Understanding the impact of climate change and land use change on the groundwater resources in the future using deep learning models with focus on data scarce regions | Earth, Atmosphere & Environment Sciences | | |
Localization of surface deformation zones using space borne InSAR and ground investigations in an active sector of the Sub-Himalayan region. | Earth, Atmosphere & Environment Sciences | | |
Implementation of Japanese early-warning criteria Soil Water Index SWI for debris flows and slope failures into territorial early warning systems in India for landslide disaster mitigation | Earth, Atmosphere & Environment Sciences | | |
Enhancing the efficiency of clean energy production by intensifying anaerobic bioconversion of organic waste using solar energy | Earth, Atmosphere & Environment Sciences | | |
Sustainable capturing of flue gases by an integrated phototrophic-heterotrophic microbial consortium coupled with bioelectricity and biofuel production | Earth, Atmosphere & Environment Sciences | | |
Forest Characterization using LiDAR and Image Data | Earth, Atmosphere & Environment Sciences | | |
Developing a Wetland "Photobioreactor" Microbial Fuel Cell system for Household Wastewater Treatment | Earth, Atmosphere & Environment Sciences | | |
A comprehensive approach to disentangle climate and land cover change impact on water resources DECLARE | Earth, Atmosphere & Environment Sciences | | |
Study of the Venusian climate through Radio Occultation experiments from orbiting spacecraft and modelling | Earth, Atmosphere & Environment Sciences | | |
Geo-electrical characterization of the fault zone in the Himalayan foothills and Sub-Himalayan region in and around Mohand area Uttarakhand, India. This proposal is being submitted as follow up project of earlier sanctioned DST-DAAD project vide DST order no DST/INT/DAAD/P-19/2019 dated 15.07.2019 to complete unfinished, due to Covid Pandemic, approved project objectives | Earth, Atmosphere & Environment Sciences | | |