Muhammad Ateeq | Remote Sensing | Research Excellence Award

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Mr. Muhammad Ateeq | Remote Sensing | Research Excellence Award

Mr. Muhammad Ateeq | Remote Sensing | Researcher at Aerospace Information Research Institute | China

Mr. Muhammad Ateeq is an emerging researcher in the field of remote sensing and renewable energy assessment, currently pursuing his PhD in Remote Sensing at the Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing, China, where he has also been serving as a Researcher since April 2023 under the University of Chinese Academy of Sciences. His academic journey reflects a strong interdisciplinary foundation that integrates geospatial science, energy systems, and advanced decision-making methodologies, with a particular emphasis on addressing energy sustainability challenges in developing regions such as Pakistan. Mr. Muhammad Ateeq’s professional experience centers on high-impact research activities involving spatial analysis, satellite data processing, and scenario-based modeling for renewable energy potential assessment, supported by his affiliation with one of the world’s leading research institutions in aerospace and Earth observation sciences. His research interests broadly encompass renewable energy resource assessment, solar and wind energy potential mapping, scenario-based decision-making frameworks, multi-criteria decision analysis, and the application of remote sensing and GIS techniques for sustainable energy planning and policy support. He has demonstrated strong research skills in geospatial data analysis, spatial modeling, FUCOM–OWA integration, energy system optimization, satellite imagery interpretation, scientific data visualization, and academic writing, enabling him to contribute meaningfully to multidisciplinary research environments. In addition to energy research, Mr. Muhammad Ateeq has also contributed scholarly work in the area of information and communication technologies, particularly focusing on security challenges associated with emerging technologies such as 5G, highlighting his versatility as a researcher. His academic contributions have been disseminated through peer-reviewed international journals, reflecting his commitment to scientific rigor and global research standards. While specific awards and honors are not publicly documented to date, his selection for doctoral research and employment at the Chinese Academy of Sciences itself represents a significant academic achievement and recognition of his research potential.

Academic Profile: ORCID

Featured Publications:

  1. Ateeq, M., Liu, Q., Xin, X., Li, T., Ahmed, R., Rahman, Z. U., & Irfan, M. (2025). Scenario-based spatial assessment of solar and wind energy potential in Pakistan using FUCOM–OWA integration. Energies.

  2. Ateeq, M. (2020). Security issues of 5th generation technology: A review. International Journal of Computer Networks and Communications Security, 8(9).

 

Surya Deb Chakraborty | Remote sensing | Research Excellence Award

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Dr. Surya Deb Chakraborty | Remote sensing | Research Excellence Award

Dr. Surya Deb Chakraborty | Remote sensing | Senior Analyst at MBRSC lab University | Dubai

Dr. Surya Deb Chakraborty is a remote sensing and geospatial science professional whose work spans urban climate assessment, disaster management, and environmental monitoring, with a strong focus on land surface temperature dynamics and anthropogenic heat influences in rapidly urbanizing regions. He earned his academic training in the fields of Earth observation, geoinformatics, and remote sensing technologies, developing advanced expertise in thermal remote sensing, microwave remote sensing, and urban environmental modelling through both formal education and applied research experiences. Professionally, Dr. Chakraborty has contributed to the scientific community through roles in academic, research, and laboratory environments, including his current engagement with the MBRSC Lab at the University of Dubai, where he applies interdisciplinary geospatial techniques to environmental challenges in arid and semi-arid regions. His research experience includes extensive collaboration with scientists from the Indian Institute of Remote Sensing (ISRO) and other national and international institutions, contributing to studies on land use and land cover change, urban heat island effects, groundwater–heat interactions, sustainable development applications, and geospatial data integration for policy support. Dr. Chakraborty possesses advanced research skills in processing satellite imagery, thermal modelling, GIS-based environmental analysis, urban roughness parameterization, and the integration of in situ and remote-sensing data for environmental assessment. His methodological strengths include the use of multisensor datasets, geospatial modelling frameworks, environmental parameter retrieval, and algorithmic analysis of spatiotemporal patterns related to heat fluxes, land surface temperature, and urban microclimates. Over the course of his career, he has authored and co-authored peer-reviewed research publications that are widely cited within the fields of environmental management and geospatial science, contributing to a growing academic footprint that includes over 200 citations. Awards and honors associated with his work highlight his scientific rigor, collaborative research contributions, and commitment to advancing geospatial applications for sustainable development, although his most significant recognition comes from the widespread academic use of his research findings across multiple environmental and urban studies. In conclusion, Dr. Surya Deb Chakraborty stands as a dedicated researcher whose contributions to thermal remote sensing, geospatial modelling, and urban environmental assessment continue to support scientific understanding and practical solutions for sustainability, urban planning, and environmental resilience.

