Mahesh Prasad Awasthi | Environmental Science | Young Researcher Award

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Mr. Mahesh Prasad Awasthi | Environmental Science | Young Researcher Award

Teaching Assistant at Far Western University, Nepal

Professional Profile

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Summary

Mahesh Prasad Awasthi, is an emerging environmental scientist and geospatial researcher. Currently serving as a Teaching Assistant at the Central Department of General Science, Far Western University, Nepal, he also contributes as a GIS specialist and researcher for the Api Saipal Development Forum. Mahesh has demonstrated a strong commitment to integrating geospatial technologies and environmental science to address critical societal and ecological challenges in the Himalayan region.

Educational Details

Mahesh holds a Master of Science (M.Sc.) degree in Environmental Science from the Central Department of Environmental Science, Tribhuvan University, where his thesis focused on flood susceptibility modeling and water quality assessment. He completed his Bachelor of Science (B.Sc.) in Environmental Science at Far Western University, with a thesis on landslide susceptibility modeling. His academic journey began with +2 Science from Kanchan Vidya Mandir Samudayik College and School Leaving Certificate (S.L.C.) from Galeshwor Secondary School, Baitadi.

Professional Experience

Mahesh has over five years of multidisciplinary experience in environmental science, disaster risk reduction, and geoinformatics. He currently teaches at Far Western University and previously worked as a Field Enumerator for Nepal’s National Climate Change Survey. Additionally, he serves as a part-time Program Coordinator and GIS Specialist at the Api Saipal Development Forum and held the role of Program Officer for Environment and DRR at Lakshya Training and Research Center. He has also interned with ENPHO and NEEDS Nepal on urban resilience and waste management projects.

Research Interest

His research interests include Environmental Geoinformatics (GIS/RS/Modeling), Hydrogeochemistry, Aquatic Ecology, Wetland Conservation, Disaster Risk Management, and Climate Change. He emphasizes the application of multivariate statistical tools, digital elevation models, and hydrological modeling techniques to support data-driven environmental planning and conservation in Nepal’s fragile ecosystems. Mahesh is passionate about empowering communities and young researchers through the intersection of science, technology, and policy.

Author Metrics

Mahesh has co-authored and authored over 16 peer-reviewed publications in reputed journals such as Environmental Earth Science, Water Practice and Technology, Water, Scientific World, and Sustainable Water Resources Management. His work has been cited across multiple domains involving geospatial modeling, climate change vulnerability, hydrochemical assessment, and bioindicators. His profiles are accessible on Google Scholar, ResearchGate, and ORCID.

Awards and Honors

Mahesh has received several competitive research grants and awards for his pioneering work in environmental assessment and community-based climate adaptation. In 2022, he was awarded a thesis grant by the Ministry of Industry, Tourism, Forest and Environment, followed by principal investigator-led projects in 2023, 2024, and 2025 funded by institutions like the Nepal National Social Welfare Association and Ministry of Social Development. These grants supported impactful research on climate resilience, water vulnerability, and local adaptation strategies in Western Nepal.

Publication Top Notes

1. An Assessment of Seasonal Water Quality in Phewa Lake, Nepal, by Integrating Geochemical Indices and Statistical Techniques: A Sustainable Approach

  • Authors: R. Timalsina, S. Acharya, B. Đurin, M. P. Awasthi, R. R. Pant, G. R. Joshi, et al.

  • Journal: Water, Vol. 17(2), Article 238, 2025

  • Citations: 9

  • Summary: This study evaluates the seasonal variation in water quality of Phewa Lake using a blend of geochemical indices and statistical tools. It provides actionable insights into the lake’s ecological status, highlighting potential pollution sources and proposing sustainable water management strategies.

2. Hydro-chemical Characteristics of Biring and Tangting Rivers (Nepal) and Evaluation of Water Quality for Drinking and Irrigation Purposes

  • Authors: N. Basnet, S. Sitaula, R. Bohara, S. Bhattarai, S. Rawal, M. P. Uprety, M. P. Awasthi, et al.

  • Journal: Environmental Research, Vol. 261, Article 119697, 2024

  • Citations: 8

  • Summary: This research analyzes hydro-chemical properties of the Biring and Tangting Rivers, assessing their suitability for drinking and irrigation. It identifies key contaminants, highlights seasonal influences, and recommends interventions to ensure safe water use.

