Takeaways in Large-scale Human Mobility Data Mining : (Invited Paper)

Abstract While large scale mobility data has become a popular tool to monitor the mobility patterns during the COVID-19 pandemic, the impacts of non-compulsory measures in Tokyo, Japan on human mobility patterns has been under-studied. Here, we analyze the temporal changes in human mobility behavior, social contact rates, and their correlations with the transmissibility of COVID-19, using mobility data collected from more than 200K anonymized mobile phone users in Tokyo. The analysis concludes that by April 15th (1 week into state of emergency), human mobility behavior decreased by around 50%, resulting in a 70% reduction of social contacts in Tokyo, showing the strong relationships with non-compulsory measures. Furthermore, the reduction in data-driven human mobility metrics showed correlation with the decrease in estimated effective reproduction number of COVID-19 in Tokyo. Such empirical insights could inform policy makers on deciding sufficient levels of mobility reduction to contain the disease.

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Assessing the use of mobile phone data to describe recurrent mobility patterns in spatial epidemic models

Royal Society Open Science ◽

10.1098/rsos.160950 ◽

2017 ◽

Vol 4 (5) ◽

pp. 160950 ◽

Cited By ~ 19

Author(s):

Cecilia Panigutti ◽

Michele Tizzoni ◽

Paolo Bajardi ◽

Zbigniew Smoreda ◽

Vittoria Colizza

Keyword(s):

Infectious Disease ◽

Mobile Phone ◽

Urban Areas ◽

Large Scale ◽

Human Mobility ◽

Mobile Phone Data ◽

Disease Models ◽

Mobility Patterns ◽

Mobility Data ◽

Infectious Disease Models

The recent availability of large-scale call detail record data has substantially improved our ability of quantifying human travel patterns with broad applications in epidemiology. Notwithstanding a number of successful case studies, previous works have shown that using different mobility data sources, such as mobile phone data or census surveys, to parametrize infectious disease models can generate divergent outcomes. Thus, it remains unclear to what extent epidemic modelling results may vary when using different proxies for human movements. Here, we systematically compare 658 000 simulated outbreaks generated with a spatially structured epidemic model based on two different human mobility networks: a commuting network of France extracted from mobile phone data and another extracted from a census survey. We compare epidemic patterns originating from all the 329 possible outbreak seed locations and identify the structural network properties of the seeding nodes that best predict spatial and temporal epidemic patterns to be alike. We find that similarity of simulated epidemics is significantly correlated to connectivity, traffic and population size of the seeding nodes, suggesting that the adequacy of mobile phone data for infectious disease models becomes higher when epidemics spread between highly connected and heavily populated locations, such as large urban areas.

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Emerging geo-data sources to reveal human mobility dynamics during COVID-19 pandemic: opportunities and challenges

Computational Urban Science ◽

10.1007/s43762-021-00022-x ◽

2021 ◽

Vol 1 (1) ◽

Author(s):

Xiao Li ◽

Haowen Xu ◽

Xiao Huang ◽

Chenxiao Guo ◽

Yuhao Kang ◽

...

Keyword(s):

Data Privacy ◽

Large Scale ◽

Human Mobility ◽

Data Sources ◽

Data Uncertainty ◽

Connected Vehicle ◽

Research Experience ◽

Mobility Data ◽

Vehicle Data ◽

Spatial Coverage

AbstractEffectively monitoring the dynamics of human mobility is of great importance in urban management, especially during the COVID-19 pandemic. Traditionally, the human mobility data is collected by roadside sensors, which have limited spatial coverage and are insufficient in large-scale studies. With the maturing of mobile sensing and Internet of Things (IoT) technologies, various crowdsourced data sources are emerging, paving the way for monitoring and characterizing human mobility during the pandemic. This paper presents the authors’ opinions on three types of emerging mobility data sources, including mobile device data, social media data, and connected vehicle data. We first introduce each data source’s main features and summarize their current applications within the context of tracking mobility dynamics during the COVID-19 pandemic. Then, we discuss the challenges associated with using these data sources. Based on the authors’ research experience, we argue that data uncertainty, big data processing problems, data privacy, and theory-guided data analytics are the most common challenges in using these emerging mobility data sources. Last, we share experiences and opinions on potential solutions to address these challenges and possible research directions associated with acquiring, discovering, managing, and analyzing big mobility data.

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High-resolution human mobility data reveal race and wealth disparities in disaster evacuation patterns

Humanities and Social Sciences Communications ◽

10.1057/s41599-021-00824-8 ◽

2021 ◽

Vol 8 (1) ◽

Author(s):

Hengfang Deng ◽

Daniel P. Aldrich ◽

Michael M. Danziger ◽

Jianxi Gao ◽

Nolan E. Phillips ◽

...

