Evaluating Cooling Center Coverage Using Persistent Homology of a Filtered Witness Complex

In light of the increase in frequency of extreme heat events, there is a critical need to develop tools to identify geographic locations that are at risk of heat-related mortality. This paper aims to identify locations by assessing holes in cooling-center coverage using persistent homology, a method from topological data analysis. Methods involving persistent homology have shown promising results in identifying holes in coverage of specific resources. We adapt these methods using a witness complex construction to study the coverage of cooling centers. One standard technique for studying the risk of heat-related mortality for a geographic area is a heat vulnerability index (HVIs) based on demographic information. We test our topological approach and an HVI on four locations (central Boston, MA; central Austin, TX; Portland, OR; and Miami, FL) and use death times of connected components and cycles to identify most at risk regions. PH and HVI identify different locations as vulnerable, thus showing measures of coverage need to extend beyond a simple statistic. Using persistent homology along side the HVI score identifies a complementary set of regions at risk, thus the combination of the two provide a more holistic understanding of coverage.