Project Abstract

Abstract
Urban heat islands (UHIs) have become a significant environmental issue in rapidly developing cities, impacting both the local climate and the overall quality of life for residents. This research project aims to analyze urban heat islands using remote sensing techniques in a developing city. By utilizing advanced remote sensing technology, such as satellite imagery and thermal sensors, this study seeks to identify, map, and analyze the spatial distribution of UHIs within the selected developing city. The research will consist of a comprehensive literature review to explore the existing knowledge on urban heat islands, remote sensing applications in urban climate studies, and the specific challenges faced by developing cities in managing UHIs. The methodology chapter will outline the data collection process, including the acquisition of satellite imagery, ground truthing, and the processing techniques used to analyze temperature variations across the urban landscape. Through the analysis of remote sensing data, this study aims to identify the key drivers of urban heat islands in the developing city, including land cover changes, urban morphology, and anthropogenic activities. By understanding the factors contributing to UHIs, this research seeks to provide valuable insights for urban planners and policymakers to develop effective mitigation strategies and urban planning interventions to reduce the impact of heat islands on the urban environment. The findings chapter will present a detailed discussion of the spatial distribution of urban heat islands within the study area, highlighting hotspots of elevated temperatures and identifying vulnerable areas that are most susceptible to heat stress. The implications of these findings for urban planning, climate resilience, and public health will be critically evaluated, emphasizing the importance of addressing UHIs in the context of sustainable urban development. In conclusion, this research project will contribute to the growing body of knowledge on urban heat islands in developing cities and provide valuable insights into the application of remote sensing techniques for urban climate studies. By raising awareness of the environmental challenges posed by UHIs and proposing evidence-based solutions, this study aims to support informed decision-making processes and promote sustainable urban development practices that enhance the resilience of cities to climate change impacts.

Project Overview

The project topic "Analysis of Urban Heat Islands Using Remote Sensing Techniques in a Developing City" focuses on the investigation of urban heat islands (UHIs) through the application of remote sensing technologies within the context of a developing city. Urban heat islands refer to the phenomenon where urban areas experience higher temperatures compared to their rural surroundings due to human activities and the built environment. This research aims to utilize remote sensing techniques to analyze and understand the spatial distribution and characteristics of UHIs in a developing city, highlighting the implications for urban planning, environmental management, and public health. The overview of this project involves a comprehensive examination of the factors contributing to the formation and intensification of UHIs in the selected developing city. Remote sensing technology, such as satellite imagery and thermal sensors, will be employed to collect data on land surface temperatures and land cover characteristics within the urban area. By utilizing these advanced techniques, the research seeks to map and delineate the extent of urban heat islands, identify hotspots, and analyze the temporal variations in temperature patterns. Furthermore, the study will explore the relationship between UHIs and various urban parameters, including land use patterns, vegetation cover, building density, and surface materials. By conducting a detailed analysis of these factors, the research aims to provide insights into the underlying causes of UHIs in the developing city and assess the effectiveness of different mitigation strategies. The findings of this research are expected to contribute valuable information for urban planners, policymakers, and environmental practitioners in developing sustainable solutions to mitigate the impacts of UHIs on urban environments and human well-being. Overall, this project represents a significant contribution to the field of urban environmental research by integrating remote sensing technologies with the study of urban heat islands in a developing city. Through the analysis of spatial and temporal patterns of UHIs, this research seeks to enhance our understanding of the complex dynamics of urban thermal environments and support informed decision-making for sustainable urban development and climate resilience."