Ahmed S. Al-Jawadi | Microelectronics Engineering | Best Researcher Award

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Mr. Ahmed S. Al-Jawadi | Microelectronics Engineering | Best Researcher Award

Lecturer | University of Mosul | Iraq

Mr. Ahmed S. Al-Jawadi is a Lecturer in the Department of Electrical Engineering at the University of Mosul, College of Engineering. With specialization in electronics and communications engineering, he has developed expertise in microelectronics and solid-state devices, focusing on advanced circuit design, semiconductor device modeling, and communication systems. His academic and research contributions reflect a strong balance between teaching, applied research, and international scholarly engagement.

Professional Profile

Scopus | Orcid | Google Scholar

Education

Mr. Al-Jawadi earned both his Bachelor’s and Master’s degrees in Electrical Engineering from the University of Mosul, College of Engineering. He is currently a Ph.D. student in Electronics, with research emphasizing semiconductor device characterization and optimization. His doctoral studies integrate theoretical modeling with experimental validation, particularly in the design and analysis of advanced MOSFET structures and microelectronic circuits.

Experience

As a Lecturer at the University of Mosul, Mr. Al-Jawadi has contributed extensively to the academic community through teaching, mentoring, and curriculum development in electronic engineering. He is proficient in using advanced simulation and design tools such as Silvaco TCAD and Advanced Design System (ADS). His work extends beyond traditional academia, as he actively participates in scientific conferences and collaborates with peers in advancing knowledge in microelectronics, solid-state devices, and communication systems.

Research Interests

Mr. Al-Jawadi’s research primarily targets semiconductor device engineering, microelectronics, and communication circuits. His investigations include MOSFET design and optimization, dielectric material integration, power amplifier implementations, microwave sensing, and low-noise amplifier design. He is also engaged in the study of short-channel effects mitigation techniques and high-speed applications of dual dielectric gate MOSFETs. His work contributes to bridging the gap between simulation-based research and real-world electronic applications.

Honors

Mr. Al-Jawadi has received multiple academic recognitions and certifications from the University of Mosul, College of Engineering, acknowledging his commitment to education and research. His role in advancing applied electrical engineering research has been highlighted through participation in major international conferences and scientific forums, including contributions to the Sixth Scientific Conference for Electrical Engineering Techniques Research (Baghdad).

Top Noted Publications

Effect of X-ray Radiation on Electro-Optical Characteristics of CR-39 Sheets by Using Microwave and FTIR Spectroscopy Techniques — Citations: 9 | Index: Scopus | Year: 2012

Microwave Radiometer for Temperature Sensing of Food — Citations: 8 | Index: Scopus | Year: 2018

Implementation and Realization of Power Amplifier in Two Types of Matching Network Style for LTE Application — Citations: 6 | Index: IEEE Xplore | Year: 2021

Optimum Design of Integrated Switched Capacitor Circuits Using 0.5-μM CMOS Technology — Citations: 7 | Index: Scopus | Year: 2019

Conclusion

Mr. Ahmed S. Al-Jawadi is a dedicated academic and researcher whose contributions span semiconductor engineering, communication circuits, and electronic device optimization. His publications in reputed international journals and conferences highlight both his scientific rigor and applied problem-solving capabilities. Through his teaching, mentorship, and research, he has significantly contributed to the development of engineering education and the advancement of microelectronics research in Iraq and beyond. With his ongoing Ph.D. studies and growing international recognition, he is positioned to make further impactful contributions to the global scientific community.

Mr Chirag Patel | Engineering | Best Researcher Award |

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Mr. Chirag Patel | Engineering | Best Researcher Award

NVH specialist , at CEAT limited,India

Mr. Chirag Patel, born on December 20, 1983, in Vadodara, Gujarat, India, is a seasoned expert in Computer-Aided Engineering (CAE) and Noise, Vibration, and Harshness (NVH), with over 15 years of experience in the automotive and tyre industry. He is currently serving as a Specialist (Senior Manager) at CEAT Ltd., where he leads a team focused on advanced tyre simulation technologies. Chirag is passionate about developing innovative methodologies that merge simulation tools with practical applications, especially in the field of vehicle acoustics, ride performance, and multibody dynamics.

profile

Scopus

Education

Chirag Patel holds a Master’s degree in Engineering and began his career in academia as an Assistant Professor at Charotar University of Science and Technology. His strong academic foundation in mechanical engineering and early exposure to teaching has enriched his analytical thinking and shaped his journey in simulation and applied research.

Experience

Mr. Patel brings rich experience from globally recognized organizations such as CEAT Ltd., Apollo Tyres, Tata AutoComp Systems (at FIAT Chrysler), HCL Technologies (at John Deere), and Ingersoll Rand. At CEAT, he is responsible for simulation methodology development, NVH analysis, acoustic modeling, tyre model validation, and automation in simulation workflows. His earlier roles include conducting full-vehicle dynamic analysis, NVH studies, acoustic testing, and simulation process optimization. His career began as a Project Engineer at Ingersoll Rand and later transitioned into academia before moving into core automotive simulation roles.

