Surya Deb Chakraborty | Remote sensing | Research Excellence Award

Published on by Environmental Scientists

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

 

 

Bilal jan Haji Muhammad | Environmental Science |

Published on by Environmental Scientists

Dr. Bilal jan Haji Muhammad | Environmental Science | Best Researcher Award

Dr. Bilal jan Haji Muhammad | Environmental Science | Ministry of Rural Rehabilitation and Development | Afghanistan

Dr. Bilal Jan Haji Muhammad is an emerging scholar in the fields of Remote Sensing, GIS, Applied Geology, and Petrography, recognized for his growing contributions to land use modeling, environmental assessment, and geological interpretation across diverse landscapes in Afghanistan, Pakistan, and neighboring regions. Dr. Bilal Jan Haji Muhammad earned his academic foundation in geology and advanced his expertise in geospatial sciences through postgraduate research and international academic exposure, including scholarly affiliation with Northeast Normal University, China, where he refined his skills in spatial analysis, satellite image interpretation, and applied earth sciences. His professional experience includes collaborative research with multidisciplinary teams focusing on land surface temperature analysis, morpho-tectonic investigations, land degradation assessment, chromite body characterization, and forest canopy density evaluation, contributing to peer-reviewed journals across geography, environmental science, and geology. Dr. Bilal Jan Haji Muhammad’s research interests span remote sensing applications in ecological monitoring, geospatial modeling of land cover dynamics, environmental hazards, geological mapping, and the integration of geochemical and satellite data for mineral exploration. His research skills include proficiency in GIS-based spatial analysis, LULC prediction modeling, spectral index interpretation, geochemical data integration, petrographic analysis, and advanced image processing using tools such as ArcGIS, ERDAS Imagine, ENVI, and related analytical software. Throughout his academic journey, Dr. Bilal Jan Haji Muhammad has collaborated with international researchers, contributed to applied environmental studies, and produced scientific outputs that collectively reflect his strong analytical capabilities and commitment to addressing regional environmental and geological challenges. Although early in his scholarly career, he has begun receiving citations and recognition for his contributions, demonstrating the increasing academic impact of his work. His collaborative spirit and methodological rigor have enabled him to publish studies addressing key environmental issues such as land degradation, surface urban heat islands, thermal field variance, and tectonic structure identification. Awards and honors associated with his academic development include recognition for his research contributions during his postgraduate studies and acknowledgment by institutional collaborators for his technical competence in remote sensing and geospatial applications. In conclusion, Dr. Bilal Jan Haji Muhammad represents a promising researcher whose interdisciplinary expertise, international collaboration, and growing publication record reflect his dedication to advancing geospatial science and applied geology for environmental understanding and sustainable resource management.

Quoted by
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Professional Profile:  Google Scholar

✔ Featured Publications:

  1. Muhammad, B. J. H. (2025). Modeling and prediction of land use land cover change dynamics based on the land change modeler in Kunar Province, Eastern Afghanistan. Citations: 2.

  2. Ahmad, I., Ping, W., Razzaq, A., & Muhammad, B. J. H. (2024). Assessing urban thermal field variance and surface urban heat island effects: An ecological study in Malakand Division, Pakistan. Citations: 2.

  3. Muhammad, B. J. H. (2025). Integration of remote sensing and geochemical analysis of chromite bodies in Logar Ophiolitic Complex, Southeast Afghanistan. Citations: 1.

  4. Muhammad, B. J. H. (2024). Morpho-tectonic and satellite image interpretation for identifying Garde fault in Afghanistan. Citations: 1.