Licheng Zhang | Fuel Consumption | Best Researcher Award

Posted on by Academic achievements

Dr. Licheng Zhang | Fuel Consumption | Best Researcher Award

Senior Engineer at Chang’an University, China.

Dr. Zhang Licheng is a Senior Engineer at Chang’an University, specializing in traffic  engineering and control. He has a profound interest in sustainable driving behavior, fuel consumption modeling, and autonomous vehicle efficiency. With 33 publications and 10 patents to his name, his pioneering work in fuel consumption prediction models has advanced the understanding of vehicular dynamics. Dr. Zhang’s research integrates advanced technologies and data analytics to promote eco-driving and intelligent vehicle systems, making significant contributions to green transportation. He is a recognized thought leader in the domain, blending academic rigor with practical applications to impact the automotive industry globally.

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Scopus 

Education

Dr. Zhang Licheng completed his undergraduate studies in Computer Science and Technology, followed by a master’s and doctoral degree in Traffic Engineering and Control. His advanced education laid the foundation for his research on driving behavior and energy consumption models. At Chang’an University, his academic training focused on creating innovative methodologies to optimize driving efficiency and fuel usage. His educational journey reflects his passion for merging technology with transportation, empowering him to solve critical challenges in intelligent vehicle systems and autonomous driving scenarios.

Experience

Dr. Zhang brings over a decade of experience in automotive engineering and intelligent vehicle research. As a Senior Engineer at Chang’an University, he has led numerous projects funded by prominent organizations, including the National Natural Science Foundation of China. His work emphasizes fuel-efficient driving strategies, autonomous vehicle simulations, and hybrid data modeling for energy optimization. Dr. Zhang has collaborated with global institutions, contributed to 33 journal publications, and mentored young researchers, shaping the future of green transportation technologies.

Research Interests

Dr. Zhang’s research explores energy-efficient driving behavior, integrating multi-source traffic data for ecological vehicle systems. He specializes in developing fuel consumption prediction models, autonomous driving strategies, and motion planning methods for lane-changing scenarios. His studies bridge the gap between driving behavior and environmental sustainability, contributing significantly to the design of energy-efficient autonomous vehicles. Dr. Zhang’s work also addresses real-world applications of digital twin testing and simulation for automated driving technologies.

Awards and Honors

Dr. Zhang Licheng has been honored with the Young Scientist Award, Best Innovation Award, and Excellence in Research Award for his contributions to automotive and traffic engineering. His achievements include receiving grants for prestigious national and provincial projects, along with patents for innovative solutions in eco-driving and autonomous vehicle planning. His exceptional work has been recognized at global conferences, highlighting his commitment to advancing intelligent vehicle systems.

Publications

Ma, S., Chen, C., Zhang, L., Zhang, J., Zhao, X.
Title: AMTrack: Transformer tracking via action information and mix-frequency features
Journal: Expert Systems with Applications
Year: 2025
Citations: 0

Zhang, L., Ya, J., Khattak, A.J., Peng, K., Guo, Y.
Title: Novel fuel consumption models integrating vehicular speed, acceleration, and jerk
Journal: Journal of Intelligent Transportation Systems: Technology, Planning, and Operations
Year: 2024
Citations: 0

Ma, S., Zhao, B., Zhang, L., Hou, Z., Zhao, X.
Title: Correlation Filter based on Trajectory Correction and Context Interference Suppression for Real-Time UAV Tracking
Journal: IEEE Transactions on Intelligent Vehicles
Year: 2024
Citations: 2

Zhang, L., Ya, J., Xu, Z., Xing, Y., Yang, R.
Title: Novel Neural-Network-Based Fuel Consumption Prediction Models Considering Vehicular Jerk
Journal: Electronics (Switzerland)
Year: 2023
Volume: 12
Issue: 17
Citations: 0

