Download PDFOpen PDF in browser

PPDMIT: a Lightweight Architecture for Privacy-Preserving Data Aggregation in the Internet of Things

EasyChair Preprint no. 8281

28 pagesDate: June 18, 2022

Abstract

Data is generated over time by each device in the Internet of Things (IoT) ecosphere. Recent years have seen a resurgence in interest in the IoT due to its positive impact on society. However, due to the automatic management of IoT devices, the possibility of disclosing sensitive information without user consent is high. A situation in which information should not be unintentionally disclosed to outside parties we do not trust, i.e., privacy-preserving. Additionally, IoT devices should share their data with others to perform data aggregation and provide high-level services. There is a trade-off between the amount of data utility and the amount of disclosure of data. This trade-off has been caused a big challenge in this field. To improve this trafe-off efficiency rather than current studies, in this study, we propose a Privacy-Preserving Data Aggregation architecture, PPDMIT, that leverages homomorphic paillier encryption, K-means, a one-way hash chain, and the Chinese Remainder Theorem. We have found that the proposed privacy-preserving architecture achieves a more efficient data aggregation than current studies and improves privacy preservation by utilizing extensive simulations. Moreover, we found that our proposed architecture is highly applicable to IoT environments while preventing unauthorized data disclosure. Specifically, our solution depicted 8.096% improvement over LPDA and 6.508% over PPIOT.

Keyphrases: CRT, Data Aggregation, Internet of Things, low cost, Paillier encryption, privacy preservation

BibTeX entry
BibTeX does not have the right entry for preprints. This is a hack for producing the correct reference:
@Booklet{EasyChair:8281,
  author = {Mehdi Gheisari},
  title = {PPDMIT: a Lightweight Architecture for Privacy-Preserving Data Aggregation in the Internet of Things},
  howpublished = {EasyChair Preprint no. 8281},

  year = {EasyChair, 2022}}
Download PDFOpen PDF in browser