From individual to collective behaviours: exploring population heterogeneity of human mobility based on social media data
Journal article, 2019

This paper examines the population heterogeneity of travel behaviours from a combined perspective of individual actors and collective behaviours. We use a social media dataset of 652,945 geotagged tweets generated by 2,933 Swedish Twitter users covering an average time span of 3.6 years. No explicit geographical boundaries, such as national borders or administrative boundaries, are applied to the data. We use spatial features, such as geographical characteristics and network properties, and apply a clustering technique to reveal the heterogeneity of geotagged activity patterns. We find four distinct groups of travellers: local explorers (78.0%), local returners (14.4%), global explorers (7.3%), and global returners (0.3%). These groups exhibit distinct mobility characteristics, such as trip distance, diffusion process, percentage of domestic trips, visiting frequency of the most-visited locations, and total number of geotagged locations. Geotagged social media data are gradually being incorporated into travel behaviour studies as user-contributed data sources. While such data have many advantages, including easy access and the flexibility to capture movements across multiple scales (individual, city, country, and globe), more attention is still needed on data validation and identifying potential biases associated with these data. We validate against the data from a household travel survey and find that despite good agreement of trip distances (one-day and long-distance trips), we also find some differences in home location and the frequency of international trips, possibly due to population bias and behaviour distortion in Twitter data. Future work includes identifying and removing additional biases so that results from geotagged activity patterns may be generalised to human mobility patterns. This study explores the heterogeneity of behavioural groups and their spatial mobility including travel and day-to-day displacement. The findings of this paper could be relevant for disease prediction, transport modelling, and the broader social sciences.

Hierarchical clustering

Data mining

Geotagged activity patterns

Individual mobility

Author

Yuan Liao

Chalmers, Space, Earth and Environment, Physical Resource Theory

Sonia Yeh

Chalmers, Space, Earth and Environment, Physical Resource Theory

Gustavo S. Jeuken

Royal Institute of Technology (KTH)

EPJ Data Science

2193-1127 (eISSN)

Vol. 8 1 34

Sustainable cities: the use of large amounts of data to understand and handle movement patterns and congestion

Formas (2016-01326), 2017-01-01 -- 2019-12-31.

Subject Categories

Other Computer and Information Science

Civil Engineering

Human Geography

Areas of Advance

Information and Communication Technology

Transport

DOI

10.1140/epjds/s13688-019-0212-x

More information

Latest update

12/3/2019