Qihui Yu | Renewable Energy | Best Researcher Award

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Mr. Qihui Yu | Renewable Energy
| Best Researcher Award

Department Head at Inner Mongolia University of Science & Technology, China.

Dr. Qihui Yu is an accomplished associate professor at Inner Mongolia University of Science and Technology, with a Ph.D. in Mechatronic Engineering from Beihang University. Specializing in compressed air energy storage and energy-efficient pneumatic systems, he brings over a decade of academic and postdoctoral research expertise. His innovative work integrates thermal and fluid power systems to address energy efficiency challenges. He has served as a visiting scholar at the University of Nottingham, strengthening international collaboration. Dr. Yu has led a National Natural Science Foundation of China (NSFC) project, showcasing his leadership in high-impact research. His technical excellence and commitment to sustainable energy systems make him highly suitable for the Best Researcher Award, recognizing innovation, dedication, and significant contributions to his field.

Professional Profile :

Scopus

Suitability for the Best Researcher Award :

Dr. Qihui Yu is highly suitable for the Best Researcher Award due to his significant contributions to the fields of compressed air energy storage, pneumatic system optimization, and thermal energy management. With a Ph.D. from Beihang University and postdoctoral experience in automation and fluid power systems, he has led impactful research at Inner Mongolia University of Science and Technology. His leadership in a National Natural Science Foundation of China project demonstrates national recognition and technical excellence. Dr. Yu’s international academic collaboration as a visiting scholar at the University of Nottingham, coupled with a strong publication record, underscores his innovative work and global research relevance. His work aligns with sustainable energy goals, making him a deserving candidate for this prestigious award.

Education :

Dr. Qihui Yu pursued his academic journey in mechanical and mechatronic engineering across top Chinese institutions. He earned his Ph.D. in Mechatronic Engineering (Fluid Power Drive and Control) from Beihang University (BUAA) between 2010 and 2015, where he focused on advanced energy systems. Prior to that, he completed his master’s degree in Mechanical Electronic Engineering at Zhengzhou University (2007–2010). His undergraduate education in Mechanical Engineering and Automation was obtained from Henan University of Science and Technology (2003–2007). Throughout his education, Dr. Yu developed a strong foundation in fluid dynamics, automation, and thermal energy, laying the groundwork for his future contributions to energy-saving pneumatic and heat storage systems.

Work Experience :

Dr. Qihui Yu is currently an associate professor at Inner Mongolia University of Science and Technology, a position he has held since 2018, following his earlier role as a lecturer (2016–2018). He also spent a year (2021–2022) as a visiting scholar at the University of Nottingham, UK, enhancing his international research exposure. From 2014 to 2016, he served as a postdoctoral fellow at Beihang University’s School of Automation Science and Electrical Engineering. His diverse roles in academia, research, and international collaboration reflect a career dedicated to the advancement of energy storage and fluid power technologies. His trajectory highlights both technical leadership and consistent growth in academic responsibility and recognition.

Awards and Honors

Dr. Qihui Yu has earned recognition for his contributions to energy systems and engineering innovation. While specific award titles are not listed, his selection as a project leader for the National Natural Science Foundation of China (NSFC) underscores his standing in the academic and engineering research community. His appointment as a visiting scholar at the University of Nottingham further signifies his scholarly impact and collaborative value. His progressive academic promotions—from lecturer to associate professor—also reflect institutional acknowledgment of his research performance and teaching excellence. Dr. Yu’s track record and leadership in high-value research initiatives affirm his eligibility for esteemed awards such as the Best Researcher Award, celebrating sustained achievement and future promise.

 Research Focus :

Dr. Qihui Yu’s research is centered on compressed air energy storage (CAES), pneumatic energy-saving systems, and heat storage technology. He explores the thermodynamic behavior of gas-liquid interactions and energy optimization under variable spatial constraints. As principal investigator of a NSFC project (52465008), he investigates quasi-isothermal CAES processes to improve system efficiency. His work bridges theory and application, enhancing the performance and sustainability of modern energy storage solutions. With a strong focus on renewable and efficient energy systems, Dr. Yu contributes to national strategies for green technology development. His research has broad implications for industries seeking low-carbon solutions and positions him as a key innovator in mechanical and energy engineering.

