Yue Zhang | Remote Sensing Technology | Research Excellence Award

Published on by MTE Awards

Dr. Yue Zhang | Remote Sensing Technology | Research Excellence Award

Postdoctoral Fellow at Regional Centre for Space Science and Technology Education in Asia and the Pacific(China) | China

Dr. Yue Zhang is a rapidly emerging researcher whose work spans machine learning, remote sensing, hydrological forecasting, and environmental monitoring systems, producing a research portfolio with 168 citations, an h-index of 7, and 6 i10-index publications that reflect consistent and meaningful scientific impact. His research focuses on developing advanced hybrid deep-learning architectures-including LSTM, GRU, ConvLSTM, CNN-LSTM, STA-GRU, and physics-informed transformer networks-to improve the reliability and interpretability of streamflow, flood, water-level, and dissolved-oxygen forecasting, using multistation real-time datasets and temporal–spatial data linkages for enhanced predictive accuracy. He has significantly contributed to remote sensing applications by integrating GNSS-R signals, spatiotemporal attention models, and soft physical constraints to advance marine foreign-object monitoring, wind-speed retrieval, and seawater-intrusion early-warning systems. His work further includes innovations in GIS-enabled environmental intelligence platforms, real-time disturbance-response modelling, and image-level early-warning mechanisms for complex marine scenarios. His publication record spans reputable journals such as Water, Intelligence and Robotics, and Remote Sensing, covering topics including intelligent flood forecasting, lake water-quality management, deep-learning approaches for environmental and agricultural monitoring, and hybrid modelling methods for large-scale hydrological systems. Through interdisciplinary collaboration, contributions to international research initiatives, and development of system-integrated monitoring frameworks, Yue Zhang continuously advances the state of the art in environmental data science, demonstrating clear leadership potential and strong alignment with the goals of high-impact research recognition.

Profile : Google Scholar

Featured Publications

Deng, Y., Zhang, Y., Pan, D., Yang, S. X., & Gharabaghi, B. (2024). Review of recent advances in remote sensing and machine learning methods for lake water quality management. Remote Sensing, 16(22), 4196. Cited by: 53

Zhang, Y., Zhou, Z., Van Griensven Thé, J., Yang, S. X., & Gharabaghi, B. (2023). Flood forecasting using hybrid LSTM and GRU models with lag time preprocessing. Water, 15(22), 3982. Cited by: 36

Zhang, Y., Gu, Z., Van Griensven Thé, J., Yang, S. X., & Gharabaghi, B. (2022). The discharge forecasting of multiple monitoring stations for Humber River by hybrid LSTM models. Water, 14(11), 1794. Cited by: 36

Zhou, Z., Zhang, Y., Gu, Z., & Yang, S. X. (2023). Deep learning approaches for object recognition in plant diseases: A review. Intelligence and Robotics, 3(4), 514–537. Cited by: 12

Zhang, Y., Pan, D., Van Griensven Thé, J., Yang, S. X., & Gharabaghi, B. (2023). Intelligent flood forecasting and warning: A survey. Intelligence and Robotics, 3(2), 190–212. Cited by: 12

 

Gajanan Dattarao Surywanshi | Life Cycle Assessment | Editorial Board Member

Published on by MTE Awards

Dr. Gajanan Dattarao Surywanshi | Life Cycle Assessment | Editorial Board Member

Researcher at Research Institute of Sweden | Sweden

Dr. Gajanan Dattarao Surywanshi is an accomplished researcher with strong expertise in advanced process simulations, chemical-looping combustion, carbon capture, negative-emission technologies, and thermochemical energy systems. His research integrates Aspen Plus modeling, techno-economic assessment, and life cycle analysis to develop energy-efficient and environmentally sustainable solutions for next-generation power, heat, and fuel production. With a proven publication record reflected in 245 citations, 12 Scopus-indexed documents, and an h-index of 9, he has consistently contributed impactful work to high-quality journals including Applied Energy, Energy Technology, Fuel Processing Technology, and the Journal of Environmental Chemical Engineering. His contributions encompass modeling of chemical-looping combustion plants, CO₂ utilization pathways, multigeneration systems, and biogenic residue gasification, addressing global priorities in clean energy and carbon-negative technologies. Beyond publications, his involvement in collaborative EU-funded and industrial research projects demonstrates his strong capacity for interdisciplinary teamwork and scientific leadership. His patented innovation-a multiphase continuous-flow microreactor for process intensification-highlights his ability to translate research insights into practical engineering advancements. With experience in supervising students, conducting complex simulations, and executing full-cycle research activities from conceptualization to evaluation, he brings a comprehensive understanding of both scientific depth and practical relevance. His balanced academic rigor, analytical strength, and proven research impact make him highly suitable for an Editorial Board Member role, where his ability to critically evaluate manuscripts, identify emerging research trends, and uphold high scholarly standards would significantly contribute to the advancement of scientific publishing.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Surywanshi, G. D., Pillai, B. B. K., Patnaikuni, V. S., Vooradi, R., & Anne, S. B. (2019). 4-E analyses of chemical looping combustion based subcritical, supercritical and ultra-supercritical coal-fired power plants. Energy Conversion and Management. Cited by: 60

Sikarwar, S. S., Surywanshi, G. D., Patnaikuni, V. S., & others. (2020). Chemical looping combustion integrated Organic Rankine Cycled biomass-fired power plant – Energy and exergy analyses. Renewable Energy. Cited by: 55

Pillai, B. B. K., Surywanshi, G. D., Patnaikuni, V. S., Anne, S. B., & Vooradi, R. (2019). Performance analysis of a double calcium looping-integrated biomass-fired power plant: Exploring a carbon reduction opportunity. International Journal of Energy Research. Cited by: 33

Surywanshi, G. D., Patnaikuni, V. S., Vooradi, R., & Anne, S. B. (2021). 4-E and life cycle analyses of a supercritical coal direct chemical looping combustion power plant with hydrogen and power co-generation. Energy. Cited by: 31

Surywanshi, G. D., Patnaikuni, V. S., Vooradi, R., & Kakunuri, M. (2021). CO₂ capture and utilization from supercritical coal direct chemical looping combustion power plant – comprehensive analysis of different case studies. Applied Energy. Cited by: 24