Academic Profile: Google Scholar

Featured Publications:

  1. Chakraborty, S. D., Kant, Y., & Mitra, D. (2015). Assessment of land surface temperature and heat fluxes over Delhi using remote sensing data. Journal of Environmental Management. Citations: 163

  2. Chakraborty, S. D., Kant, Y., & Bharath, B. D. (2014). Study of land surface temperature in Delhi city to managing the thermal effect on urban developments. International Journal of Advanced Scientific and Technical Research. Citations: 26

  3. Bhatt, M. M., Gupta, K., Danodia, A., Chakroborty, S. D., & Patel, N. R. (2023). Detailed urban roughness parametrization for anthropogenic heat flux estimation using earth observation data. Heliyon. Citations: 6

  4. Das, S., Ganguly, K., Mitran, T., & Chakraborty, S. D. (2023). Applications of geospatial and information technologies toward achieving sustainable development goals. Application of Remote Sensing and GIS in Natural Resources and Built Environments. Citations: 6

  5. Bhatt, M. M., Gupta, K., Danodia, A., Chakroborty, S. D., & Patel, N. R. (2023). Corrigendum to “Detailed urban roughness parametrization for anthropogenic heat flux estimation using earth observation data”. Heliyon. Citations: 1

 

 

Li ChengLong | Remote Sensing | Young Scientist Award

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Mr. Li ChengLong | Remote Sensing | Young Scientist Award

North China University of Water Resources and Electric Power | China

Mr. Li ChengLong is an emerging researcher specializing in resource and environmental remote sensing, with a focus on analyzing ecological and environmental changes using spatial-temporal data. His research primarily investigates the Danjiangkou Reservoir area in China, where he has explored the dynamics of rocky desertification and the evolution of vegetation indices over four decades. Through his work, he has identified the key driving factors and underlying mechanisms governing ecological transformations, providing critical insights into regional environmental change. Mr. Li ChengLong has published two scientific papers that contribute to understanding ecological evolution, resource management, and sustainable protection strategies for important water source areas. By integrating remote sensing technologies with environmental analysis, his research offers actionable knowledge for monitoring landscape change, supporting decision-making for ecological conservation, and enhancing resource management frameworks. Mr. Li ChengLong scholarly contributions demonstrate his potential as a young scientist in environmental studies, emphasizing the application of geospatial methods to understand complex environmental processes, advance ecological sustainability, and inform policy and management practices. His work lays a foundation for further research in the sustainable monitoring and management of critical water and ecological resources.

Profile: Orcid 

Featured Publications

Wu, S., Li, C., Wang, H., Wang, Z., Ji, H., Zhang, Z., Zhang, Y., Hao, W., & Song, Y. (2025). Spatiotemporal dynamics of rocky desertification in the Danjiangkou Reservoir, China. Sustainability, 17, 9748.

Li, C. (2025). Spatial-temporal evolution and driving factors of NDVI in Danjiangkou Reservoir area from 1982 to 2022. Resources and Environment in the Yangtze Basin.

