Open Access
Regional co-location pattern scoping on a street network considering distance decay effects of spatial interaction
Author(s) -
Wenhao Yu
Publication year - 2017
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0181959
Subject(s) - computer science , scale (ratio) , measure (data warehouse) , distance decay , spatial ecology , space (punctuation) , data mining , scope (computer science) , common spatial pattern , point of interest , feature (linguistics) , domain (mathematical analysis) , function (biology) , topology (electrical circuits) , geography , artificial intelligence , statistics , cartography , mathematics , economic geography , ecology , linguistics , philosophy , combinatorics , biology , programming language , operating system , mathematical analysis , evolutionary biology
Regional co-location scoping intends to identify local regions where spatial features of interest are frequently located together. Most of the previous researches in this domain are conducted on a global scale and they assume that spatial objects are embedded in a 2-D space, but the movement in urban space is actually constrained by the street network. In this paper we refine the scope of co-location patterns to 1-D paths consisting of nodes and segments. Furthermore, since the relations between spatial events are usually inversely proportional to their separation distance, the proposed method introduces the “Distance Decay Effects” to improve the result. Specifically, our approach first subdivides the street edges into continuous small linear segments. Then a value representing the local distribution intensity of events is estimated for each linear segment using the distance-decay function. Each kind of geographic feature can lead to a tessellated network with density attribute, and the generated multiple networks for the pattern of interest will be finally combined into a composite network by calculating the co-location prevalence measure values, which are based on the density variation between different features. Our experiments verify that the proposed approach is effective in urban analysis.