3. Evaluating the Major Sources of Surface Water Quality in Pokhara Metropolitan City, Gandaki Province, Nepal

  • Authors: S. Tiwari, B. Timalsina, S. Sitaula, M. P. Awasthi, A. Mahat, R. R. Pant

  • Journal: Himalayan Biodiversity, pp. 29–38, 2023

  • Citations: 8

  • Summary: This paper identifies and analyzes the primary anthropogenic and natural contributors to surface water pollution in Pokhara. The findings serve as a policy guide for improving urban water resource management and safeguarding biodiversity.

4. Mapping and Analyzing Temporal Variability of Spectral Indices in the Lowland Region of Far Western Nepal

  • Author: M. P. Awasthi

  • Journal: Water Practice and Technology, Vol. 18(11), pp. 2971–2988, 2023

  • Citations: 7

  • Summary: This study leverages satellite-derived spectral indices to monitor environmental variability and land cover change in Far Western Nepal. The findings emphasize the role of remote sensing in early warning systems and environmental planning.

5. Water Balance Estimation and Runoff Simulation of Chameliya Watershed, Nepal

  • Authors: J. Nepal, R. R. Pant, S. Shrestha, S. Paudel, K. Bishwakarma, M. P. Awasthi, et al.

  • Journal: Environmental Earth Sciences, Vol. 83(3), Article 117, 2024

  • Citations: 6

  • Summary: Focusing on the Chameliya Watershed, this research employs hydrological modeling to estimate water balance and simulate runoff. The outcomes aid in flood risk management, irrigation planning, and climate resilience in the Himalayan foothills.

Conclusion

Mr. Mahesh Prasad Awasthi exemplifies the ideal recipient of the Young Researcher Award in Environmental Science. His track record reflects a rare combination of academic excellence, community-oriented practice, and innovation in geospatial methods. He is already influencing environmental monitoring and climate resilience planning in Nepal, and with continued support, he is poised to make even broader regional and international contributions.

Patrick Rodrigues – Methodological approach – Best Researcher Award

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Patrick Rodrigues – Methodological approach – Best Researcher Award

Dr. Patrick Rodrigues   distinguished academic and researcher in the field Methodological Approach. Working mainly in the areas of exercise physiology, effects of passive heating on neuromuscular Function, High-Density sEMG, and recovery management.

 

🌐 Professional Profile

Educations📚📚📚

He obtained his PhD in Exercise Science from Queensland University of Technology (QUT) in 2021, under the supervision of Dr. Geoffrey Minett, Dr. Gabriel Trajano, and Dr. Lee Wharton. His doctoral research focused on thermoregulatory and neuromuscular responses to passive heating in 42°C hot-water immersion. Prior to this, he earned a Master’s Degree by Research in Physical Education with a specialization in Exercise Physiology from the Federal University of Paraná (UFPR) in 2012, where he studied the time course of changes in indirect markers of muscle damage, neuromuscular parameters, and heart rate variability following a 130-km cycling race, under the guidance of Dr. Raul Osiecki. Additionally, he completed a specialization in Exercise Physiology applied in Health at Uniguaçu University in 2009, researching the acute effect of three different warm-up protocols on maximal strength, again supervised by Dr. Raul Osiecki. He also holds a degree in Physical Education from Uniguaçu University, obtained in 2007, where his honours study, supervised by Dr. Fabiano de Macedo Salgueirosa, examined the effect of maximal isometric force following a passive stretching session.

 

Research and Competitive Grant Experience

He has been the recipient of several prestigious awards and scholarships. In 2021, he was awarded $51,373 from the Diabetes Australia Research Trust (League-FIT) and $33,000 from the Department of Foreign Affairs and Trade (New Colombo Plan). Additionally, he received a Write-Up Scholarship (WUS) from Queensland University of Technology, amounting to $4,312. In 2019, he was granted $36,500 by the Department of Education, Skills and Employment through the Endeavour Leadership Program. Furthermore, in 2017, he was honored with an International Postgraduate Research Scholarship.