 Publication Top Notes:

  • Water spray heat transfer gas compression for compressed air energy system, 2021 

  • Compressed air energy storage capacity configuration and economic evaluation considering the uncertainty of wind energy, 2022 

  • Experimental and performance study of spray heat transfer‑based compressed air quasi‑isothermal expansion system, 2023 

  • Performance analysis of an innovative kind of two‑stage piston type expansion air engine, 2018

  • Comparative study on air distribution system for piston‑type compressed air engine, 2017

  • Fuzzy logic speed control for the engine of an air‑powered vehicle, 2016

  • Optimization study on a single‑cylinder compressed air engine, 2015 

  • A review of compressed‑air energy storage, 2019 — Citations: ~61

Conclusion

Dr. Qihui Yu stands out as a highly promising and accomplished mid-career researcher with a strong focus on sustainable energy systems. His technical contributions, national project leadership, and international exposure make him a very suitable candidate for the Best Researcher Award. With continued emphasis on global outreach, industrial impact, and academic leadership, he is well-positioned to become a leading authority in mechanical energy systems and thermal storage technologies.

Mahdi Zarnoush | Renewable Energy | Best Researcher Award

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Mr. Mahdi Zarnoush | Renewable Energy
| Best Researcher Award

Researcher at K. N. Toosi University of Technology, Iran.

Mahdi Zarnoush is a dedicated researcher in Mechanical Engineering at K. N. Toosi University of Technology, specializing in energy conversion, renewable energy, and energy storage systems. With a strong academic foundation and a passion for sustainable development, he has contributed to over 10 research projects and published four ISI-indexed journal papers, with additional work under review. His innovative research advances efficient and optimized energy solutions, aligning with global energy transition goals. As a journal reviewer and active member of scientific associations, he plays a pivotal role in maintaining academic integrity and excellence. His scholarly contributions and active engagement in the research community make him a compelling candidate for the Best Researcher Award.

🌍 Professional Profile:

ORCID

Scopus

Google scholar 

🏆 Suitability for the Best Researcher Award :

Mahdi Zarnoush exemplifies the qualities of a top-tier researcher through his impactful work in energy conversion and storage technologies. His contributions to the field, including peer-reviewed journal publications and a forthcoming book chapter, demonstrate both depth and innovation. Zarnoush’s research addresses pressing global energy challenges by enhancing energy system efficiency and sustainability. His active involvement in academic collaborations, reviewing duties for respected journals, and leadership in scientific associations highlight his professional maturity and scholarly commitment. These accomplishments, coupled with his drive for excellence in renewable energy and energy transition research, mark him as highly suitable for the Best Researcher Award and position him as a rising leader in sustainable energy solutions.

🎓 Education :

Mahdi Zarnoush holds an M.Sc. in Mechanical Engineering with a specialization in Energy Conversion from K. N. Toosi University of Technology, a premier institution in Iran. He earned his B.Sc. in Mechanical Engineering from the University of Kashan, where he built a strong foundation in thermodynamics, fluid mechanics, and system design. During his graduate studies, Zarnoush focused on advanced energy systems, optimizing energy conversion processes and exploring renewable technologies. His academic path was marked by a commitment to research, sustainability, and innovation, enabling him to contribute meaningfully to both theoretical and applied aspects of energy engineering. His educational background provides the technical depth and scientific rigor necessary for impactful contributions in academia and industry alike.

🏢 Work Experience :

Mahdi Zarnoush is currently a Research Associate at K. N. Toosi University of Technology, where he has led and contributed to over ten academic research projects in energy systems and sustainable technologies. His expertise spans energy conversion, renewable integration, and energy storage modeling. Zarnoush has also served as a reviewer for reputable journals, such as the Journal of Energy Storage, reflecting peer recognition of his analytical skills and subject expertise. He collaborates with leading researchers on energy optimization projects and contributes regularly to the university’s Mechanical Engineering Scientific Association. His experience blends rigorous research with practical insight, advancing the development of efficient energy systems and contributing to the knowledge base in clean energy transitions.

