Project Abstract

This project aims to develop a comprehensive framework for monitoring and analyzing urban expansion and land use changes using satellite remote sensing data. The rapid growth of cities worldwide has led to significant transformations in land use, often resulting in the loss of natural habitats, agricultural lands, and green spaces. Understanding and documenting these dynamic changes is crucial for sustainable urban planning, resource management, and environmental conservation. The project will utilize high-resolution satellite imagery, combined with advanced geospatial analysis techniques, to track the spatial and temporal patterns of urban development and land use transitions. By integrating multi-temporal satellite data, the research will generate detailed land cover maps, identify hotspots of urban growth, and quantify the rates and drivers of land use change. This information will be invaluable for policymakers, urban planners, and environmental managers to make informed decisions and develop effective strategies for managing the challenges posed by rapid urbanization. One of the key objectives of this project is to develop a robust and adaptable monitoring framework that can be applied to diverse urban settings across the globe. The research team will explore the use of machine learning algorithms and object-based image analysis to automate the extraction and classification of urban features from satellite data. This will enable the scalable and efficient monitoring of urban expansion and land use change, ultimately supporting the creation of comprehensive databases and time-series analyses. In addition to the technical aspects of satellite data processing and analysis, the project will also investigate the socioeconomic and environmental drivers of urban transformation. By incorporating geospatial data on population dynamics, economic activities, and environmental indicators, the research will aim to unravel the complex interplay between urban growth, land use change, and their implications for sustainable development. This holistic approach will provide a deeper understanding of the underlying mechanisms shaping the urban landscape and inform policy interventions. The project will also engage with local stakeholders, including city authorities, urban planners, and community organizations, to ensure the relevance and applicability of the research outputs. Through collaborative workshops and capacity-building activities, the research team will work closely with end-users to tailor the monitoring tools and decision-support systems to their specific needs and constraints. Overall, this project represents a significant advancement in the field of satellite-based urban monitoring, providing a framework for comprehensive, evidence-based decision-making in the context of sustainable urban development. The findings and methodologies developed through this research will contribute to the global efforts in addressing the challenges of rapid urbanization and promoting the responsible management of land resources.

Project Overview