Awards

He has received several notable awards throughout his academic career. In 2022, he earned the Executive Dean’s Commendation for Outstanding Doctoral Thesis from the Faculty of Health at Queensland University of Technology (QUT). In 2020, he was part of a team that won the Innovation in Curriculum Design and Pedagogy award from the Faculty of Education at QUT. Additionally, in 2019, he secured third place in the 3-Minute Thesis Contest at the Sport and Clinical Exercise Symposium hosted by the School of Exercise and Nutrition Sciences (SENS) at QUT.

Professional Experience

He has accumulated a diverse range of professional experience. From May 2023 to June 2024, he served as a University Assistant – Postdoc at the Medical University of Innsbruck, working within the Departments of Physiology and Sports Science. His primary research projects included investigating the effects of a 6-week heat acclimation intervention on exercise performance in acute hypoxia, where he acted as the principal investigator, and examining the physiological responses to different training intensities during incremental exercise as an associate investigator. Prior to this, he held a sessional academic contract at Queensland University of Technology (QUT) from 2018 to 2023, where he taught in programs related to Sport and Exercise Science, Clinical Exercise Physiology, and Health and Physical Education. He also served as a permanent lecturer in Exercise Science and Physical Education at Itajaí Valley University – UNIVALI in Brazil from February 2015 to January 2018 and as a visiting lecturer at Iguaçu Valley University Centre – UNIGUAÇU from 2010 to 2017.

 

