian Society of Chemical Engineers and a COREN-registered engineer. This formal recognition within professional bodies highlights his commitment to adhering to high standards in engineering practice.

Areas for Improvement

  1. Research Citations: While Ojong has published significant research, his citation metrics on Google Scholar, Scopus, and ORCID are relatively modest, with h-index values of 1-2. Increasing his citation count through collaborative and impactful research could enhance his academic influence.
  2. International Collaboration: Strengthening collaborations with international researchers and participating in joint research projects could further improve the global impact of his work.

Education

Dr. Ojong Elias Ojong’s academic journey showcases a strong foundation in chemical engineering. He earned his B.Tech. in Chemical Engineering with first-class honors from Rivers State University in 2014. His passion for the field led him to pursue an M.Tech. at the same institution, which he completed in 2019. Currently, he is a Ph.D. candidate at Rivers State University, focusing on optimizing chemical processes. His educational endeavors are supported by notable scholarships, including a PhD Scholarship from Tetfund and an Agbami Scholarship during his undergraduate studies. Ojong’s dedication to academic excellence and continuous learning reflects his commitment to making significant contributions to chemical engineering.

Experience 

Engr. Dr. Ojong Elias Ojong has accumulated extensive teaching and industrial experience in chemical engineering. He began his academic career as an Assistant Lecturer at the University of Calabar in October 2019 and was promoted to Lecturer II in October 2021. His teaching responsibilities include various undergraduate courses such as Process Dynamics and Control, Chemical Reaction Engineering, and Thermodynamics. Ojong also supervises undergraduate projects, enhancing students’ practical skills. Prior to academia, he worked as a Graduate Trainee at Indorama Eleme Fertilizer and Chemicals Limited, gaining valuable industry insights. His experience is complemented by a National Youth Service Corps (NYSC) position at Erisco Food Nigeria Limited. Through his roles, he aims to bridge the gap between theoretical knowledge and practical application in the chemical engineering field.

Awards and Honors 

Dr. Ojong Elias Ojong’s academic achievements have been recognized through several prestigious awards and scholarships. In 2021, he received a PhD Scholarship from Tetfund, reflecting his research potential and commitment to advancing knowledge in chemical engineering. During his undergraduate studies, he was awarded the Agbami Scholarship, which further motivated his pursuit of academic excellence. These recognitions underscore his dedication to his field and his efforts to contribute meaningfully to engineering education and research. Ojong’s accolades not only highlight his personal achievements but also serve as an inspiration for his students and peers. His recognition in academia reinforces the importance of supporting and nurturing emerging talents in the engineering sector.

Research Focus 

Dr. Ojong Elias Ojong’s research interests center on optimizing chemical processes and control systems. His current Ph.D. research investigates advanced techniques in the performance evaluation of PID and fuzzy logic controllers for urea reactor functions. Ojong’s work aims to enhance efficiency and effectiveness in chemical engineering applications, particularly in process dynamics and control. He has published several articles in reputable journals, contributing to knowledge in areas such as naphtha reforming and corrosion effects in chemical systems. His research not only addresses theoretical challenges but also emphasizes practical solutions that can be implemented in industrial settings. Dr. Ojong is committed to fostering innovation in chemical engineering through his research and collaborative projects.

Publication Top Notes

  • Resolving systems of ordinary differential equations in naphtha reforming process: Comparison of laplace transform and numerical methods. 📊
  • Estimation of Kinetic Parameters of Naphtha Lump Feeds. 📈
  • Design of Engineering Project Planning Software: A case Study. 💻
  • Two-way ANOVA for comparison of remedial nutrient solution and enhanced natural attenuation using SPSS for treating petroleum contaminated soils. 🧪
  • Mathematical modelling of operating temperature variations of shell-tube-heat exchanger (10-E-01). 🔥
  • Validation of MATLAB algorithm to implement a two-step parallel pyrolysis model for the prediction of maximum % char yield. ⚙️
  • Effect of Surface Finish on Corrosion and Microstructure of Carbon Steel-(C-1020) and Stainless Steel-(SS304). 🛠️
  • The Use of Models to Evaluate Corrosion Effects on Mild Steel Heat Exchanger in Water and Mono Ethanol Amine (MEA). 🌊

Conclusion

Ojong Elias Ojong’s academic achievements, research output, and professional activities make him a strong contender for the Best Researcher Award. His diverse work in chemical engineering, teaching experience, and research productivity highlight his dedication to advancing both the academic and practical aspects of his field.