Projects Executed at Scale
From policy planning to field execution, GVI has delivered large-scale geospatial projects across sectors enabling data-driven decisions, operational efficiency, and sustainable development.
Digital Agriculture Smart Farming Solutions
This project focused on designing a comprehensive digital agriculture framework integrating GIS, remote sensing, IoT, UAVs and data analytics to enhance agricultural productivity and climate resilience. The initiative enabled real-time crop health monitoring, precision farming advisories, market linkage support, and data-driven decision-making for farmers and government agencies. The project promotes sustainable, technology-driven agriculture aligned with national and global development goals.
Geospatial Modelling for Food Security & Agricultural Vulnerability
A state-level geospatial assessment was carried out to evaluate food security and agricultural vulnerability using multi-source satellite data, climate reanalysis, UAV surveys and socio-economic indicators. The project delivered high-resolution crop maps, yield forecasts, flood and drought risk layers and a composite Food Security Index (FSI). A Spatial Decision Support System (SDSS) was developed to support planners in implementing climate-resilient
agricultural policies.
Cadastral, DGPS & Drone-Based Topographical Survey
This project involved high-precision cadastral boundary demarcation and drone-based topographical mapping using DGPS/GNSS and UAV photogrammetry. Centimetre-level accuracy datasets-including orthomosaics, contours, DSM/DTM, and GIS/CAD-ready outputs were generated to support mine planning, statutory compliance and operational decision-making.
Urban Growth & Land Use Change Modelling
This project analyzed past and future land use–land cover dynamics using scenario-based modelling, including business-as-usual, agent-based transitions and sustainable development policies. The outputs provided strategic insights for urban planning, infrastructure development, and sustainable land management.
Hydrological & Springshed Analysis
This project applied GIS and remote sensing techniques to evaluate terrain, drainage, land use and hydrological characteristics for springshed management and sub-surface water quality assessment. Outputs supported sustainable water resource planning and environmental management in hilly terrain.