On the Decomposition of Cell Phone Activity Patterns and their Connection with Urban Ecology

Video of heatmap activity for 24h in Milan - Nov.1st 2013

The goal of this work is to infer features of urban ecology (i.e., social and economic activities, and social interaction) from spatiotemporal cell phone activity data. We present a novel approach that consists of (i) time series decomposition of the aggregate cell phone activity per unit area using spectral methods, (ii) clustering of areal units with similar activity patterns, and (ii) external validation using a ground truth data set we collected from municipal and online sources. The key to our approach is the spectral decomposition of the original cell phone activity series into seasonal communication series (SCS) and residual communication series (RCS). The former captures regular patterns of socio-economic activity within an area and can be used to segment a city into distinct clusters. RCS across areas enables the detection of regions that are subject to mutual social influence and of regions that are in direct communication contact. The RCS and SCS thus provide distinct probes into the structure and dynamics of the urban environment, both of which can be obtained from the same underlying data. We illustrate the effectiveness of our methodology by applying it to aggregate Call Description Records (CDRs) from the city of Milan


  • Use temporal activity as a “signature” of a grid square:
    • Activity = Calls, SMS, and Internet data
  • Use this signature to characterize the area



  • On the decomposition of cell phone activity patterns and their connection with urban ecology
    [ pdf, bibtex , slides, software, datasets ]
    Blerim Cici, Minas Gjoka, Athina Markopoulou, Carter T. Butts
    To appear in ACM Mobihoc '15.

Software and datasets


Blerim Cici, Ph.D. candidate, Information and Computer Science Department
Minas Gjoka, Project Scientist, Calit2
Carter T. Butts, Professor, Sociology, Statistics, and EECS Departments
Athina Markopoulou, Associate Professor, Electrical Engineering and Computer Science Department