🏅 Awards and Honors :

While formal awards are not currently listed, Mahdi Zarnoush’s academic recognition is reflected in his publication record, peer review contributions, and active involvement in leading research initiatives. His four published ISI-indexed journal papers and two under-review manuscripts have garnered increasing citations, indicating growing impact. His selection as a reviewer for high-impact journals like the Journal of Energy Storage speaks to his credibility and expertise in the field. Zarnoush’s participation in multiple high-level academic projects and his contribution to an upcoming book chapter further demonstrate his recognized value in the research community. His work continues to receive acknowledgment through scholarly collaboration, invitations for academic contributions, and consistent involvement in scientific development platforms.

🔬 Research Focus :

Mahdi Zarnoush’s research is centered on the development of advanced, sustainable, and efficient energy systems. His key areas include energy conversion technologies, renewable energy integration, energy transition strategies, and storage systems. He emphasizes optimization and modeling of thermal and hybrid energy systems to improve reliability and reduce environmental impact. Zarnoush’s work bridges theory and application, targeting real-world solutions to pressing energy issues. He explores innovations in smart energy systems and sustainable infrastructure, with a commitment to facilitating the global shift toward clean energy. Through academic publications, ongoing research projects, and cross-disciplinary collaborations, he aims to contribute foundational knowledge and practical tools that accelerate progress in the fields of renewable energy and sustainable technology.

📊 Publication Top Notes:

📘 Comparative evaluation of advanced adiabatic compressed gas energy storage systems
📅 Year: 2023 | 📊 Cited by: 43 | 📰 Journal of Energy Storage

📘 Comparative investigation for sustainable freshwater production in hybrid multigrid systems based on solar energy
📅 Year: 2024 | 📊 Cited by: 11 | 📰 Journal of Cleaner Production

📘 Integration of Emerging Technologies in Next-Generation Electric Vehicles: Evolution, Advancements, and Regulatory Prospects
📅 Year: 2025 | 📊 Cited by: 8 | 📰 Results in Engineering

📘 Comprehensive examination of a green hybrid biomass-integrated compressed air energy storage system with PEM hydrogen production across various operating modes
📅 Year: 2025 | 📊 Cited by: 2 | 📰 Journal of Energy Storage

G.N.Lalith Pankaj Raj Nadimuthu | Renewable Energy | Best Researcher Award

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Dr. G.N.Lalith Pankaj Raj Nadimuthu | RenewableEnergy
|Best Researcher Award

 

Faculty at The Gandhigram Rural Institute – Deemed to be University ,India.

Dr. G.N. Lalith Pankaj Raj, a dedicated scholar in Energy Engineering, is a DST INSPIRE Fellow with exceptional contributions to renewable energy research. With over 260 citations, an h-index of 10, and 11 indexed publications, his impactful work in solar photovoltaics, electric mobility, and smart grid technology demonstrates academic excellence and real-world relevance. His interdisciplinary approach, field innovations, and gold-medal academic record make him a strong contender for the Best Researcher Award. His research aligns with national sustainability goals, especially in rural energy solutions. He consistently merges theory with application, helping to shape energy policy and empower rural communities through technology. His dedication to innovation and sustainability exemplifies the highest standards of academic research.



🌍 Professional Profile:


Orcid


Google scholar


🏆 Suitability for the Best Researcher Award


 


 














































Dr. G.N. Lalith Pankaj Raj, B.E., M.Tech., Ph.D., is a distinguished DST INSPIRE Fellow with an exceptional academic and research profile in energy engineering. His work focuses on impactful, community-driven innovations such as solar photovoltaic-based cold storage and nano-grids for rural livelihood improvement. With 262 citations, an h-index of 10, and 11 i10-indexed publications, his research demonstrates both quality and real-world applicability. A Gold Medalist and First Rank holder in M.Tech, he blends technical excellence with societal relevance. His dedication to renewable energy, electric mobility, and climate change mitigation through green technologies aligns with national sustainability missions. His contributions make him a strong candidate for the Best Researcher Award, reflecting innovation, impact, and academic leadership.




















































🎓 Education 


Dr. Lalith Pankaj Raj earned his Ph.D. in Energy Engineering from The Gandhigram Rural Institute (Ministry of Education, GoI), where he was awarded the prestigious DST INSPIRE Fellowship. He completed his M.Tech in Renewable Energy with a stellar CGPA of 9.19, securing the First Rank and Gold Medal. He also holds a Certificate in Energy Auditing with distinction (CGPA 10) from the same institution. His B.E. in Electrical and Electronics Engineering was obtained from PSNA College of Engineering and Technology, affiliated with Anna University, with a CGPA of 7.95. His strong academic foundation is complemented by excellence in pre-university studies, including 89.2% in SSLC. His project work spans energy auditing, photovoltaic thermal systems, and smart vehicle technologies.