Wang, G., Zhang, L., Xu, Z., Qu, X.
Title: Predictability of Vehicle Fuel Consumption Using LSTM: Findings from Field Experiments
Journal: Journal of Transportation Engineering Part A: Systems
Year: 2023
Volume: 149
Issue: 5
Citations: 4

Peng, K., Xing, Y., Zhang, L., Song, Y., Ya, J.
Title: Quantitative Evaluation of Energy-saving Driving Based on Wavelet Transform
Conference: 7th IEEE International Conference on Transportation Information and Safety, ICTIS 2023
Year: 2023
Citations: 0

Zhang, L., Peng, K., Zhao, X., Khattak, A.J.
Title: New fuel consumption model considering vehicular speed, acceleration, and jerk
Journal: Journal of Intelligent Transportation Systems: Technology, Planning, and Operations
Year: 2023
Volume: 27
Citations: 12

Zhang, L., Zhang, T., Peng, K., Zhao, X., Xu, Z.
Title: Can Autonomous Vehicles Save Fuel? Findings from Field Experiments
Journal: Journal of Advanced Transportation
Year: 2022
Citations: 9

Wang, G., Zhang, L., Xu, Z., Wei, T., Qu, X.
Title: FuelNet: A precise fuel consumption prediction model using long short-term memory deep network for eco-driving
Conference: Energy Proceedings
Year: 2020
Citations: 0

Min, H., Zhao, X., Xu, Z., Zhang, L., Wang, R.
Title: Stereo Visual Odometry Based on Robust Features
Journal: Shanghai Jiaotong Daxue Xuebao/Journal of Shanghai Jiaotong University
Year: 2017
Citations: 2

Conclusion

Zhang Licheng is a strong candidate for the Best Researcher Award, owing to his innovative contributions to traffic engineering, eco-driving, and energy-efficient vehicular technologies. His well-rounded portfolio of research projects, patents, and publications underscores his dedication to advancing his field. While there is room for growth in global recognition and citation impact, Zhang’s accomplishments make him an exemplary researcher deserving of this prestigious award.

 

Sher Afghan Khan | Energy | Best Researcher Award

Posted on by Academic achievements

Dr. Sher Afghan Khan | Energy | Best Researcher Award 

Professor at IIUM, Kuala Lumpur, Malaysia

Dr. Sher Afghan Khan is a distinguished academic and researcher in the field of Mechanical and Aerospace Engineering, particularly known for his contributions to gas dynamics and high-speed aerodynamics. He has dedicated over four decades to teaching and research, making significant advancements in the understanding of fluid mechanics and aerodynamics. Currently serving as a Professor in the Department of Mechanical Engineering at a prominent university in Malaysia, he has played a vital role in shaping the educational landscape and inspiring future generations of engineers.

Profile

ORCID

Education

Dr. Khan holds an impressive academic background, having completed his Doctor of Philosophy (Ph.D.) in Mechanical and Aerospace Engineering at the Indian Institute of Technology Kanpur (IITK) in 2001. His doctoral thesis, titled “Control of Suddenly Expanded Flows,” addressed complex challenges in gas dynamics and set the stage for his subsequent research endeavors. Prior to his Ph.D., he obtained a Master of Technology (M.Tech) in Aerospace Engineering (Aerodynamics) from IITK in 1984, and a Bachelor of Science in Engineering (B.Sc. (Engg.)) from Aligarh Muslim University in 1982. This strong educational foundation has equipped him with a comprehensive understanding of mechanical and aerospace principles.

Experience

Dr. Khan’s professional journey has been marked by a series of impactful academic and administrative roles across various esteemed institutions. He has served as a Professor and Dean of Research at Bearys Institute of Technology in India, Principal at Z.H. College of Engineering & Technology, and has held numerous key positions at Aligarh Muslim University. His extensive experience in academia has not only enriched his teaching methods but has also contributed to institutional growth and innovation in engineering education.

