Delineating Geographical Regions with Networks of Human Interactions in an Extensive Set of Countries

Sobolevsky, Stanislav; Szell, Michael; Campari, Riccardo; Couronné, Thomas; Smoreda, Zbigniew; Ratti, Carlo

doi:10.1371/journal.pone.0081707

Cited by 137 publications

(134 citation statements)

References 32 publications

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“…Such a dataset can cover relatively large spatial scale [23,24] (e.g., national level) and a large portion of the population in the study region [10]. However, due to the concerns of infringement on individual privacy, mobile phone call data are not publicly accessible at all.…”

Section: Geo-located Twitter Data For Studying Large-scale User Movemmentioning

confidence: 99%

Exploring Multi-Scale Spatiotemporal Twitter User Mobility Patterns with a Visual-Analytics Approach

Yin

Gao

et al. 2016

IJGI

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Abstract:Understanding human mobility patterns is of great importance for urban planning, traffic management, and even marketing campaign. However, the capability of capturing detailed human movements with fine-grained spatial and temporal granularity is still limited. In this study, we extracted high-resolution mobility data from a collection of over 1.3 billion geo-located Twitter messages. Regarding the concerns of infringement on individual privacy, such as the mobile phone call records with restricted access, the dataset is collected from publicly accessible Twitter data streams. In this paper, we employed a visual-analytics approach to studying multi-scale spatiotemporal Twitter user mobility patterns in the conterminous United States during the year 2014. Our approach included a scalable visual-analytics framework to deliver efficiency and scalability in filtering large volume of geo-located tweets, modeling and extracting Twitter user movements, generating space-time user trajectories, and summarizing multi-scale spatiotemporal user mobility patterns. We performed a set of statistical analysis to understand Twitter user mobility patterns across multi-level spatial scales and temporal ranges. In particular, Twitter user mobility patterns measured by the displacements and radius of gyrations of individuals revealed multi-scale or multi-modal Twitter user mobility patterns. By further studying such mobility patterns in different temporal ranges, we identified both consistency and seasonal fluctuations regarding the distance decay effects in the corresponding mobility patterns. At the same time, our approach provides a geo-visualization unit with an interactive 3D virtual globe web mapping interface for exploratory geo-visual analytics of the multi-level spatiotemporal Twitter user movements.

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Section: Geo-located Twitter Data For Studying Large-scale User Movemmentioning

confidence: 99%

Exploring Multi-Scale Spatiotemporal Twitter User Mobility Patterns with a Visual-Analytics Approach

Yin

Gao

et al. 2016

IJGI

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“…National administrative boundaries have been analyzed and validated by comparing the existing specifications with community structures from interaction-based networks [11,36]. Comparative analysis on the interaction-based urban structure with different countries has been conducted as well [12].…”

Section: Community Structure Of Urban Spacementioning

confidence: 99%

Portraying Temporal Dynamics of Urban Spatial Divisions with Mobile Phone Positioning Data: A Complex Network Approach

Zhou

Yue

et al. 2016

IJGI

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Spatial structure is a fundamental characteristic of cities that influences the urban functioning to a large extent. While administrative partitioning is generally done in the form of static spatial division, understanding a more temporally dynamic structure of the urban space would benefit urban planning and management immensely. This study makes use of a large-scale mobile phone positioning dataset to characterize the diurnal dynamics of the interaction-based urban spatial structure. To extract the temporally vibrant structure, spatial interaction networks at different times are constructed based on the movement connections of individuals between geographical units. Complex network community detection technique is applied to identify the spatial divisions as well as to quantify their temporal dynamics. Empirical analysis is conducted using data containing all user positions on a typical weekday in Shenzhen, China. Results are compared with official zoning and planned structure and indicate a certain degree of expansion in urban central areas and fragmentation in industrial suburban areas. A high level of variability in spatial divisions at different times of day is detected with some distinct temporal features. Peak and pre-/post-peak hours witness the most prominent fluctuation in spatial division indicating significant change in the characteristics of movements and activities during these periods of time. Findings of this study demonstrate great potential of large-scale mobility data in supporting intelligent spatial decision making and providing valuable knowledge to the urban planning sectors.

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“…At a larger spatial scale (100s of km), the extent to which human activity patterns correspond to administrative boundaries has been examined by applying algorithms of topological community detection to country-wide telephone call networks (Sobolevsky et al, 2013) and patterns in the circulation of bank notes (Thiemann et al, 2010). These studies typically report poor matches between administrative boundaries and actual geographic boundaries calculated from human mobility data.…”

Section: Analysis Of Network Of Animal Movement and Behaviormentioning

confidence: 99%

How Big Data Fast Tracked Human Mobility Research and the Lessons for Animal Movement Ecology

et al. 2018

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The rise of the internet coupled with technological innovations such as smartphones have generated massive volumes of geo-referenced data (big data) on human mobility. This has allowed the number of studies of human mobility to rapidly overtake those of animal movement. Today, telemetry studies of animals are also approaching big data status. Here, we review recent advances in studies of human mobility and identify the opportunities they present for advancing our understanding of animal movement. We describe key analytical techniques, potential bottlenecks and a roadmap for progress toward a synthesis of movement patterns of wild animals.

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Delineating Geographical Regions with Networks of Human Interactions in an Extensive Set of Countries

Cited by 137 publications

References 32 publications

Exploring Multi-Scale Spatiotemporal Twitter User Mobility Patterns with a Visual-Analytics Approach

Exploring Multi-Scale Spatiotemporal Twitter User Mobility Patterns with a Visual-Analytics Approach

Portraying Temporal Dynamics of Urban Spatial Divisions with Mobile Phone Positioning Data: A Complex Network Approach

How Big Data Fast Tracked Human Mobility Research and the Lessons for Animal Movement Ecology

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