🏢 Work Experience 


Dr. Lalith Pankaj Raj has rich academic and research experience in the field of renewable energy, combining field implementation with high-impact research. He currently serves as a DST INSPIRE Fellow at The Gandhigram Rural Institute, where he is executing a pioneering project on a Combined Solar Photovoltaic-Based Micro Cold Storage–E-Mobility–Nano Grid system to benefit rural farmers. He previously conducted advanced studies on hybrid photovoltaic thermal systems and energy benchmarking for grid-tied solar rooftops in collaboration with REC-IPMT, Ministry of Power. His undergraduate innovations include vehicle emission control systems. His active involvement in field audits, training, and technical assessments reflects hands-on expertise. His career reflects a trajectory of applying research to real-world sustainability and rural development goals.


🏅 Awards and Honors 


Dr. Lalith Pankaj Raj is a recipient of the DST INSPIRE Fellowship from the Department of Science and Technology, Government of India—one of the nation’s most competitive awards for research excellence. He earned a Gold Medal and First Rank in his M.Tech program in Renewable Energy. His academic excellence has been consistently recognized with top scores and distinctions throughout his career, including a perfect CGPA in his Certificate in Energy Auditing. He has been honored for presenting high-impact research and contributing to national renewable energy forums. His Google Scholar metrics (262 citations, h-index 10, i10-index 11) demonstrate academic impact and scholarly recognition. His strong track record of innovation and excellence has earned him national and institutional acclaim.


🔬 Research Focus 
































































Dr. Lalith Pankaj Raj’s research centers on sustainable energy technologies with applications in rural development. His key areas include solar photovoltaics, thermoelectric refrigeration, electric mobility, vehicle-to-grid integration, smart grids, and energy conservation. His Ph.D. work focuses on a novel solar photovoltaic-based cold storage and nanogrid system aimed at enhancing the livelihoods of rural farmers. He is passionate about building integrated renewable systems, Net Zero energy buildings, and climate change mitigation through energy efficiency. His interdisciplinary work bridges technical innovation and social impact, promoting low-carbon solutions and decentralized energy systems. With a sharp focus on practical implementation and policy relevance, his research contributes to India’s renewable energy transition and aligns with global sustainability goals.




























































































📊 Publication Top Notes:


1. Energy conservation approach for continuous power quality improvement: A case study
Authors: LPR Nadimuthu, K Victor, CH Basha, T Mariprasath, C Dhanamjayulu, et al.
Journal: IEEE Access, Vol. 9, pp. 146959–146969
Citations: 48
Year: 2021


2. Environmental friendly micro cold storage for last-mile Covid-19 vaccine logistics
Authors: LPR Nadimuthu, K Victor
Journal: Environmental Science and Pollution Research, 29(16), 23767–23778
Citations: 39
Year: 2022


3. Performance analysis and optimization of solar-powered E-rickshaw for environmental sustainability in rural transportation
Authors: LPR, GN Kirubakaran V
Journal: Environmental Science and Pollution Research, Vol. 28, pp. 34278–34289
Citations: 32
Year: 2021


4. Energy Efficiency Enhancement and Climate Change Mitigations of SMEs through Grid-Interactive Solar Photovoltaic System
Authors: LPR, GN Kirubakaran V
Journal: International Journal of Photoenergy
Citations: 32
Year: 2021


5. Hybrid photovoltaic-thermal systems: innovative CHP approach
Authors: PRGN Lalith, G Prabakaran, A Murugaiyan, V Kirubakaran
Conference: 4th International Conference on Electrical Energy Systems (ICEES), pp. 726–730
Citations: 19
Year: 2018


6. Simulation and experimental study on performance analysis of solar photovoltaic integrated thermoelectric cooler using MATLAB Simulink
Authors: LPR Nadimuthu, DA Selvaraj, K Victor
Journal: Thermal Science, 26(2 Part A), pp. 999–1007
Citations: 16
Year: 2022