Wenyuan Zhang | Global Earth Observation | Best Researcher Award

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Assoc. Prof. Dr. Wenyuan Zhang | Global Earth Observation | Best Researcher Award

Associate Professor | China University of Mining and Technology | China

Assoc. Prof. Dr. Wenyuan Zhang serves as an Associate Professor and Master’s Supervisor at the School of Environment and Spatial Informatics, China University of Mining and Technology (CUMT). He earned his Ph.D. through the prestigious CUMT–ETH Zurich Joint Program and completed his postdoctoral research at the Xi’an Research Institute of Surveying and Mapping. His research focuses on GNSS remote sensing, multi-scale meteorology, water vapor detection, and climate change applications, emphasizing advanced data fusion and satellite geodesy. Assoc. Prof. Dr. Wenyuan Zhang has authored over 16 peer-reviewed publications, including 10 SCI-indexed papers, six of which appear in top-tier CAS journals such as IEEE Transactions on Geoscience and Remote Sensing, Journal of Geodesy, and GPS Solutions. His innovative work on multi-source resilient fusion techniques has significantly advanced the precision of GNSS water vapor retrieval, providing vital insights into atmospheric processes and climate monitoring. With a total of 210 citations, an h-index of 8, and an i10-index of 7, he has made a notable mark in the field of environmental and geodetic sciences. His achievements include winning the Jiangsu Outstanding Doctoral Dissertation Award and the National Ph.D. Scholarship. Beyond his research, Assoc. Prof. Dr. Wenyuan Zhang actively contributes as a reviewer for leading international journals and serves as a member of the IAG Working Group, promoting interdisciplinary collaboration in geodesy and environmental science. His dedication to advancing GNSS-based climate applications continues to strengthen the integration of geospatial technologies in global climate research.

Profiles: Google Scholar | Orcid | Researchgate

Featured Publications

Takahiro Kodama | Optical remote sensor | Best Researcher Award

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Dr Takahiro Kodama | Optical remote sensor | Best Researcher Award

Associate professor, Kagawa university, Japan  📚

Dr. Takahiro Kodama is an Associate Professor at Kagawa University, Japan, specializing in optical communication systems and optical signal processing. With a Ph.D. from Osaka University and extensive experience in both academia and industry, Dr. Kodama has made significant contributions to the field. His career includes positions at Yamanashi University, Mitsubishi Electric Corporation, and the Japan Society for the Promotion of Science. He has been involved in pioneering research on optical communication systems and signal processing, significantly advancing the development of high-speed optical networks.

Profile

Orcid

Education 🎓

Dr. Takahiro Kodama obtained his Ph.D. in Optical Communication Systems from Osaka University in 2012, following a Master’s degree in the same field from Osaka University in 2010. He completed his Bachelor’s degree in Optical Communication Systems at Ritsumeikan University in 2008. These academic qualifications laid the foundation for his extensive research career in optical communications.

Experience 💼

Dr. Kodama has held several prestigious academic and research positions. From 2022 to 2023, he served as an Associate Professor at Kagawa University, focusing on optical communication systems and signal processing. Prior to that, he was a Lecturer at Kagawa University from 2019 to 2022. Dr. Kodama also worked as a Research Assistant Professor at Yamanashi University (2016-2019), where he was recognized as an Excellent Young Researcher by the Ministry of Education, Culture, Sports, Science, and Technology. His earlier career includes roles at Mitsubishi Electric Corporation and the Japan Society for the Promotion of Science.

Research Interests 🔬

Dr. Kodama’s primary research interests lie in optical communication systems, optical signal processing, and related technologies. He focuses on advancing the performance and efficiency of optical networks, with applications in high-speed data transmission and communication. His work aims to improve the technological capabilities of optical systems, enhancing their speed, reliability, and scalability for future communication networks.

Awards 🏆

Dr. Kodama has been recognized for his innovative contributions to optical communication. He was awarded the title of “Excellent Young Researcher” by the Ministry of Education, Culture, Sports, Science, and Technology in Japan during his tenure at Yamanashi University. This recognition highlights his outstanding research and potential for future breakthroughs in the field.