📝🔬Publications📝🔬

1. Rodrigues, P., Orssatto, L., Hecksteden, A., Trajano, G. S., Minett, G. M. (2024). One size does not fit all:
Methodological considerations and solutions for intramuscular temperature assessment depths. Journal of
Thermal Biology.
2. Rodrigues, P., Orssatto, L., Gagnon, D., Dahhak, A., Hecksteden, A., Stewart, I. B., Minett, G. M. (2024). Passive
heat therapy: A promising preventive measure for people at risk of adverse health outcomes during heat
extremes. Journal of Applied Physiology. https://doi.org/10.1152/japplphysiol.00701.2023
3. Rodrigues, P., Trajano, G. S., Wharton, L., Orssatto, L., Minett, G. M. (2023). Hot-water immersion at 42 ºC
improves muscle contractile function and reduces motor unit discharge rate. Scandinavian Journal of Medicine &
Science in Sports. https://doi.org/10.1111/sms.14312
4. Orssatto, L. B. R., Rodrigues, P., Phillips, K. M., Blazevich, A. J., Borg, D. N., Souza, T. R., Sakugawa, R. L., Shield, A.
J., Trajano, G. S. (2023). Intrisic motor neurone excitability is increased after resistance training in older adults.
Journal of Neurophysiology. https://doi.org/10.1152/jn.00462.2022
5. Rodrigues, P., Trajano, G. S., Stewart, I., Minett, G. M. (2022). Potential role of passively increased muscle
temperature on contractile function. European Journal of Applied Physiology. 1-10.
https://doi.org/10.1007/s00421-022-04991-7
Page 3 of 4
6. Rodrigues, P., Trajano, G. S., Wharton, L., Orssatto, L., Minett, G. M. (2021). An acute increase in muscle
temperature by hot-water immersion enhances rapid force production and neuromuscular function in healthy
adults. Journal of Science and Medicine in Sport. https://doi.org/10.1016/j.jsams.2021.01.003
7. Silva, J. K. F., Sotomaior, B. B., Carneiro, C. F., Rodrigues, P., Wharton, L., Osiecki, R. (2021). Anaerobic threshold
(Dmax method) prediction by the rate of perceived exertion in young competitive male swimmers. Perceptual and
Motor Skills. https://doi.org/10.1177/00315125211005227
8. Rodrigues, P., Trajano, G. S., Wharton, L., Minett, G. M. (2020). Muscle temperature and thermoregulatory
responses to 42 °C hot-water immersion in healthy males and females. European Journal of Applied Physiology. 1-
14. https://doi.org/10.1007/s00421-020-04482-7
9. Rodrigues, P., Trajano, G. S., Wharton, L., Minett, G. M. (2020). Effects of passive heating on muscle hypertrophy
and neuromuscular function: A systematic review with meta-analysis. Journal of Thermal Biology. 102684.
https://doi.org/10.1016/j.jtherbio.2020.102684
10. Rodrigues, P., Gabellone Hernandez, S., de Macedo Salgueirosa, F., Oliveira, E., Whaton, L. & Osiecki, R. (2020).
Acute effect of three different warm-up protocols on maximal isokinetic strength in young men. Revista Andaluza
de Medicina del Desporte, 13(1): 5-9. DOI:10.33155/j.ramd.2018.02.007
11. Rodrigues, P., Correia, M. A., Whaton, L. (2019). Effect of menstrual cycle on muscle strength. Journal of Exercise
Physiology Online, 22(5), 89-97.
12. Pianezzer, L., Rodrigues, P. (2019). Comparison of morphological and cardiovascular indices among strength
training, aerobic training and competitive training. RBPFEX-Revista Brasileira de Prescrição e Fisiologia do
Exercício, 13(86), 995-1003. (paper in Portuguese)
13. Oliveira, E. C., Rodrigues, P., Salgueirosa, F. M., Seniski, G. G., Wharton, L., & Osiecki, R. (2018). Effect of ACTN3
R577X genotypes on muscle strength and power in Brazilian mixed martial arts athletes. Journal of Exercise
Physiology Online, 21(2), 202-213.
14. Rodrigues, P., de Macedo Salgueirosa, F. (2018). Effect of an active static stretching session on maximal handgrip
muscular strength production. Educacao Fisica em Revista, 12(1): 1-6.
15. Rodrigues, P., Wassmansdorf, R., Gabellone Hernandez, S., de Macedo Salgueirosa, F., Bonfim Gomes, E., Oliveira,
E., Whaton, L. & Osiecki, R. (2017). Time-course of neuromuscular parameters, muscle soreness and sympathovagal balance following a 130-km cycling race. Revista Portuguesa de Ciências do Desporto, (1).
DOI:10.5628/RPCD.17.01.13
16. de Macedo Salgueirosa, F., Rodrigues, P., Seniski, G. G., Wharton, L., & Osiecki, R. (2017). ACTN3 R577X and ACE
I/D Genotype Frequencies of Professional Soccer Players in Brazil. Journal of Exercise Physiology Online, 20(6),
129-139.
17. Rodrigues, P., Hernandez, S. G., de Macedo Salgueirosa, F., Novack, L. F., Wassmansdorf, R., Wharton, L., &
Osiecki, R. (2017). The influence of two static stretching protocols with different intensities on concentric knee
extension strength. Isokinetics and Exercise Science, 25(1), 41-46.DOI:10.3233/IES-160643
18. Rodrigues, P., Wassmansdorf, R., Salgueirosa, F. M., Hernandez, S. G., Nascimento, V. B., Daros, L. B., Wharton, L.,
& Osiecki, R. (2016). Time-course of changes in indirect markers of muscle damage responses following a 130-km
cycling race. Revista Brasileira de Cineantropometria & Desempenho Humano, 18(3), 322-331. DOI:10.5007/1980-
0037.2016v18n3p322
19. Novack, L. F., Carignano, L. F. B., Rodrigues, P., Salgueirosa, F. (2011). Comparison of the percentage of body fat
between bioelectrical impedance methods – tetrapolar vs bipolar. The FIEP Bulletin, 81(1) 286 – 288. (paper in
Portuguese)
Page 4 of 4
Abstracts published in annals of congress (summary)
1. Rodrigues, P.; Orssatto, L.; Trajano, G.; Minnet, G. The effects of increased muscle vs. core temperature on
neuromuscular function after a hot-water immersion session. Oral presentation. European College of Sport
Science, ECSS 2023.
2. Blazevich, A.; Mackay, K.; Orssatto, L.; Rodrigues, P.; Rosa, T.; Shield, A.; Trajano, G. Increased functional capacity,
power, and maximal strength following short-term power and plyometric training in older adults. Journal of
Science and Medicine in Sport. 2021. v.24. p. s26
3. Rodrigues, P.; Minnet, G.; Trajano, G. S.; Wharton, L. Muscle temperature kinetics and thermoregulatory
responses to 42 °C hot-water immersion in healthy males and females. ESSA Sports Science Twitter Conference
2020.
4. Minnet, G.; Rodrigues, P.; Trajano, G. S.; Wharton, L. Effects of passive heating intervention on muscle
hypertrophy and neuromuscular function: A preliminary Systematic Review with Meta-analysis. ESSA Sports
Science Twitter Conference 2020.
5. Rodrigues, P.; Hernandez, S. G.; Salgueirosa, F. M.; Novack, L. F.; Borges, P. T.; Wassmansdorf, R.; Oliveira, E.;
Osiecki, R. Maximal voluntary contraction response after three different types of warm-up. (Abstract in
Portuguese).
In: 22° Congresso Brasileiro de Medicina do Esporte, 2010, Curitiba.
Revista Brasileira de Medicina do Esporte. 2010. v.16. p.13.
6. Rodrigues, P.; Hernandez, S. G.; Salgueirosa, F. M.; Novack, L. F.; Borges, P. T.; Wassmansdorf, R.; Oliveira, E.;
Osiecki, R. The influence of two static stretching protocols with different intensities on concentric knee extension
strength. (Abstract in Portuguese).
In: 33° Simpósio Internacional de Ciências do Esporte, 2010, São Paulo.
Revista Brasileira de Ciência e Movimento. 2010. p.96
7. Rodrigues, P.; Salgueirosa, F. M. The effect of stretching on maximal force production. (Abstract in Portuguese).
In: Celafiscs, 2008, São Paulo. XXXI Simpósio Internacional de Ciências do Esporte. 2008.

