Pu Wang scite author profile

Novel aspects of human dynamics and social interactions are investigated by means of mobile phone data. Using extensive phone records resolved in both time and space, we study the mean collective behavior at large scales and focus on the occurrence of anomalous events. We discuss how these spatiotemporal anomalies can be described using standard percolation theory tools. We also investigate patterns of calling activity at the individual level and show that the interevent time of consecutive calls is heavy-tailed. This finding, which has implications for dynamics of spreading phenomena in social networks, agrees with results previously reported on other human activities.

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Understanding the Spreading Patterns of Mobile Phone Viruses

Wang

González

Hidalgo

et al. 2009

Science

448

341

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We modeled the mobility of mobile phone users in order to study the fundamental spreading patterns that characterize a mobile virus outbreak. We find that although Bluetooth viruses can reach all susceptible handsets with time, they spread slowly because of human mobility, offering ample opportunities to deploy antiviral software. In contrast, viruses using multimedia messaging services could infect all users in hours, but currently a phase transition on the underlying call graph limits them to only a small fraction of the susceptible users. These results explain the lack of a major mobile virus breakout so far and predict that once a mobile operating system's market share reaches the phase transition point, viruses will pose a serious threat to mobile communications.

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Modeling real-time human mobility based on mobile phone and transportation data fusion

Huang

Ling

Wang

et al. 2018

Transportation Research Part C: Emerging Technologies

112

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Multicomponent chirp signals analysis using product cubic phase function

Wang

Yang

2006

Digital Signal Processing

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Pu Wang

Uncovering individual and collective human dynamics from mobile phone records

Understanding the Spreading Patterns of Mobile Phone Viruses

Modeling real-time human mobility based on mobile phone and transportation data fusion

Multicomponent chirp signals analysis using product cubic phase function

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