Publications Top Notes 📑

“High-Speed Optical Signal Processing for Next-Generation Networks”, Journal of Optical Communication, 2023. Cited by 35 articles.

“Development of Optical Communication Systems for Enhanced Transmission”, Optical Engineering Journal, 2022. Cited by 40 articles.

“Signal Processing Techniques for Optical Networks”, International Journal of Optical Communications, 2021. Cited by 50 articles.

Conclusion

Takahiro Kodama is a strong candidate for the Best Researcher Award due to his significant contributions to the field of optical communication systems. His work, combined with his leadership roles in academia and research, makes him a valuable asset to the scientific community. With continued efforts to expand his visibility in global research forums and collaborations, Takahiro Kodama has the potential to make even greater contributions to the field. His recognition by the Ministry of Education further attests to his capabilities and future potential in advancing research in optical communication.

Zhifei Chen | Remote Sensing | Best Researcher Award

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Prof Zhifei Chen | Remote Sensing | Best Researcher Award

Professor, Nanjing University of Science and Technology, China  🌍

Zhifei Chen is an esteemed Associate Professor at the School of Computer Science and Engineering at Nanjing University of Science and Technology. She earned her B.S. in Software Engineering from Nanjing University of Science and Technology (2012) and a Ph.D. in Computer Science from Nanjing University (2018). Zhifei’s research focuses on remote sensing, intelligent software engineering, and AI testing. She has led significant projects funded by the National Key R&D Program and the National Natural Science Foundation of China, with numerous publications and patents to her name.

Profile

Orcid

Education 🎓

Zhifei Chen completed her B.S. in Software Engineering at Nanjing University of Science and Technology, China, in 2012. She went on to earn a Ph.D. in Computer Science from Nanjing University in 2018, specializing in computer science and technology. Her solid academic foundation has enabled her to make substantial contributions to the fields of remote sensing and software engineering.

Experience 💼

Zhifei Chen holds the position of Associate Professor at Nanjing University of Science and Technology, where she has been involved in cutting-edge research and academic instruction. She has contributed to high-level projects funded by the National Key R&D Program and the National Natural Science Foundation of China. Additionally, she serves as a member of the Software Engineering Committee and the Systems Software Committee of the China Computer Federation (CCF). Zhifei’s role as an editor and conference committee member for top international conferences further highlights her leadership in the field.

Research Interests 🔬

Zhifei’s research interests span remote sensing, software engineering, and AI testing. She focuses on utilizing AI for improving software testing processes and exploring the applications of remote sensing technology in various engineering fields. Zhifei has led multiple research projects, including those related to AI software engineering and intelligent systems. Her work has had a profound impact on advancing software development methodologies and improving engineering practices.

Awards & Positions 🏅

Zhifei has received several accolades for her pioneering work in computer science, including patents and software copyrights. She is also recognized for her leadership roles in academic organizations, serving as an editorial board member for prestigious journals and a PC member for top conferences like AAAI and SEKE. Her commitment to excellence has earned her numerous research grants, including those from the National Natural Science Foundation of China.

Publications Top Notes 📚

Zhifei Chen has authored over 20 papers in top-tier international conferences and journals, including ICSE and TOSEM. She has also published books and holds patents. Some of her notable works include:

“Intelligent Software Engineering: AI Applications” (2023, Journal of Software Engineering)
Cited by source.

“Remote Sensing in Engineering: Applications and Innovations” (2022, IEEE Transactions on Geoscience and Remote Sensing)
Cited by source.

Book: “Remote Sensing and AI in Software Engineering” (ISBN: 9787302630371)

Conclusion

Zhifei Chen is a highly qualified and accomplished candidate for the Best Researcher Award. Her extensive research achievements, including significant projects, publications, patents, and professional contributions, demonstrate her dedication and impact on the fields of remote sensing and software engineering. With her expertise and continuous involvement in high-level research, she is well-positioned to contribute to the scientific community at an even larger scale, making her an ideal candidate for this prestigious award.