Understanding Human Mobility Flows from Aggregated Mobile Phone Data

Balzotti, Caterina; Bragagnini, Andrea; Briani, Maya; Cristiani, Emiliano

doi:10.1016/j.ifacol.2018.07.005

Cited by 25 publications

(20 citation statements)

References 15 publications

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“…Analytics and visualizations can provide true values and real‐world contributions to big data computing that map well with geographic information systems (Chang, ). To discover the population's commuting patterns and directions, having only aggregated CDR data from mobile cellular base stations, the Monge–Kantorovich mass movement model (Balzotti et al, ) was used. Wasserstein distance calculations provide approximate indications on human commuting patterns across a certain territory in different time periods, allowing an analysis of different times of the day and days of the week and enabling the discovery of seasonality effects on commuting throughout the year.…”

Section: Methodsmentioning

confidence: 99%

“…Mobile data analysis is an authoritative source of information for problem solving in the fields of human activity recognition, population dynamics, tourism, transport planning, traffic measurement, and public administration. Previously, mobile positioning data have been analysed in the context of residents' movements (Ahas, Aasa, Silm, & Tiru, ; Zonghao, Dongyuan, & Zhengyu, ), human home‐work commuting (Kung, Greco, Sobolevsky, & Ratti, ), automatic recognition of population activities (Chetty, White, & Akther, ; Lee & Cho, ), estimation of human trajectories (Hoteit, Secci, Sobolevsky, Ratti, & Pujolle, ; Larijani, Olteanu‐Raimond, Perret, Bredif, & Ziemlicki, ; Liu, Janssens, Wets, & Cools, ; Zilske & Nagel, ) and flows (Balzotti, Bragagnini, Briani, & Cristiani, ), as well as patterns of population dynamics (Deville et al, ; Trasarti et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Mobile phone data statistics as a dynamic proxy indicator in assessing regional economic activity and human commuting patterns

et al. 2020

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Various studies demonstrate that data on mobile phone use are useful when analysing problems in the fields of human activity or population dynamics, including tourism, transportation planning, public administration, etc. However, one of the biggest challenges is related to the restrictions contained in the General Data Protection Regulation that force the use of statistics about mobile operator client activities instead of allowing the analysis of mobile operator data. Therefore, a data analytics approach that does not involve information on the mobility of particular persons was developed, providing economically relevant data on aggregate mobility while protecting personal data. The activity data aggregation was conducted at 15-min intervals in the area of each cellular base station; "activity" is defined as the number of outgoing and incoming calls and sent and received text messages (short message service or SMS) and, in some instances, as the count of unique users. The case study examines all of Latvia's municipalities, analysing the economic activity level in each municipality in comparison to the mobile phone activity

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Mobile phone data statistics as a dynamic proxy indicator in assessing regional economic activity and human commuting patterns

et al. 2020

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“…Yet, building the OD matrix from aggregated mobility data is much more challenging than doing it from single user trajectory data. However, there are some promising approaches, such as in [4,5] based on the identification of the most likely set of movements explaining changes in the crowd density. Finally, knowing what are the patterns of the crowd flows with respect to a given moment of the day can be helpful for predicting the travel demand: in [6], for example, the authors propose a location recommendation system that infers personal preferences while at the same time taking in consideration the constraints imposed by traffic and road capacity.…”

Section: Mobility and Urban Planningmentioning

confidence: 99%

Sensing and Forecasting Crowd Distribution in Smart Cities: Potentials and Approaches

Cecaj

Lippi

Mamei

et al. 2021

IoT

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The possibility of sensing and predicting the movements of crowds in modern cities is of fundamental importance for improving urban planning, urban mobility, urban safety, and tourism activities. However, it also introduces several challenges at the level of sensing technologies and data analysis. The objective of this survey is to overview: (i) the many potential application areas of crowd sensing and prediction; (ii) the technologies that can be exploited to sense crowd along with their potentials and limitations; (iii) the data analysis techniques that can be effectively used to forecast crowd distribution. Finally, the article tries to identify open and promising research challenges.

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“…The use of data from mobile phones to analyse physical mobility in a population is not new, [16][17][18][19] and the location of mobile devices, as a proxy for the users' geographical presence, has long been used for commercial purposes, such as for tailored advertising, as well as to inform subscribers about their daily activities, such as numbers of steps taken. 20 The opportunity that mobile phones and associated apps offer in combating the pandemic has already been recognised, 21 with applications such as the Chinese coronavirus "close contact detector" app, which brings together routine data on travel, case reports, and users' mobile phone location information to detect possible contacts with infected people, 22 or the South Korean official mobile phone apps, which are used similarly for agile contact tracing, but also as a means to monitor people in home quarantine.…”

Section: Introductionmentioning

confidence: 99%

Putting (Big) Data in Action: Saving Lives with Countrywide Population Movement Monitoring Using Mobile Devices during the COVID‐19 Crisis

Szócska

Pollner

Schiszler

et al. 2020

Preprint

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Many countries have implemented strict social distancing measures in the hope of reducing transmission of SARS-CoV-2 but the effectiveness of these measures is determined by the willingness of populations to comply with restrictions. Consequently, a system of monitoring population movement using existing data sources can inform those making decisions about policy responses to the COVID-19 pandemic. We describe a collaboration with all 3 major domestic telecommunication companies in Hungary to use aggregated anonymous mobile phone usage data to calculate two indices for assessing the effect of movement restrictions: a "mobility-index" and a "stay-at-home (or resting) index". The strengths and weaknesses of this approach are compared with the smartphone-based, COVID-19 Community Mobility Reports from Google. Data generated by mobile phones have long been identified as a potential means to analyse mass population movement, but its operationalisation raises several technical questions, such as making sense of Call Detail Records, collation of data from different mobile network providers, and personal data protection concerns. The method described here addresses these issues and offers an effective and inexpensive tool to monitor the impact of social distancing measures, achieving high levels of accuracy and resolution. Especially in populations where uptake of smartphones is modest, this method has certain advantages over app-based solutions, with greater population coverage, but it is not an alternative to smartphone-based solutions used for contact tracing and quarantine monitoring. We believe that this method can easily be adapted by other countries.

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Understanding Human Mobility Flows from Aggregated Mobile Phone Data

Cited by 25 publications

References 15 publications

Mobile phone data statistics as a dynamic proxy indicator in assessing regional economic activity and human commuting patterns

Mobile phone data statistics as a dynamic proxy indicator in assessing regional economic activity and human commuting patterns

Sensing and Forecasting Crowd Distribution in Smart Cities: Potentials and Approaches

Putting (Big) Data in Action: Saving Lives with Countrywide Population Movement Monitoring Using Mobile Devices during the COVID‐19 Crisis

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