Research interest

His primary research interest lies in tyre dynamics, NVH behavior, acoustic simulation, and ride handling through tools such as ABAQUS, ADAMS, HyperMesh, Wave6, and MATLAB. Chirag has led pioneering projects on tyre cavity noise, foam tyre development for low in-cabin noise, rolling simulations, and modal-frequency-based analysis for structure-borne sound. His research also involves tyre modeling for MBD simulations, using models like PAC2002, MF-Swift, and F-Tire, validated through vehicle handling simulations.

Awards

Chirag has achieved significant milestones, including leading multiple tyre simulation methodologies and applying for a patent for a foam-based tyre concept aimed at reducing in-cabin noise. He has also contributed to university-industry collaboration projects and has been instrumental in establishing simulation processes and tools used in commercial vehicle and two-wheeler tyre development. These efforts have garnered internal recognitions and strengthened his reputation as a technical leader.

Publications

Title: A waveguide finite element model with geometric nonlinearity and orthotropy to analyse broadband vibrations in a reinforced radial tyre
Authors: M. Londhe, R. Oorath, C.B. Patel (Chirag Bharatbhai Patel), N. Tiwari
Journal: Wave Motion
Indexing: Indexed in Scopus and Web of Science
Citations: 0 (as of now)
Year of Publication: 2025

Conclusion

With a solid foundation in engineering, years of hands-on experience, and a drive for innovation, Mr. Chirag Patel stands out as a leading professional in the CAE/NVH domain. His work at the intersection of engineering design, acoustic simulation, and performance optimization showcases his commitment to excellence and industry advancement. A valuable asset to any research or development initiative, Chirag Patel is a strong candidate for recognition such as the Best Researcher Award 2024.

Prof Zhiqing Li | Engineering Geology | Best Researcher Award |

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Prof. Zhiqing Li | Engineering Geology | Best Researcher Award | 

Soil and Rock Mixture, at Institute of Geology and Geophysics, Chinese Academy of Sciences ,China

Prof. Zhiqing Li is a distinguished researcher in the field of Geological Engineering, currently serving as a Professor at the Institute of Geology and Geophysics, Chinese Academy of Sciences (CAS). With over 15 years of experience in high-impact geoscientific research, Prof. Li has demonstrated consistent academic excellence and leadership within one of China’s premier scientific institutions. His work is characterized by a deep commitment to understanding earth processes and contributing to the advancement of geotechnical knowledge that supports sustainable development and natural hazard mitigation.

Professional Profile

Scopus

Education 🎓

Prof. Li holds a Bachelor’s degree in Civil Engineering from the University of Science and Technology Beijing (1999–2003). He pursued his doctoral studies at the Graduate School of the Chinese Academy of Sciences, earning his Ph.D. in Geological Engineering in 2008. This solid educational foundation blends structural engineering principles with geoscientific investigation, enabling him to take on interdisciplinary research challenges.

Experience 👩‍

Prof. Zhiqing Li began his academic career as an Assistant Professor at the Institute of Geology and Geophysics, CAS in July 2008. In January 2012, he was promoted to Associate Professor and later to Full Professor in January 2022. Over this span, he has played a pivotal role in leading research projects, mentoring young scientists, and collaborating across disciplinary and institutional boundaries. His long-standing affiliation with the Chinese Academy of Sciences highlights his integral role in China’s national scientific research strategy.

Research Interests 🔬

His core research areas include geological hazard assessment, subsurface geotechnical modeling, and rock mechanics. Prof. Li is particularly focused on understanding the dynamics of Earth’s crust and developing predictive models for seismic and landslide risks. His work often bridges theory with practical applications, influencing infrastructure planning, environmental safety, and resource management.

Awards 🏆

While specific awards were not listed, Prof. Li’s promotion through the academic ranks—from Assistant Professor to Associate Professor, and eventually Full Professor—at a prestigious institution like CAS is itself a recognition of his research contributions and academic influence. His ongoing presence in China’s foremost geoscientific research body suggests a respected reputation in his field.

Top Noted Publications 📚

1. Title: Study on cumulative plastic deformation and resistivity-based damage evolution of frozen soil-rock mixtures under cyclic loading
Authors: K. Sun, Z. Li (Zhiqing), W. Pan
Citations: 0
Index: Soil Dynamics and Earthquake Engineering
Year of Publication: 2025

2. Title: Acoustic Emission Characteristics of Ice-Rock Mixture and Frozen Soil-Rock Mixture under Splitting Test
Authors: F. Hu, Y. Zhu, Q. Lü, Z. Li (Zhiqing), S. Wang
Citations: 0
Index: Chinese Journal of Underground Space and Engineering
Year of Publication: 2024

