Litcius/Paper detail

Data Privacy Based on IoT Device Behavior Control Using Blockchain

Faiza Loukil, Chirine Ghédira, Khouloud Boukadi, Benharkat Aïcha-Nabila, Elhadj Benkhelifa

2021ACM Transactions on Internet Technology37 citationsDOIOpen Access PDF

Abstract

The Internet of Things (IoT) is expected to improve the individuals’ quality of life. However, ensuring security and privacy in the IoT context is a non-trivial task due to the low capability of these connected devices. Generally, the IoT device management is based on a centralized entity that validates communication and connection rights. Therefore, this centralized entity can be considered as a single point of failure. Yet, in the case of distributed approaches, it is difficult to delegate the right validation to IoT devices themselves in untrustworthy IoT environments. Fortunately, the blockchain may provide decentralization of overcoming the trust problem while designing a privacy-preserving system. To this end, we propose a novel privacy-preserving IoT device management framework based on the blockchain technology. In the proposed system, the IoT devices are controlled by several smart contracts that validate the connection rights according to the privacy permission settings predefined by the data owners and the stored record array of detected misbehavior of each IoT device. In fact, smart contracts can immediately detect the devices that have vulnerabilities and have been hacked or pose a threat to the IoT network. Therefore, the data owner’s privacy is preserved by enforcing the control over the own devices. For validation purposes, we deploy the proposed solution on a private Ethereum blockchain and give the performance evaluation.

Topics & Concepts

Computer scienceDelegateComputer securitySingle point of failureContext (archaeology)BlockchainInternet of ThingsPermissionPrivacy protectionInformation privacyComputer networkBiologyLawProgramming languagePaleontologyPolitical scienceBlockchain Technology Applications and SecurityPrivacy, Security, and Data ProtectionIoT and Edge/Fog Computing