Journal of Big Data (Mar 2019)

Detecting high indoor crowd density with Wi-Fi localization: a statistical mechanics approach

  • Sonja Georgievska,
  • Philip Rutten,
  • Jan Amoraal,
  • Elena Ranguelova,
  • Rena Bakhshi,
  • Ben L. de Vries,
  • Michael Lees,
  • Sander Klous

DOI
https://doi.org/10.1186/s40537-019-0194-3
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 23

Abstract

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Abstract We address the problem of detecting highly raised crowd density in situations such as indoor dance events. We propose a new method for estimating crowd density by anonymous, non-participatory, indoor Wi-Fi localization of smart phones. Using a probabilistic model inspired by statistical mechanics, and relying only on big data analytics, we tackle three challenges: (1) the ambiguity of Wi-Fi based indoor positioning, which appears regardless of whether the latter is performed with machine learning or with optimization, (2) the MAC address randomization when a device is not connected, and (3) the volatility of packet interarrival times. The main result is that our estimation becomes more—rather than less—accurate when the crowd size increases. This property is crucial for detecting dangerous crowd density.

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