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Delineating urban functional use from points of interest data with neural network embedding: A case study in Greater London

Delineating urban functional use plays a key role in understanding urban dynamics, evaluating planning strategies and supporting policymaking. In recent years, Points of Interest (POI) data, with precise geolocation and detailed attributes, have become the primary data source for exploring urban fun...

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Published in:	Computers, environment and urban systems environment and urban systems, 2021-07, Vol.88, p.101651, Article 101651
Main Authors:	Niu, Haifeng, Silva, Elisabete A.
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Language:	English
Subjects:	Algorithms Case studies Classification Cluster analysis Clustering Context Data Datasets Doc2Vec Embedding Functionals Model accuracy Natural language processing Networks Neural network embedding Neural networks Points of interest Policy making Spatial analysis Spatial distribution Urban areas Urban functional use Urban planning Vector quantization
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description	Delineating urban functional use plays a key role in understanding urban dynamics, evaluating planning strategies and supporting policymaking. In recent years, Points of Interest (POI) data, with precise geolocation and detailed attributes, have become the primary data source for exploring urban functional use from a bottom-up perspective, using local, highly disaggregated, big datasets. Previous studies using POI data have given insufficient consideration to the relationship among POI classes in the spatial context, and have failed to provide a straightforward means by which to classify urban functional areas. This study proposes an approach for delineating urban functional use at the scale of the Lower Layer Super Output Area (LSOA) in Greater London by integrating the Doc2Vec model, a neural network embedding method commonly used in natural language processing for vectoring words and documents from their context. In this study, the neural network vectorises both POI classes (‘Word’) and urban areas (‘Document’) based on their functional context by learning features from the spatial distribution of POIs in the city. Specifically, we first construct POI sequences based on the distribution of POI classes, and add their LSOA IDs as ‘document’ tags. By utilising these constructed POI–LSOA sequences, the Doc2Vec model trains the vectors of 574 POI classes (word vectors) and 4836 LSOAs (document vectors). The vectors of POI classes are then used in calculating the functional similarity scores based on their cosine distance, with the vectors of LSOAs grouped into clusters (i.e., functional areas) via the k-means clustering algorithm. We also identify latent functions in each cluster of LSOAs by performing topic modelling and enrichment factor. Compared with TF–IDF, LDA and Word2Vec models, the Doc2Vec model obtains the highest accuracy when classifying functional areas. This study proposes a straightforward approach in which the model directly trains vectors for urban areas, subsequently using them to classify urban functional areas. By employing the enhanced neural network model with low-cost and ubiquitous POI datasets, this study provides a potential tool with which to monitor urban dynamics in a timely and adaptive manner, thereby providing enhanced, data-driven support to urban planning, development and management. •A neural network embedding model is employed in delineating urban functional use from POI (Points of Interest) data.•Doc2Vec model directly tr
doi_str_mv	10.1016/j.compenvurbsys.2021.101651
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By employing the enhanced neural network model with low-cost and ubiquitous POI datasets, this study provides a potential tool with which to monitor urban dynamics in a timely and adaptive manner, thereby providing enhanced, data-driven support to urban planning, development and management. •A neural network embedding model is employed in delineating urban functional use from POI (Points of Interest) data.•Doc2Vec model directly trains vector representations for spatial areas while considering the spatial distribution of POIs.•This paper explores the functional similarity among 574 POI classes and 4836 LSOAs in Greater London.•Doc2Vec model outperforms other semantic models (Word2Vec, LDA and TF-IDF) in urban functional areas identification.</description><identifier>ISSN: 0198-9715</identifier><identifier>EISSN: 1873-7587</identifier><identifier>DOI: 10.1016/j.compenvurbsys.2021.101651</identifier><language>eng</language><publisher>Oxford: Elsevier Ltd</publisher><subject>Algorithms ; Case studies ; Classification ; Cluster analysis ; Clustering ; Context ; Data ; Datasets ; Doc2Vec ; Embedding ; Functionals ; Model accuracy ; Natural language processing ; Networks ; Neural network embedding ; Neural networks ; Points of interest ; Policy making ; Spatial analysis ; Spatial distribution ; Urban areas ; Urban functional use ; Urban planning ; Vector quantization</subject><ispartof>Computers, environment and urban systems, 2021-07, Vol.88, p.101651, Article 101651</ispartof><rights>2021 The Authors</rights><rights>Copyright Elsevier Science Ltd. 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In recent years, Points of Interest (POI) data, with precise geolocation and detailed attributes, have become the primary data source for exploring urban functional use from a bottom-up perspective, using local, highly disaggregated, big datasets. Previous studies using POI data have given insufficient consideration to the relationship among POI classes in the spatial context, and have failed to provide a straightforward means by which to classify urban functional areas. This study proposes an approach for delineating urban functional use at the scale of the Lower Layer Super Output Area (LSOA) in Greater London by integrating the Doc2Vec model, a neural network embedding method commonly used in natural language processing for vectoring words and documents from their context. In this study, the neural network vectorises both POI classes (‘Word’) and urban areas (‘Document’) based on their functional context by learning features from the spatial distribution of POIs in the city. 