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Abstract
ABSTRACTMore than 900 million people worldwide live in slums. These slums mainly can be found in cities of the global south and are characterized by poor living conditions and usually insufficient access to basic infrastructure such as water or energy. In order to improve the living conditions of slum inhabitants, information about the number, location and size of the slums is required to plan supply infrastructure. We therefore identify morphological slums in eight different cities in Africa, South America and Asia, using remote sensing data and analyse their size distributions. We show that 84.6% of all observed morphological slums have a size between 0.001 and 0.1 km2. These results rely on a consistent approach using a clear ontology and conceptual frame for classification. However, classification methods for these underserved areas differ. We show slum classifications based on different methods reveal a strong dependency between the particular method and the resulting size distribution. The study shows the relevance of remote sensing for the investigation of slums and the results can be used for infrastructure planning, as infrastructure improvement projects are often limited to the large known slums. Whereas, the large number of small slums distributed across the city is often neglected.
Highlights
More than half of the world’s population lives in cities (United Nations, 2016)
We investigate in three cases the influence of different classification methods onto the resulting size distributions
We identify morphological slums, using remote-sensing data and analyse their size distribution in different cities in different regions of the world
Summary
More than half of the world’s population lives in cities (United Nations, 2016). According to several studies, the urban population is expected to continue to grow rapidly over the few years, especially in Asia and Africa (Kraas & Schlacke, 2016; United Nations, 2016). These living conditions have a significant negative impact on both the physical (Ezeh et al, 2017) and mental health (Subbaraman et al, 2014) of their inhabitants and it is important to improve the water supply and sanitation infrastructure in slums (Lilford et al, 2017; Van der Bruggen, Borghgraef, & Vinckier, 2010). In their global sustainable development goals, the United Nations are striving to improve the supply infrastructure in these settlements (United Nations, 2015)
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