Research Interests

Dr. Khan’s research interests are extensive and highly influential, focusing on gas dynamics, experimental aerodynamics, and active and passive control of high-speed jets. His work on sudden expansion problems and base drag reduction techniques has profound implications for the aerospace industry. Dr. Khan actively supervises both Ph.D. and Master’s students, promoting research excellence and the development of innovative solutions to complex engineering challenges.

Awards

Throughout his illustrious career, Dr. Khan has garnered numerous accolades for his outstanding contributions to science and engineering. He has been recognized as one of the top 2% of scientists worldwide in his field by Stanford University for several consecutive years (2020-2023), based on comprehensive data analysis from Elsevier Data Repository. Additionally, Dr. Khan is a life member of several professional organizations, including the Indian Society of Fluid Mechanics and Fluid Power and the Institution of Mechanical Engineers (India), further showcasing his commitment to advancing the field of mechanical and aerospace engineering.

Publications

Dr. Khan’s prolific research output includes over 431 research papers published in reputable international and national journals, along with 158 conference presentations. His notable publications include:

Khan, S. A., & Rathakrishnan, E. (2002). Active Control of Suddenly Expanded Flows from Over Expanded Nozzles. International Journal of Turbo and Jet Engines, 19(1-2), 119-126. Cited by: 50

Khan, S. A., & Rathakrishnan, E. (2003). Control of Suddenly Expanded Flows with Micro Jets. International Journal of Turbo and Jet Engines, 20(2), 63-81. Cited by: 45

Khan, S. A., & Rathakrishnan, E. (2004). Control of Suddenly Expanded Flow from Under Expanded Nozzles. International Journal of Turbo and Jet Engines, 21(4), 233-253. Cited by: 30

Khan, S. A., & Rathakrishnan, E. (2006). Active Control of Base Pressure in Supersonic Regime. Journal of Aerospace Engineering, 87, 1-8. Cited by: 25

Khan, S. A., & Baig, M. A. A. (2011). Control of Base Flows with Micro Jets. International Journal of Turbo and Jet Engines, 28(1), 59-69. Cited by: 20

Khan, S. A., & Rathakrishnan, E. (2005). Active Control of Suddenly Expanded Flow from Under Expanded Nozzles – Part II. International Journal of Turbo and Jet Engines, 22(3), 163-183. Cited by: 18

Khan, S. A., & Rathakrishnan, E. (2006). Nozzle Expansion Level Effect on a Suddenly Expanded Flow. International Journal of Turbo and Jet Engines, 23(4), 233-258. Cited by: 22

Khan, S. A., & Crasta, A. (2010). Oscillating Supersonic Delta Wing with Curved Leading Edges. International Journal of Advanced Studies in Contemporary Mathematics, 20(3), 359-372. Cited by: 15

Khan, S. A., Baig, M. A. A., & Rathakrishnan, E. (2012). Active Control of Base Pressure in Suddenly Expanded Flow for Area Ratio 4.84. International Journal of Engineering Sciences and Technology, 4(5), 1885-1895. Cited by: 14

Rehman, S., & Khan, S. A. (2008). Control of Base Pressure with Micro Jets Part-I. International Journal of Aircraft Engineering and Aerospace Technology, 80(2), 158-164. Cited by: 17

Conclusion:

Dr. Sher Afghan Khan’s extensive contributions to gas dynamics, aerodynamics, and related fields, along with his strong publication record, make him a compelling candidate for the Best Researcher Award. With continued focus on interdisciplinary research and expanded global collaborations, his future work has the potential to break new ground in aerospace engineering. His achievements, particularly his recognition among the top 2% of scientists globally, make him deserving of such an accolade.

