Abstract
A network approach, which simplifies geographic settings as a form of nodes and links, emphasizes the connectivity and relationships of spatial features. Topological networks of spatial features are used to explore geographical connectivity and structures. The PageRank algorithm, a network metric, is often used to help identify important locations where people or automobiles concentrate in the geographical literature. However, geographic considerations, including proximity and location attractiveness, are ignored in most network metrics. The objective of the present study is to propose two geographically modified PageRank algorithms—Distance-Decay PageRank (DDPR) and Geographical PageRank (GPR)—that incorporate geographic considerations into PageRank algorithms to identify the spatial concentration of human movement in a geospatial network. Our findings indicate that in both intercity and within-city settings the proposed algorithms more effectively capture the spatial locations where people reside than traditional commonly-used network metrics. In comparing location attractiveness and distance decay, we conclude that the concentration of human movement is largely determined by the distance decay. This implies that geographic proximity remains a key factor in human mobility.
Highlights
IntroductionEcologists believe that there is one ecosphere for all living organisms, that what affects one affects all, and that everything is connected to everything else [1]
The results indicate that among all the network metrics, Distance-Decay PageRank (DDPR) has the highest correlation with the indices of concentration of human movement, followed by Geographical PageRank (GPR), which has the second highest correlation
This study proposes two algorithms—the Distance-Decay PageRank (DDPR) and the Geographical PageRank (GPR)—to capture the concentration of human movement in a geospatial network, abstracting from a transportation network
Summary
Ecologists believe that there is one ecosphere for all living organisms, that what affects one affects all, and that everything is connected to everything else [1]. Geographers extend this fundamental concept to connected spatial features located in finite geo-spaces [2]. The elements of a terrestrial system are connected, and their spatial relationships should not be ignored. A network approach, which simplifies geographic settings into combinations of nodes and links, emphasizes the connectivity and relationships among spatial.
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