7. Fast thermal degradation of biomass using scrapped solar cell with special focus on photovoltaic (PV) waste disposal
Authors: GN Lalith Pankaj Raj Nadimuthu, VM Karthik, M Mohanraj, V Kirubakaran
Book Chapter: Waste Valorisation and Recycling: 7th IconSWM—ISWMAW 2017, Volume 2, pp. 349–361
Citations: 16
Year: 2019


8. Bench marking of grid tied solar roof top photovoltaic system: a case comparison
Authors: GNP, S. S. Chopade, L. P. Raj
Journal: International Journal of Engineering & Technology, 7(2.33), pp. 553–556
Citations: 15
Year: 2018


9. Optimization of energy-intensive process in ayurvedic medicine manufacturing unit—a case study
Authors: LPR Nadimuthu, K Victor
Journal: Process Integration and Optimization for Sustainability, 5(4), pp. 975–992
Citations: 13
Year: 2021


10. Monitoring and simulation of parabolic trough collector powered vapor absorption refrigeration system for rural cold storage
Authors: DA Selvaraj, LPR Nadimuthu, K Victor
Journal: Thermal Science, 26(2 Part A), pp. 975–982
Citations: 12
Year: 2022


11. Feasibility of renewable energy microgrids with vehicle-to-grid technology for smart villages: A case study from India
Authors: LPR Nadimuthu, K Victor, M Bajaj, MB Tuka
Journal: Results in Engineering, Vol. 24, Article 103474
Citations: 11
Year: 2024


12. An experimental and spectroscopic investigation on pongamia pinata as liquid dielectrics for rural micro grid under various load conditions
Authors: LPR Nadimuthu, NS Moorthy, K Victor, M Thenkaraimuthu, B Khan, A Ali
Journal: Scientific Reports, 14(1), Article 19653
Citations: 3
Year: 2024


13. Waste Valorisation and Recycling
Authors: JP Sarkar, B Das (Book includes contribution by GN Lalith Pankaj Raj Nadimuthu)
Publisher: Springer
Citations: 3
Year: 2019

	


	

	






	
	

		


Huakun Bi | Electrical Engineering | Best Researcher Award
			

				Published on  by Engineering Scientist			

		
	


	

		
Dr. Huakun Bi| Electrical Engineering

|Best Researcher Award




Lecturer at School of Electrical and Automation Engineering, Shandong University of Science and Technology, Qingdao, China.




 


Dr. Huakun Bi, a Lecturer at the School of Electrical and Automation Engineering, Shandong University of Science and Technology, is a prolific researcher in power electronics. He earned his Ph.D. from Tianjin University in 2020 and has since demonstrated significant academic and industrial contributions. With 17 research papers—12 SCI and 15 EI indexed—and multiple prestigious research projects, he has become a leading expert in DC-DC converters, electric vehicles, and DC microgrids. Dr. Bi’s innovative designs have enhanced voltage regulation and energy efficiency in electric vehicle systems. His high citation count, active role as a journal reviewer, and leadership in government- and industry-funded projects reflect outstanding research impact and make him an excellent candidate for the Best Researcher Award.




🌍 Professional Profile:


Scopus


Orcid


🏆 Suitability for the Best Researcher Award


 






































Dr. Shahrzad Falahat exemplifies excellence in applied AI research, making her a highly suitable candidate for the Best Researcher Award. With a Ph.D. in Computer Vision and over five years of impactful industrial experience, she has led innovative projects that address critical real-world challenges. Her development of AI-powered fault detection software for power transmission lines reduced outages by 70%, while her automated cartography system cut map production time by 80%. She combines deep technical expertise in Python, PyTorch, TensorFlow, and embedded AI with strong project management and cross-sector collaboration. Her work integrates research and practice, resulting in scalable, intelligent solutions with tangible societal benefits, positioning her as a leader in the field of AI and computer vision.






































🎓 Education 


Dr. Huakun Bi earned his Ph.D. in Electrical Engineering from Tianjin University, Tianjin, China, in 2020, where he conducted advanced research in power conversion technologies and electric transportation systems. His doctoral work focused on the design and optimization of DC-DC converters, especially for fuel cell and electric vehicle applications. His academic foundation includes rigorous training in circuit theory, control systems, and energy systems. During his doctoral studies, he led one independent innovation project and contributed to several national-level research initiatives. His education equipped him with a strong theoretical and practical understanding of modern electrical systems, laying the groundwork for his impactful contributions as a researcher and lecturer at the Shandong University of Science and Technology.