Keyword(s):

Large Scale ◽

Human Mobility ◽

Extreme Weather Events ◽

Policy Recommendations ◽

Power Law Distribution ◽

Mobility Data ◽

Weather Events ◽

Destination Choices ◽

Quantitative Understanding ◽

Houston Area

AbstractMajor disasters such as extreme weather events can magnify and exacerbate pre-existing social disparities, with disadvantaged populations bearing disproportionate costs. Despite the implications for equity and emergency planning, we lack a quantitative understanding of how these social fault lines translate to different behaviours in large-scale emergency contexts. Here we investigate this problem in the context of Hurricane Harvey, using over 30 million anonymized GPS records from over 150,000 opted-in users in the Greater Houston Area to quantify patterns of disaster-inflicted relocation activities before, during, and after the shock. We show that evacuation distance is highly homogenous across individuals from different types of neighbourhoods classified by race and wealth, obeying a truncated power-law distribution. Yet here the similarities end: we find that both race and wealth strongly impact evacuation patterns, with disadvantaged minority populations less likely to evacuate than wealthier white residents. Finally, there are considerable discrepancies in terms of departure and return times by race and wealth, with strong social cohesion among evacuees from advantaged neighbourhoods in their destination choices. These empirical findings bring new insights into mobility and evacuations, providing policy recommendations for residents, decision-makers, and disaster managers alike.

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Analyzing large-scale human mobility data: a survey of machine learning methods and applications

Knowledge and Information Systems ◽

10.1007/s10115-018-1186-x ◽

2018 ◽

Vol 58 (3) ◽

pp. 501-523 ◽

Cited By ~ 25

Author(s):

Eran Toch ◽

Boaz Lerner ◽

Eyal Ben-Zion ◽

Irad Ben-Gal

Keyword(s):

Machine Learning ◽

Large Scale ◽

Human Mobility ◽

Learning Methods ◽

Machine Learning Methods ◽

Mobility Data

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Heterogeneous interventions reduce the spread of COVID-19 in simulations on real mobility data

Scientific Reports ◽

10.1038/s41598-021-87034-z ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Haotian Wang ◽

Abhirup Ghosh ◽

Jiaxin Ding ◽

Rik Sarkar ◽

Jie Gao

Keyword(s):

Small Group ◽

Infection Rate ◽

Large Scale ◽

Network Effects ◽

Human Mobility ◽

Social Activity ◽

Activity Levels ◽

Mobility Data ◽

Human Movements ◽

The World

AbstractMajor interventions have been introduced worldwide to slow down the spread of the SARS-CoV-2 virus. Large scale lockdown of human movements are effective in reducing the spread, but they come at a cost of significantly limited societal functions. We show that natural human movements are statistically diverse, and the spread of the disease is significantly influenced by a small group of active individuals and gathering venues. We find that interventions focused on these most mobile individuals and popular venues reduce both the peak infection rate and the total infected population while retaining high social activity levels. These trends are seen consistently in simulations with real human mobility data of different scales, resolutions, and modalities from multiple cities across the world. The observation implies that compared to broad sweeping interventions, more heterogeneous strategies that are targeted based on the network effects in human mobility provide a better balance between pandemic control and regular social activities.

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A Data Mining Approach to Assess Privacy Risk in Human Mobility Data

ACM Transactions on Intelligent Systems and Technology ◽

10.1145/3106774 ◽

2018 ◽

Vol 9 (3) ◽

pp. 1-27 ◽

Cited By ~ 4

Author(s):

Roberto Pellungrini ◽

Luca Pappalardo ◽

Francesca Pratesi ◽

Anna Monreale

Keyword(s):

Data Mining ◽

Human Mobility ◽

Privacy Risk ◽

Mobility Data ◽

Data Mining Approach

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Mobile phone data reveals the importance of pre-disaster inter-city social ties for recovery after Hurricane Maria

Applied Network Science ◽

10.1007/s41109-019-0221-5 ◽

2019 ◽

Vol 4 (1) ◽

Cited By ~ 1

Author(s):

Takahiro Yabe ◽

Satish V. Ukkusuri ◽

P. Suresh C. Rao

Keyword(s):

Mobile Phone ◽

Large Scale ◽

Human Mobility ◽

Recovery Process ◽

Mobile Phone Data ◽

Mobility Patterns ◽

Social Forms ◽

Recovery Processes ◽

Mobility Data ◽

New Perspective

Abstract Recent disasters have shown the existence of large variance in recovery trajectories across cities that have experienced similar damage levels. Case studies of such events reveal the high complexity of the recovery process of cities, where inter-city dependencies and intra-city coupling of social and physical systems may affect the outcomes in unforeseen ways. Despite the large implications of understanding the recovery processes of cities after disasters for many domains including critical services, disaster management, and public health, little work have been performed to unravel this complexity. Rather, works are limited to analyzing and modeling cities as independent entities, and have largely neglected the effect that inter-city connectivity may have on the recovery of each city. Large scale mobility data (e.g. mobile phone data, social media data) have enabled us to observe human mobility patterns within and across cities with high spatial and temporal granularity. In this paper, we investigate how inter-city dependencies in both physical as well as social forms contribute to the recovery performances of cities after disasters, through a case study of the population recovery patterns of 78 Puerto Rican counties after Hurricane Maria using mobile phone location data. Various network metrics are used to quantify the types of inter-city dependencies that play an important role for effective post-disaster recovery. We find that inter-city social connectivity, which is measured by pre-disaster mobility patterns, is crucial for quicker recovery after Hurricane Maria. More specifically, counties that had more influx and outflux of people prior to the hurricane, were able to recover faster. Our findings highlight the importance of fostering the social connectivity between cities to prepare effectively for future disasters. This paper introduces a new perspective in the community resilience literature, where we take into account the inter-city dependencies in the recovery process rather than analyzing each community as independent entities.

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