Jianxiao Wang – Data Science – Best Researcher Award

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 Dr. Jianxiao Wang  distinguished academic and researcher in the Data Science and Smart Grid. He is currently an Assistant Professor at the National Engineering Laboratory For Big Data Analysis and Applications, Peking University, and a Distinguished Researcher at the PKU-Changsha Institute for Computing and Digital Economy. He obtained Bachelor’s degrees in Engineering and Economics from Tsinghua University in 2014, and completed his Ph.D. in Electrical Engineering from Tsinghua University in 2019. From 2016 to 2017, he served as a visiting researcher at Stanford University and the University of California, Berkeley. From 2019 to 2020, he worked as a project leader at the Ministry of Science and Technology of the People’s Republic of China, contributing to the 14th Five-Year Plan for High Tech Development in the field of energy and transportation, and conducting research on the 2035 National Science and Technology Development Strategy in China.

His research interests revolve around data-driven decision making for energy storage and renewable power systems, focusing on evaluating the levelized cost and designing national low-carbon pathways for emerging technologies such as AIGC, roadside photovoltaics, electric and fuel cell vehicles, power-to-hydrogen, green ammonia chemical industry, and carbon capture and storage utilization. As the first or corresponding author, he has published 1 paper in Nature Sustainability, 2 papers in Nature Communications, 1 paper in Cell The Innovation, 1 paper in Cell Patterns, and 2 papers in Cell iScience. Additionally, he has authored 99 papers published in top journals and conferences, including two 0.1% ESI Hot Paper, two 1% ESI Highly Cited Paper, and four IEEE Conference Best Paper Awards. He has applied for 35 China Invention Patents and 2 US Patents. Furthermore, he has published one Springer monograph as the first author, one IEEE Press monograph as a contributing author, and coauthored three Chinese monographs. The research article in Nature Sustainability was selected as a cover paper candidate and received an official report from Johns Hopkins University. As of August 2023, the research article in Nature Communications has been accessed over 10,000 times and cited 147 times, selected as a 0.1% ESI Hot Paper and officially reported by People’s Daily.

🌐 Professional Profiles

Educations📚📚📚

He pursued his academic journey at Tsinghua University, where he completed his Bachelor’s degrees in Electrical Engineering from the Department of Electrical Engineering and Economics from the School of Economics and Management from August 2010 to July 2014. Subsequently, he continued his academic pursuit at Tsinghua University, specializing in Electrical Engineering, where he earned his Ph.D. from the Department of Electrical Engineering from August 2014 to January 2019. During his Ph.D., he achieved a GPA of 92.8, ranking 2nd out of 55 students. His outstanding performance led to his recognition as an Outstanding Doctoral Graduate and his dissertation being acknowledged as one of the top 2% at Tsinghua University. Additionally, he was awarded the Tsinghua University President Jiang Nanxiang Scholarship, a prestigious honor bestowed upon 10 Ph.D. students annually.