🏢 Work Experience 


Dr. Huakun Bi currently serves as a Lecturer at the School of Electrical and Automation Engineering, Shandong University of Science and Technology, Qingdao. Since earning his Ph.D. in 2020, he has taken on leadership roles in academic and industrial research, including projects funded by the Shandong Natural Science Foundation, State Grid Corporation of China, and Huaneng Group. He has contributed to three additional school-enterprise cooperation projects. Dr. Bi also acts as a dedicated reviewer for five international journals in electrical engineering. His dual involvement in academia and applied industrial projects demonstrates a versatile and impactful career. His research work is not only academically significant but also practically relevant, bridging the gap between theoretical advancements and real-world implementation.


🏅 Awards and Honors 


Dr. Huakun Bi’s research excellence is reflected in the high citation of his publications, notably in top-tier journals such as IEEE Transactions on Industrial Electronics and IEEE Transactions on Vehicular Technology. His 2019 publication has been cited 77 times, showcasing his work’s global impact. He has received recognition for his leadership in innovation projects at Tianjin University and has earned competitive funding from the Shandong Provincial Natural Science Foundation. Dr. Bi’s sustained contribution to national and industry-funded projects highlights the practical value of his research. His selection as a peer reviewer for multiple international journals further underscores his expertise and reputation in the field of power electronics and DC microgrids. These honors position him strongly for research excellence awards.


🔬 Research Focus 
































































Dr. Huakun Bi’s research primarily targets high-performance DC-DC converters, energy-efficient electric vehicles, and stable DC microgrid systems. His work addresses core challenges in power electronics, including input current ripple reduction, wide voltage-gain range, and voltage stress mitigation. By introducing advanced converter topologies such as capacitor-clamped and dual-mode negative output converters, he enhances performance for fuel cell and EV applications. Dr. Bi has also contributed significantly to government- and industry-funded projects, applying theoretical innovations to practical systems. His papers are frequently cited in top journals, and his designs serve critical roles in electric transportation and energy systems. Through pioneering control methods and hardware design strategies, Dr. Bi is driving forward the next generation of clean, efficient energy solutions.




























































































📊 Publication Top Notes:


    

  1. 

    Huakun Bi, Zonglei Mou, Yu Chen
    
“Common Grounded Wide Voltage-Gain Range DC–DC Converter With Zero Input Current Ripple and Reduced Voltage Stresses for Fuel Cell Vehicles”
    
Journal: IEEE Transactions on Industrial Electronics
    
Year: 2023
    
DOI: 10.1109/TIE.2022.3172767
    
Citations: 23
    

    2. 



    

  1. 

    Huakun Bi, Bo Li, Ping Wang, Zhishuang Wang, Xiaochen Ma
    
“A New Coupled-Inductor-Based High-Gain Interleaved DC-DC Converter With Sustained Soft Switching”
    
Journal: IEEE Transactions on Vehicular Technology
    
Year: 2021
    
DOI: 10.1109/TVT.2021.3083317
    
Citations: Not specified
    

    2. 



    

  1. 

    Huakun Bi, Cong Jia
    
“Common Grounded Wide Voltage‐Gain Range DC–DC Converter for Fuel Cell Vehicles”
    
Journal: IET Power Electronics
    
Year: 2019
    
DOI: 10.1049/iet-pel.2018.6234
    
Citations: 16
    

    2. 



    

  1. 

    Guidan Li, Zhe Yang, Bin Li, Huakun Bi
    
“Power Allocation Smoothing Strategy for Hybrid Energy Storage System Based on Markov Decision Process”
    
Journal: Applied Energy
    
Year: 2019
    
DOI: 10.1016/j.apenergy.2019.03.001
    
Citations: Not specified
    

    2. 



    

  1. 

    Huakun Bi, Ping Wang, Yu Che
    
“A Capacitor Clamped H-Type Boost DC–DC Converter With Wide Voltage-Gain Range for Fuel Cell Vehicles”
    
Journal: IEEE Transactions on Vehicular Technology
    
Year: 2019
    
DOI: 10.1109/TVT.2018.2884890
    
Citations: 77
    

    2.