3. Title: Study on the extension mechanism of fissures in expansive soil based on fracture mechanics test method
Authors: Y. Kong, Z. Li (Zhiqing), K. Sun, Z. Qi, R. Hu
Citations: 1
Index: Engineering Geology
Year of Publication: 2024

4. Title: Study on strength damage model considering resistivity and failure characteristics of the frozen soil–rock mixture under different loading rates
Authors: S. Wang, Z. Li (Zhiqing), Z. Gao, R. Hu, Y. Zhou
Citations: 4
Index: Canadian Geotechnical Journal
Year of Publication: 2024

5. Title: A support vector machine model of landslide susceptibility mapping based on hyperparameter optimization using the Bayesian algorithm: a case study of the highways in the southern Qinghai–Tibet Plateau
Authors: K. Sun, Z. Li (Zhiqing), S. Wang, R. Hu
Citations: 5
Index: Natural Hazards
Year of Publication: 2024

Conclusion

Prof. Zhiqing Li exemplifies scholarly dedication and research excellence in Geological Engineering. With a strong academic background, long-term service at the Chinese Academy of Sciences, and a likely rich research output, he stands out as a leading figure in his field. His work not only enhances the scientific understanding of Earth’s dynamic systems but also contributes to the practical mitigation of geological hazards. Prof. Li is a compelling candidate for prestigious research awards and global academic recognition.

Mr Farshad Sadeghpour | Engineering | Best Researcher Award |

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Mr.Farshad Sadeghpour | Engineering | Best Researcher Award | 

Researcher, at Petroleum University of Technology (PUT) ,Iran

Mr. Farshad Sadeghpour is a highly motivated and multidisciplinary Petroleum Engineer and Data Scientist with a strong academic foundation and hands-on industry experience. He specializes in applying artificial intelligence, machine learning, and geomechanical modeling to tackle real-world challenges in petroleum exploration and reservoir engineering. With an impressive track record of publications, research collaborations, and award-winning projects, Mr. Sadeghpour stands out as an innovative young professional pushing the frontiers of modern petroleum engineering.

Professional Profile

Orcid

Education 🎓

Mr. Sadeghpour holds a Master of Science in Petroleum Engineering (Exploration) from the Petroleum University of Technology, Abadan, Iran (2019–2022), where he graduated with a stellar GPA of 18.82/20. He earned his Bachelor of Science in Petroleum Engineering (Exploration) from the Islamic Azad University, Science and Research Branch, Tehran, Iran (2015–2019), achieving an exceptional GPA of 19.14/20. His academic journey reflects deep technical knowledge, diligence, and consistent excellence.

Experience 👩‍

Mr. Sadeghpour has worked across leading organizations in Iran’s energy sector. His roles include Petroleum Engineer, Petrophysicist, and Data Scientist at institutions such as the Research Institute of Petroleum Industry (RIPI), Petro Vision Pasargad (PVP), Computer Aided Process Engineering (CAPE), and the National Iranian South Oil Company (NISOC). His work involved RCAL, SCAL, EOR laboratory operations, geomechanical modeling, machine learning implementation, and reservoir data analysis—reflecting a strong blend of fieldwork, laboratory experience, and data-driven insights.

Research Interests 🔬

Farshad’s research is at the intersection of petroleum engineering, data science, and geomechanics. He focuses on using machine learning, deep learning, and AI-based models to solve complex reservoir problems such as mud loss prediction, permeability estimation, and CO₂ storage assessment. His work emphasizes both theoretical modeling and practical industry applications, often conducted in collaboration with organizations such as NISOC, RIPI, and the National Iranian Oil Company. His master’s thesis and several projects revolve around neural networks, genetic algorithms, and petrophysical characterization, showing his innovative edge.

Awards 🏆

Farshad’s dedication to excellence was recognized internationally when he secured Third Prize in the EAGE Laurie Dake Challenge 2022 held in Madrid, Spain—a highly competitive event for petroleum engineering students worldwide. He has also been involved in significant national-level research projects with reputed institutions, showcasing his contributions to both academic and industrial progress.

Top Noted Publications 📚

Farshad has co-authored and led multiple high-impact publications in Q1 journals, including:

Energy (2025): Machine learning for CO₂ storage feasibility.

Journal of Petroleum Exploration and Production Technology (2025): New petrophysical-mathematical approach for RQI and FZI.

Geoenergy Science and Engineering (2024): Upscaling methods for elastic modulus prediction.

Journal of Rock Mechanics and Geotechnical Engineering (2024): Stress effects on fracture development in the Asmari reservoir.

Multiple papers under review in Marine and Petroleum Geology, International Journal of Coal Geology, and others.

Conclusion

In conclusion, Farshad Sadeghpour exemplifies the profile of a next-generation energy researcher—technically brilliant, research-oriented, and industry-relevant. His interdisciplinary expertise, publication record, award-winning work, and innovative mindset make him an outstanding candidate for prestigious recognitions such as the Best Researcher Award. His contributions are not only academically significant but also strategically aligned with the global shift toward smart and sustainable energy solutions.