As part of his academic journey, he expanded his horizons through visiting researcher positions at renowned institutions. From April 2017 to December 2017, he conducted research as a visiting researcher at the University of California, Berkeley. Prior to this, from November 2016 to December 2017, he engaged in research activities as a visiting researcher at Stanford University. Furthermore, he broadened his research experience with a visiting researcher position at Texas A&M University from July 2013 to September 2013.

Research Experience

He has been serving as an Assistant Professor at the National Engineering Laboratory for Big Data Analysis and Applications at Peking University since June 2022. Concurrently, he holds the position of Distinguished Researcher at the PKU-Changsha Institute for Computing and Digital Economy. Prior to his current roles, from October 2019 to September 2020, he worked as a Project Manager at the Ministry of Science and Technology of the People’s Republic of China. Additionally, he gained valuable experience as a Lecturer at North China Electric Power University from June 2019 to May 2022.

He has received numerous accolades and awards for his outstanding contributions to science, technology, and innovation. In 2023, he was honored with the Second Prize of the Science and Technology Progress Award from the China Electrotechnical Society for his work on “Transmission and Distribution Network Coordinated Control Technology and Applications Under High Distributed Energy Penetration.” Additionally, he received the Second Prize of the Power Innovation Award from the China Electric Power Union for his achievements in “Technology and Application for Data Value-driven Hierarchical Scheduling of Renewable Power Systems.” He was also recognized with the Wu Wen-Jun Artificial Intelligence Outstanding Youth Award by the Chinese Association for Artificial Intelligence for his research on “Physics-informed Data Driven Theory for Smart Grid Operation.” Furthermore, he was selected for the Wiley Open Science Excellent Author Program.

In 2022, he was honored with the Young Scientist Award by the Ministry of Science and Technology of China. He has also been recognized under the Young Elite Scientist Sponsorship Program by the China Association for Science and Technology for his work on “Smart City Energy System Operation Considering Adaptive Consistency Control of Water Electrolysis.” He received a Gold Medal at the Geneva International Exhibition of Inventions for his contribution to “Edge-intelligence Control Technology and System of Solar+Storage Powered Microgrid.” Additionally, his paper titled “Defending Against Adversarial Attacks by Energy Storage Facility” earned the IEEE PES General Meeting Best Paper Award.

He has been recognized for his exceptional service and expertise, receiving the IEEE Transactions on Sustainable Energy Excellent Reviewer Award multiple times. He was also listed in the Forbes China 30 Under 30 Elite List and acknowledged as one of the Outstanding Young Science and Technology Talents by the China Renewable Energy Society. In 2020, he was honored as one of the Beijing Outstanding Young Talents and recognized for his contributions to energy science and technology by the China Energy Research Association. Furthermore, his innovative work on “Renewable Energy-Dominated Virtual Power Plant” secured a place in the top 10 of the Elsevier Renewable Transformation Challenge. He has also been acknowledged with various awards for his inventions and innovations, including the Silver Award at the Beijing Invention and Innovation Competition and the Gold Award at the China Invention Exhibition. Additionally, he has been recognized as a Youth Of China’s High-End Technology Innovation Think Tank for his contributions to the technological development and environmental governance benefits of China’s photovoltaic and energy storage industry.

Monograph

He has authored several publications across various domains, showcasing his expertise and contributions to the field. As the first author, he collaborated with colleagues on the book “Sharing Economy in Energy Markets: Modeling, Analysis and Mechanism Design,” published by Springer in 2022. Additionally, he authored chapters 28-30 in the book “Microgrids: Theory and Practice,” published by IEEE Press in 2023.

Furthermore, he has contributed to monographs in different capacities. In the book “Introduction to the Electricity Spot Market: Trading Strategy and Profit Model for Information Driven Growth,” published by Mechanical Industry Press in 2021, he co-authored chapters 2, 4, and 6. Additionally, he was part of the team contributing to chapter 7 in “2060 China Carbon Neutrality,” published by Chemical Industry Press in 2022. He also co-authored chapters 1 and 2 in “Introduction to New-type Power Systems,” published by the China Association for Science and Technology Carbon Peak and Carbon Neutrality Series in 2022.

