Identifying Urban Functional Zones Using Public Bicycle Rental Records and Point-of-Interest Data

Human mobility data have become an essential means to study travel behavior and trip purpose to identify urban functional zones, which portray land use at a finer granularity and offer insights for problems such as business site selection, urban design, and planning. However, very few works have leveraged public bicycle-sharing data, which provides a useful feature in depicting people’s short-trip transportation within a city, in the studies of urban functions and structure. Because of its convenience, bicycle usage tends to be close to point-of-interest (POI) features, the combination of which will no doubt enhance the understanding of the trip purpose for characterizing different functional zones. In our study, we propose a data-driven approach that uses station-based public bicycle rental records together with POI data in Hangzhou, China to identify urban functional zones. Topic modelling, unsupervised clustering, and visual analytics are employed to delineate the function matrix, aggregate functional zones, and present mixed land uses. Our result shows that business areas, industrial areas, and residential areas can be well detected, which validates the effectiveness of data generated from this new transportation mode. The word cloud of function labels reveals the mixed land use of different types of urban functions and improves the understanding of city structures.

[1]  Masoud Minaei,et al.  Evaluation and Relocating Bicycle Sharing Stations in Mashhad City using Multi-Criteria Analysis , 2019 .

[2]  Satish V. Ukkusuri,et al.  Inferring Urban Land Use Using Large-Scale Social Media Check-in Data , 2014 .

[3]  Xingjian Liu,et al.  Automated identification and characterization of parcels (AICP) with OpenStreetMap and Points of Interest , 2013, ArXiv.

[4]  Filipe Rodrigues,et al.  Automatic Classification of Points-of-Interest for Land-use Analysis , 2012 .

[5]  Benjamin Adams,et al.  Inferring Thematic Places from Spatially Referenced Natural Language Descriptions , 2013 .

[6]  Hao Li,et al.  Mapping Dynamic Urban Land Use Patterns with Crowdsourced Geo-Tagged Social Media (Sina-Weibo) and Commercial Points of Interest Collections in Beijing, China , 2016 .

[7]  W. Deng,et al.  Ridership and effectiveness of bikesharing: The effects of urban features and system characteristics on daily use and turnover rate of public bikes in China , 2014 .

[8]  Chaogui Kang,et al.  Social Sensing: A New Approach to Understanding Our Socioeconomic Environments , 2015 .

[9]  Dietmar Bauer,et al.  Inferring land use from mobile phone activity , 2012, UrbComp '12.

[10]  Helmolt Vittinghoff Chapter 1: General Surveys, Collections, and Bibliographies , 2001 .

[11]  Cidália Costa Fonte,et al.  Assessing the applicability of OpenStreetMap data to assist the validation of land use/land cover maps , 2017, Int. J. Geogr. Inf. Sci..

[12]  J. Gutiérrez,et al.  Optimizing the location of stations in bike-sharing programs: A GIS approach , 2012 .

[13]  M. Dijst,et al.  Urban Form and Travel Behaviour: Micro-level Household Attributes and Residential Context , 2002 .

[14]  Hui Xiong,et al.  Discovering Urban Functional Zones Using Latent Activity Trajectories , 2015, IEEE Transactions on Knowledge and Data Engineering.

[15]  Jie Bao,et al.  Exploring Bikesharing Travel Patterns and Trip Purposes Using Smart Card Data and Online Point of Interests , 2017 .

[16]  Daqiang Zhang,et al.  Discovering Urban Social Functional Regions Using Taxi Trajectories , 2015, 2015 IEEE 12th Intl Conf on Ubiquitous Intelligence and Computing and 2015 IEEE 12th Intl Conf on Autonomic and Trusted Computing and 2015 IEEE 15th Intl Conf on Scalable Computing and Communications and Its Associated Workshops (UIC-ATC-ScalCom).

[17]  Li Gong,et al.  Revealing travel patterns and city structure with taxi trip data , 2016 .

[18]  Stacey Guzman,et al.  China's Hangzhou Public Bicycle , 2011 .

[19]  Krzysztof Janowicz,et al.  Extracting urban functional regions from points of interest and human activities on location‐based social networks , 2017, Trans. GIS.

[20]  Dominic Stead,et al.  The Relationships between Urban Form and Travel Patterns. An International Review and Evaluation , 2001, European Journal of Transport and Infrastructure Research.

[21]  Song Gao,et al.  Discovering Spatial Interaction Communities from Mobile Phone Data , 2013 .

[22]  Felix Kling,et al.  When a city tells a story: urban topic analysis , 2012, SIGSPATIAL/GIS.

[23]  Yu Liu,et al.  Inferring trip purposes and uncovering travel patterns from taxi trajectory data , 2016 .

[24]  Andrew McCallum,et al.  Topic Models Conditioned on Arbitrary Features with Dirichlet-multinomial Regression , 2008, UAI.

[25]  Jon E. Froehlich,et al.  Measuring the Pulse of the City through Shared Bicycle Programs , 2008 .

[26]  Ming Zhang The Role of Land Use in Travel Mode Choice: Evidence from Boston and Hong Kong , 2004 .

[27]  Dirk C. Mattfeld,et al.  Understanding Bike-Sharing Systems using Data Mining: Exploring Activity Patterns , 2011 .

[28]  Eric J. Miller,et al.  Hail a cab or ride a bike? A travel time comparison of taxi and bicycle-sharing systems in New York City , 2017 .

[29]  Anil K. Jain,et al.  Algorithms for Clustering Data , 1988 .

[30]  P. Rousseeuw Silhouettes: a graphical aid to the interpretation and validation of cluster analysis , 1987 .

[31]  Chenghu Zhou,et al.  A new insight into land use classification based on aggregated mobile phone data , 2013, Int. J. Geogr. Inf. Sci..

[32]  Vanessa Frías-Martínez,et al.  Spectral clustering for sensing urban land use using Twitter activity , 2014, Engineering applications of artificial intelligence.

[33]  Ying Zhang,et al.  Mining bike-sharing travel behavior data: An investigation into trip chains and transition activities , 2018, Comput. Environ. Urban Syst..

[34]  Xing Xie,et al.  Discovering regions of different functions in a city using human mobility and POIs , 2012, KDD.

[35]  Nuria Oliver,et al.  Sensing and predicting the pulse of the city through shared bicycling , 2009, IJCAI 2009.

[36]  Balazs Feil,et al.  Cluster Analysis for Data Mining and System Identification , 2007 .

[37]  Xiaolu Zhou,et al.  Crowdsourcing functions of the living city from Twitter and Foursquare data , 2016 .

[38]  Dieter Pfoser,et al.  Crowdsourcing urban form and function , 2015, Int. J. Geogr. Inf. Sci..

[39]  Michael Batty,et al.  Mining bicycle sharing data for generating insights into sustainable transport systems , 2014 .