Research
Dr. Ron Mahabir's research spans a diverse array of topics within the fields of human geography, urban studies, and data science. His work is characterised by a strong focus on the integration of computational techniques with traditional geographic approaches to address complex socio-environmental issues. Below are his primary research interests:
Cities
Investigating the dynamic processes that drive urban change, with a particular focus on understanding the factors that influence urban growth, resilience, and sustainability. His work seeks to provide insights into how cities can adapt to the challenges posed by climate change, population growth, and technological advancements.
Urban Geographies
Looks at spatial patterns and processes that shape urban areas. His research aims to understand how urban environments evolve over time, how they are influenced by social, economic, and environmental factors, and how they can be designed to promote social equity and environmental sustainability.
Social and Spatial Inequalities
Examines how geographic disparities in access to resources, services, and opportunities contribute to social inequalities, and how these can be mitigated through informed urban planning and policy-making.
Remote Sensing and Geographic Information Systems (GIS)
Uses these technologies to collect, analyse, and interpret spatial data. His work in this area includes mapping and monitoring urban environments, assessing land use and land cover changes, and developing innovative applications of remote sensing for urban and environmental studies.
Data Science
Applies data science methodologies to explore and analyse large and complex datasets. His work leverages advanced data analytics, machine learning, and statistical techniques to uncover patterns and trends in spatial data, contributing to a deeper understanding of urban and environmental processes.
Machine Learning, Deep Learning, Text Mining, and Large Language Models
Iincorporates cutting-edge machine learning and deep learning techniques, including text mining and the application of large language models. These methods are employed to analyse diverse data sources, automate data processing tasks, and develop predictive models that can be used to inform decision-making in urban planning and environmental management.
Data Fusion
Integrates multiple data sources to enhance the accuracy and reliability of spatial analysis. By combining data from remote sensing, GIS, and other sources, he develops comprehensive models that provide a more nuanced understanding of urban and environmental dynamics.