 

Juan-Carlos Lozano-Medina | Energy and environment | Best Researcher Award

Posted on by Academic achievements

Prof. Juan-Carlos Lozano-Medina | Energy and environment | Best Researcher Award

Assistant Professor | University of Las Palmas de Gran Canaria | Spain

Strengths

  1. Relevant Scientific Production:
    • Juan Carlos Lozano Medina has published several scientific articles in recognized journals such as “Revista de Ingeniería Dyna,” “Water,” and “Sustainability.” These publications cover relevant topics like carbon footprint optimization, energy storage, and alternative studies for power plants, indicating high-quality and current research.
  2. Participation in R&D Projects:
    • He has participated in innovative educational projects and research, such as the project on laboratories as active learning environments. This project reflects a focus on improving education and practical application of scientific concepts, which is valuable for both academia and industry.
  3. Conference Contributions:
    • Presenting papers at international and national conferences, such as “InnoeducaTIC” and “ECOS,” shows his commitment to disseminating knowledge and participating in global academic discussions. These presentations are a clear indication of his involvement in the scientific community.
  4. Diverse Teaching Experience:
    • His involvement in teaching various subjects related to thermal and energy engineering demonstrates extensive experience in training future professionals in crucial fields.

Areas for Improvement

  1. Greater Diversity in Publications:
    • While the quality of his publications is high, he could benefit from greater diversity in publication types. For instance, exploring publications in books, book chapters, or special editions could broaden his impact.
  2. Increase International Collaboration:
    • Although he has participated in international conferences, the number of collaborations with researchers or institutions outside his country is limited. Expanding international collaboration could enrich his research and open up new funding and co-authorship opportunities.
  3. Seek More Funded Projects:
    • Although he has participated in funded projects, he could seek additional opportunities to lead or collaborate on projects with larger budgets or in emerging research areas. This would not only provide more resources for his work but also greater visibility.
  4. Enhance Social and Community Impact:
    • Encouraging practical application of his research in the local community or industry could increase the impact of his work. This might include collaborating with local businesses to solve specific problems or creating initiatives for scientific outreach in the community.

Conclusion

Juan Carlos Lozano Medina demonstrates a solid track record in research and teaching, with relevant publications and active participation in projects and conferences. To optimize his candidacy for the “Research for Best Researcher Award,” he should consider expanding his international reach, diversifying his types of publications, seeking larger funding opportunities, and increasing the impact of his work on the community and industry. These actions would not only strengthen his profile but also contribute to greater recognition in the academic and scientific spheres.

Short Biography

Juan Carlos Lozano Medina is an Associate Professor at the University of Las Palmas de Gran Canaria, specializing in engineering with a focus on energy and thermal systems. With a strong background in both teaching and research, Lozano Medina is actively involved in advancing the field of engineering through innovative projects and scientific publications. His expertise and contributions have significantly impacted both academic and practical applications in engineering. 🌟

Profile

SCOPUS

Education

Juan Carlos Lozano Medina holds a degree in Chemical Engineering and has accumulated extensive academic and professional experience in various engineering disciplines. He has been instrumental in shaping the curriculum and advancing the educational standards in his field. 📚

Experience

Since February 2013, Lozano Medina has been serving as an Associate Professor in the Department of Processes at the School of Industrial and Civil Engineering at the University of Las Palmas de Gran Canaria. His teaching responsibilities include courses on Energy Engineering, Marine Diesel Engines, and Thermal Systems Design, among others. 🏛️

Research Interests

His research interests lie in energy production, carbon footprint reduction, and innovative educational methodologies. Lozano Medina’s work focuses on optimizing energy systems and exploring sustainable solutions for power generation, with a particular emphasis on the Canary Islands’ unique energy challenges. 🔬

Awards

Juan Carlos Lozano Medina has been recognized for his contributions to innovative educational projects and research in energy systems. His work has been acknowledged through various academic and research awards, reflecting his impact on both fields. 🏆

Publications

  1. Study of Different Alternatives for Power Plants in the Canary Islands
    Revista de Ingeniería Dyna, March 1, 2024.
  2. Energy Production in Gran Canaria with PHES and SWRO
    Water, February 2, 2024.
  3. Optimization of Carbon Footprint Reduction in Island Electricity Systems
    Sustainability, January 30, 2024.