Representative Academic Service

He has been recognized for his exemplary contributions and leadership in various professional capacities. In 2023, he served as the Youth Editor for Cell The Innovation, a prestigious role reflecting his expertise in the field, with the journal boasting an Impact Factor of 32.1. He was also appointed as a National Graduate Education Evaluation and Monitoring Expert by the Ministry of Education, showcasing his commitment to education excellence.

In 2022, he was honored as a Distinguished Researcher under the Beijing “Thousands of People Entering Thousands of Enterprises” program, highlighting his significant contributions to research and innovation. He was also recognized as a National Excellent Educator in the National Simulation Innovation Application Competition and appointed as an Instructor by the IEEE Industry Applications Society (IAS) at Peking University. Additionally, he received accolades as an Excellent Editor from the IET Energy Conversion and Economics.

In 2021, he was appointed as an Executive Member of the IEEE Power and Energy Society (PES) China, underscoring his leadership and expertise in the field. He also served as a Youth Working Committee Member of the 9th Council of the Chinese Electrotechnical Society, demonstrating his active involvement in professional organizations.

In 2020, he was recognized as an expert in the 6th National Technology Prediction by the Ministry of Science and Technology of China, further acknowledging his expertise and contributions to technology development. Additionally, he joined the Editorial Board of IET Renewable Power Generation, contributing his insights to the publication.

From 2019 to 2022, he chaired panel sessions at the IEEE PES General Meeting, showcasing his leadership and expertise in the field. Through these diverse roles and responsibilities, he has demonstrated his commitment to advancing research, education, and innovation in his field.

Representative Research Project

He has undertaken numerous significant research projects as the primary investigator, showcasing his leadership and expertise in the field. From November 2022 to October 2025, he leads the National Key R&D Plan project titled “Resilience Enhancement Technology for Large Urban Power Grids Amidst Extreme Events,” with a funding of 4.5 million Chinese yuan. Similarly, from January 2023 to December 2026, he is leading a project funded by the National Natural Science Foundation of China titled “Renewable-dominated Power System Flexible Ramping Operation Considering Consistency Control of Water Electrolysis Multiphysics,” with a grant of 540 thousand Chinese yuan.

In previous years, he has led various other research projects funded by prestigious organizations such as the National Natural Science Foundation of China and the State Grid Corporation of China. These projects cover a wide range of topics including virtual power plant market operation, energy systems integration, self-sustained energy systems for highways, and collaborative regulation technology for large-scale energy storage clusters. Through his involvement in these projects, he has made significant contributions to advancing research and innovation in the energy sector.

📝🔬Publications📝🔬

1 Jianxiao Wang#, Liudong Chen#, Zhenfei Tan, Ershun Du, Nian Liu, Jing Ma, Mingyang Sun, Canbing Li, Jie Song,
Xi Lu*, Chin-Woo Tan*, Guannan He*. Inherent spatiotemporal uncertainty of renewable power in China. Nature
Communications, 2023, 14: 5379.
2 Yang Yu#, Jianxiao Wang#, Qixin Chen, Johannes Urpelainen, Qingguo Ding, Shuo Liu, Bing Zhang*.
Decarbonization efforts hindered by China’s slow progress on electricity market reforms. Nature Sustainability.
2023, 6, 1006-1015.
Special Comments from Johns Hopkins University:

China’s Sluggish Electricity Market Reforms Impede Decarbonization Efforts


Representative Publications
3 Jianxiao Wang#, Haiwang Zhong*, Zhifang Yang, Mu Wang, Daniel M Kammen*, Zhu Liu, Ziming Ma, Qing Xia
and Chongqing Kang. Exploring the trade-offs between electric heating policy and carbon mitigation in China,
Nature Communications, 2020, 11: 6054. (0.1% ESI Hot Paper) https://doi.org/10.1038/s41467-020-19854-y
Special Comments from People’s Daily and Tsinghua University News:
https://www.tsinghua.edu.cn/info/1175/21483.ht

