dc.description.abstract |
As global temperatures rise, the risks of extreme heat events and chronic heat are
expected to grow. To understand societal vulnerability to extreme heat, a
comprehensive approach is necessary, considering factors like weather, climate, the
environment, social characteristics, stakeholder engagement, and local community
vulnerability. This research seeks to explore how heat vulnerability perception
correlates with heat exposure across various socio-economic groups. It emphasizes
the diverse adaptation capacities within urban areas, examining how individuals in
vulnerable conditions modify their behavior to cope with urban heat and the
resources needed to mitigate health risks.
This paper investigates the interplay between individuals and their environments
within urban heat and housing clusters. It introduces a novel research framework for
analyzing local vulnerability to extreme heat from both top-down and bottom-up
perspectives. This approach aims to enhance our understanding of societal
vulnerability by integrating quantitative and qualitative data beyond mere
demographic statistics. We explore how the physical attributes of housing
settlements influence exposure to heat, subsequently shaping residents' perceptions
and adaptive capabilities.
Using Udaipur as a test site, open-ended interviews were conducted with residents
to capture their experiences and insights regarding past and current strategies for
adapting to extreme heat. These discussions focused on adaptive behaviors and
capacities. Additionally, observations and analysis were made regarding the distinct
physical characteristics of various housing clusters in the area.
Additionally, the thesis explores the role of technology in enhancing urban heat
resilience, including the use of remote sensing, data analytics, and smart city
technologies for real-time monitoring to conduct heat vulnerability assessment of the
selected wards. The research methodology employs a combination of quantitative
analysis, spatial modeling, and qualitative assessments, utilizing a range of data
sources such as satellite imagery, climate data, and community surveys.
The outcome of this thesis is to propose practical strategies for enhancing heat
resilience in urban settings. By considering diverse narratives of heat vulnerability, it
enables a thorough evaluation of whether conventional coping recommendations
align with the real-life experiences of various vulnerable communities. Through
advocating for a comprehensive and integrated urban planning approach, this study
endeavors to support the creation of cities that are not only resilient to escalating
temperatures but also sustainable, enjoyable, and equitable for all residents.. |
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