Contact

University of Oldenburg Faculty II - Department of Computer Science Department Safety-Security-Interaction 26111 Oldenburg

Secretariat

Ingrid Ahlhorn

A03 2-208

+49 (0) 441 - 798 2426

Safety-Security-Interaction

Welcome to the Safety-Security-Interaction Group!

The Safety-Security-Interaction group is concerned with the development of theoretically sound technologies for maintaining the security of IT systems in the context of safety-critical systems and the Internet of Things. The focus is on the development of security solutions that are tailored to the context-specific conditions and that take into account various types of user-interaction as well as the functional safety of the to-be-protected systems.

News

Successful PhD thesis defence of Valeriu Stanciu

Valeriu Stanciu successfully defended his PhD thesis with the title „Privacy-Friendly Wi-Fi-Based Crowd Monitoring for Pedestrian Dynamics Analytics” on 25 November 2022. Congratulations!

On 9 December 2022, Valeriu Stanciu successfully defended his PhD thesis with the title „Privacy-Friendly Wi-Fi-Based Crowd Monitoring for Pedestrian Dynamics Analytics”.

The supervisors of the thesis were Prof. Dr. Maarten van Steen (University of Twente, The Netherlands), Prof. Dr. Andreas Peter (University of Oldenburg, Germany) und Prof. Dr. Ciprian Dobre (Polytechnical University of Bucharest, Romania).

Moreover, the following committee members were involved in the assessment of the thesis:

  • Prof. Dr. Joost Kok, University of Twente, The Netherlands (chair of committee)
  • Prof. Dr. Geert Heijenk, University of Twente, The Netherlands
  • Dr. Anna Sperotto, University of Twente, The Netherlands
  • Prof. Dr. Delphine Reinhardt, University of Göttingen, Germany
  • Prof. Dr. Sander Klous, University of Amsterdam, The Netherlands
  • Dr. Radu Ciobanu, Polytechnical University of Bucharest, Romania

Here’s a short summary of the PhD thesis:

Understanding pedestrian dynamics in crowded public spaces has shown to be important. Nowadays, there are widely deployed sensing infrastructures that detect Wi-Fi signals emitted by smartphones carried by people in crowds. Based on these detections, crowd-monitoring insights can be derived in the form of statistical counts, offering information such as the footfall in a location as well as crowd flows between several locations. Because detections of devices carried by individuals must be handled in the process, there are legitimate concerns regarding the privacy of those sensed individuals. There have been attempts to address these privacy concerns, but they proved to be insufficient, mostly because uniquely tracing back to individuals still remained possible.

We propose two new methods that protect the privacy-sensitive detections of individuals while still allowing the computation of statistical counts on crowds. The first method anonymizes detections on the fly, ensuring protection under what we call detection k-anonymity for all the collected data, no matter how the anonymized data is combined to address future queries. The second method relies on encoding detections into probabilistic data structures called Bloom filters (BFs), and then encrypting the resulting BFs with a homomorphic encryption (HE) scheme. As part of a multi-party cryptographic construction, HE allows performing the operations needed for computing the statistical counts directly on the encrypted data, without the ability to decrypt, revealing only the end result in the clear to the intended recipient. Furthermore, to enable granular decisions upon which detected devices are considered as part of the crowd and under the same privacy protection guarantees ensured by the combination of BFs with HE, we explore the possibility of separately counting nonstationary from stationary devices based on their frequency of detection.

We implement and extensively evaluate the proposed contributions using simulated, as well as real-world data. Our results demonstrate that highly accurate statistical counting for pedestrian dynamics is possible while privacy protection is guaranteed.

Link to PhD thesis:

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