Calling patterns in human communication dynamics

Jiang, Zhi‐Qiang; Xie, Wen-Jie; Li, Ming-Xia; Podobnik, Boris; Zhou, Wei‐Xing; Stanley, H. Eugene

doi:10.1073/pnas.1220433110

Cited by 160 publications

(128 citation statements)

References 29 publications

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“…So we need to ignore these users as outliers prior to the data analysis. Through statistical analysis we find such users either have a large range of movement with uniform distribution or have small ratio of incoming-calls and total calls [20]. So we successfully remove such subscribers considering the characteristics of their spatial distribution and calling patterns.…”

Section: Data Set Descriptionmentioning

confidence: 99%

Inferring Geographical Partitions by Exploiting User Mobility in Urban Area

Feng

Huang

et al. 2014

IEICE Trans. Inf. & Syst.

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SUMMARYUnderstanding the structure and evolution of spatialtemporal networks is crucial for different fields ranging from urbanism to epidemiology. As location based technologies are pervasively used in our daily life, large amount of sensing data has brought the opportunities to study human activities and city dynamics. Ubiquitous cell phones can be such a sensor to analyze the social connection and boundaries of geographical regions. In this paper, we exploit user mobility based on large-scale mobile phone records to study urban areas. We collect the call data records from 1 million anonymous subscribers of 8 weeks and study the user mobility flux between different regions. First we construct the urban areas as a spatial network and use modularity detection algorithm to study the intrinsic connection between map areas. Second, another generative model which is widely used in linguistic context is adopted to explore the functions of regions. Based on mobile call records we are able to derive the partitions which match boundaries of the administrative districts. Our results can also catch the dynamics of urban area as the basis for city planning and policy making. key words: mobile call record, urban dynamics, topic model, location based network

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Section: Data Set Descriptionmentioning

confidence: 99%

Inferring Geographical Partitions by Exploiting User Mobility in Urban Area

Feng

Huang

et al. 2014

IEICE Trans. Inf. & Syst.

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“…Distinct from research about human behavior, human dynamics extracts statistical regularities by analyzing a large number of behavioral data and establishing behavior dynamic model on the basis of the statistical results [3,4]. The heavy-tail interval time distribution is the most ubiquitous characteristic observed in various human behaviors, including E-mail communication [1,3,5], mobile communication [6], and online activities [7][8][9]. Several candidate dynamical mechanisms of temporal bursts in human behavior have been proposed, which provide a good comprehension of the behavior patterns.…”

Section: Introductionmentioning

confidence: 99%

Multiscale Entropy Analysis on Human Operating Behavior

Pan

Liu

et al. 2015

Entropy

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Abstract:By exploiting the statistical analysis method, human dynamics provides new insights to the research of human behavior. In this paper, we analyze the characteristics of the computer operating behavior through a modified multiscale entropy algorithm with both the interval time series and the number series of individuals' operating behavior been investigated. We also discuss the activity of individuals' behavior from the three groups denoted as the retiree group, the student group and the worker group based on the nature of their jobs. We find that the operating behavior of the retiree group exhibits more complex dynamics than the other two groups and further present a reasonable explanation for this phenomenon. Our findings offer new insights for the further understanding of individual behavior at different time scales.

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“…They are described in terms of 1/f noise [1,2], or in terms of bursts that are rapidly occurring events within short time periods alternating with long periods of low activity [3][4][5]. In studies of inhomogeneous temporal processes one finds a unified scaling law for the interoccurrence time of earthquakes [6][7][8], 1/f frequency scaling and power law for interspike interval distributions in neuronal activities [9,10], and heavytailed interevent time distributions in human task execution and communication patterns [3,[11][12][13][14]. The origin of these temporal inhomogeneities has been extensively investigated in terms of self-organized criticality (SOC) [2,15], where temporal inhomogeneities are a consequence of self-similar structures in temporal patterns.…”

Section: Introductionmentioning

confidence: 99%

Contextual analysis framework for bursty dynamics

Pan

Perotti

et al. 2013

Phys. Rev. E

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To understand the origin of bursty dynamics in natural and social processes we provide a general analysis framework in which the temporal process is decomposed into subprocesses and then the bursts in subprocesses, called contextual bursts, are combined to collective bursts in the original process. For the combination of subprocesses, it is required to consider the distribution of different contexts over the original process. Based on minimal assumptions for interevent time statistics, we present a theoretical analysis for the relationship between contextual and collective interevent time distributions. Our analysis framework helps to exploit contextual information available in decomposable bursty dynamics.

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Calling patterns in human communication dynamics

Cited by 160 publications

References 29 publications

Inferring Geographical Partitions by Exploiting User Mobility in Urban Area

Inferring Geographical Partitions by Exploiting User Mobility in Urban Area

Multiscale Entropy Analysis on Human Operating Behavior

Contextual analysis framework for bursty dynamics

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