4 Jianxiao Wang#, Feng Gao#, Yangze Zhou, Qinglai Guo, Chin-Woo Tan, Jie Song, Yi Wang*. Data sharing in energy
systems. Advances in Applied Energy, 2023, 10: 100132.
AEii International Applied Energy and EnergyVision Youth Scientists Forum Report:
https://mp.weixin.qq.com/s/9FyaH55gpaKFirXhlrboGg
5 Jianxiao Wang#, Haiwang Zhong*, Zhifang Yang, Xiaowen Lai, Qing Xia, Chongqing Kang. Incentive mechanism
for clearing energy and reserve markets in multi-area power systems. IEEE Transactions on Sustainable Energy, 2020,
11(4): 2470 – 2482.
6 Jianxiao Wang#, Junjie Qin, Haiwang Zhong*, Ram Rajagopal, Qing Xia, Chongqing Kang. Reliability value of
distributed solar+storage systems amidst rare weather events. IEEE Transactions on Smart Grid, 2019, 10(4): 4476 –
4486.
7 Jianxiao Wang#, Haiwang Zhong*, Xiaowen Lai, Qing Xia, Yang Wang, Chongqing Kang. Exploring key weather
factors from analytical modeling toward improved solar power forecasting. IEEE Transactions on Smart Grid, 2019,
10(2): 1417-1427.
8 Jianxiao Wang#, Haiwang Zhong, Qing Xia*, Chongqing Kang. Optimal planning strategy for distributed energy
resources considering structural transmission cost allocation. IEEE Transactions on Smart Grid, 2018, 9(5):
5236-5248.
9 Jianxiao Wang#, Haiwang Zhong, Chin-Woo Tan, Xiao Chen, Ram Rajagopal, Qing Xia*, Chongqing Kang.
Economic benefits of integrating solar-powered heat pumps in a CHP system. IEEE Transactions on Sustainable
Energy, 2018, 9(4): 1702-1712.
10 Jianxiao Wang#, Haiwang Zhong, Ziming Ma, Qing Xia*, Chongqing Kang. Review and prospect of integrated.

Zekun Li – Graphic analysis

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Dr. Zekun Li  – Leading Researcher in Graphic analysis

Dr. Zekun Li a distinguished academic and researcher in the field of Graphic analysis,His academic journey began with a Bachelor of Science degree in Optoelectronic Information Science and Engineering (OSE) at Xi’an University of Posts and Telecommunications (XUPT), Shaanxi, China, where he completed his undergraduate studies from 2014 to 2018. 📚

Education📚

He is currently a Ph.D. student in Instrument Science and Technology (IST) at Xidian University, Shaanxi, China, with an expected completion date in March 2024. Prior to his doctoral studies, he pursued a master’s degree in Aerospace Engineering (AE) at Xidian University from 2018 to 2020, following a combined Master and Ph.D. program.

Professional Profiles:

 Research interests 

  • Fast 2D Shape Recognition, Fast 3D Shape Recognition, Deep
    Learning, Constrain Reduction of Feature Structure

Honors and awards

He has demonstrated exceptional academic and innovative achievements throughout his educational journey. Achieving the First Prize in ‘The Second National College Internet of Things Technology and Application ‘Three Creation’ Competition’ highlights his prowess in IoT technology. As an Excellent Student at Xi’an University of Posts and Telecommunications, he received recognition for his outstanding performance. Winning the First Prize in the 14th China Postgraduate Electronic Design Contest for the Northwest Region further underscores his excellence in electronic design. Additionally, his contribution to the development of a Rugged Terrain Measurement System based on Beidou earned him the Third Prize in the Postgraduate Group. Acknowledged as an Outstanding Graduate Student at Xidian University, he has consistently received academic scholarships every year since 2014, showcasing his sustained commitment to scholarly excellence. 🏆🎓

Patent
• Baolong Guo, Li, Zekun, Wenqiang Mo, et al., A shape description and retrieval
method based on the vertical inner-distance ratio of minimum bounding rectangle
(Publicly available)
• Baolong Guo, Li, Zekun, Chao Wang, et al., An intelligent scene perception
defense device and method based on multi-source information fusion (Publicly
available)
• Chao Wang, Baolong Guo, Li, Zekun, et al., A frequency domain sparse signal
transmission and reception system implementation method based on IFFT (Publicly available)
• Chao Wang, Baolong Guo, Li, Zekun, et al., A garbage image classification
method based on transfer learning (Publicly available)

Published