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By employing the enhanced neural network model with low-cost and ubiquitous POI datasets, this study provides a potential tool with which to monitor urban dynamics in a timely and adaptive manner, thereby providing enhanced, data-driven support to urban planning, development and management. •A neural network embedding model is employed in delineating urban functional use from POI (Points of Interest) data.•Doc2Vec model directly trains vector representations for spatial areas while considering the spatial distribution of POIs.•This paper explores the functional similarity among 574 POI classes and 4836 LSOAs in Greater London.•Doc2Vec model outperforms other semantic models (Word2Vec, LDA and TF-IDF) in urban functional areas identification.</description><subject>Algorithms</subject><subject>Case studies</subject><subject>Classification</subject><subject>Cluster analysis</subject><subject>Clustering</subject><subject>Context</subject><subject>Data</subject><subject>Datasets</subject><subject>Doc2Vec</subject><subject>Embedding</subject><subject>Functionals</subject><subject>Model accuracy</subject><subject>Natural language processing</subject><subject>Networks</subject><subject>Neural network embedding</subject><subject>Neural networks</subject><subject>Points of interest</subject><subject>Policy making</subject><subject>Spatial analysis</subject><subject>Spatial distribution</subject><subject>Urban areas</subject><subject>Urban functional use</subject><subject>Urban planning</subject><subject>Vector quantization</subject><issn>0198-9715</issn><issn>1873-7587</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>7TQ</sourceid><recordid>eNqNkMFOAyEURYnRxFr9B5Kup8LMMEN11VStJk3c6Jow8FBqCxWYNo0_L7Vu3Ll6i3fvgXcQGlEypoQ218ux8usNuG0furiP45KU9GfD6AkaUN5WRct4e4oGhE54MWkpO0cXMS4JIWVd8wH6uoOVdSCTdW84U6TDpncqWe_kCvcRsAl-jTfeuhSxNzhPCBAT1jJJvLPpHTvoQw47SDsfPjCsO9A6827wFCuZETH1ep-beB7ySxDwwjvt3SU6M3IV4ep3DtHrw_3L7LFYPM-fZtNFoWrCU9F1qqnrqqMNENY2qjSMM6OMZEqTireSck5k0ynVakZrMLoiE97wlk2UIQ2rhmh05G6C_-zz38XS9yHfF0XJGM1SGl7m1O0xpYKPMYARm2DXMuwFJeLgVCzFH9viYFscbef2_bEN-ZCthSCisuAUaBtAJaG9_RfnGzitksM</recordid><startdate>202107</startdate><enddate>202107</enddate><creator>Niu, Haifeng</creator><creator>Silva, Elisabete A.</creator><general>Elsevier Ltd</general><general>Elsevier Science Ltd</general><scope>6I.</scope><scope>AAFTH</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SC</scope><scope>7TQ</scope><scope>8FD</scope><scope>DHY</scope><scope>DON</scope><scope>FR3</scope><scope>JQ2</scope><scope>KR7</scope><scope>L7M</scope><scope>L~C</scope><scope>L~D</scope></search><sort><creationdate>202107</creationdate><title>Delineating urban functional use from points of interest data with neural network embedding: A case study in Greater London</title><author>Niu, Haifeng ; 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In recent years, Points of Interest (POI) data, with precise geolocation and detailed attributes, have become the primary data source for exploring urban functional use from a bottom-up perspective, using local, highly disaggregated, big datasets. Previous studies using POI data have given insufficient consideration to the relationship among POI classes in the spatial context, and have failed to provide a straightforward means by which to classify urban functional areas. This study proposes an approach for delineating urban functional use at the scale of the Lower Layer Super Output Area (LSOA) in Greater London by integrating the Doc2Vec model, a neural network embedding method commonly used in natural language processing for vectoring words and documents from their context. In this study, the neural network vectorises both POI classes (‘Word’) and urban areas (‘Document’) based on their functional context by learning features from the spatial distribution of POIs in the city. Specifically, we first construct POI sequences based on the distribution of POI classes, and add their LSOA IDs as ‘document’ tags. By utilising these constructed POI–LSOA sequences, the Doc2Vec model trains the vectors of 574 POI classes (word vectors) and 4836 LSOAs (document vectors). The vectors of POI classes are then used in calculating the functional similarity scores based on their cosine distance, with the vectors of LSOAs grouped into clusters (i.e., functional areas) via the k-means clustering algorithm. We also identify latent functions in each cluster of LSOAs by performing topic modelling and enrichment factor. Compared with TF–IDF, LDA and Word2Vec models, the Doc2Vec model obtains the highest accuracy when classifying functional areas. This study proposes a straightforward approach in which the model directly trains vectors for urban areas, subsequently using them to classify urban functional areas. By employing the enhanced neural network model with low-cost and ubiquitous POI datasets, this study provides a potential tool with which to monitor urban dynamics in a timely and adaptive manner, thereby providing enhanced, data-driven support to urban planning, development and management. •A neural network embedding model is employed in delineating urban functional use from POI (Points of Interest) data.•Doc2Vec model directly trains vector representations for spatial areas while considering the spatial distribution of POIs.•This paper explores the functional similarity among 574 POI classes and 4836 LSOAs in Greater London.•Doc2Vec model outperforms other semantic models (Word2Vec, LDA and TF-IDF) in urban functional areas identification.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.compenvurbsys.2021.101651</doi><oa>free_for_read</oa></addata></record>
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subjects	Algorithms Case studies Classification Cluster analysis Clustering Context Data Datasets Doc2Vec Embedding Functionals Model accuracy Natural language processing Networks Neural network embedding Neural networks Points of interest Policy making Spatial analysis Spatial distribution Urban areas Urban functional use Urban planning Vector quantization
title	Delineating urban functional use from points of interest data with neural network embedding: A case study in Greater London
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