Using blockchain as a decentralized backend infrastructure has grabbed the attention of many startups entrepreneurs and developers. Blockchain records transactions permanently and protects them from undesirable tampering. It provides a reliable tamper-proof database which can be considered as a trustable source for tracking the previous system state. In this paper, we present our access control application based on Hyperledger Fabric Blockchain and Hyperledger Composer to control access to physical places. The system components and modular architecture are illustrated, and we have extracted metadata include historian transactions details arising from our demo test. Finally, the performance metrics and resources consumption are provided using Hyperledger Caliper, a benchmark framework for measuring Hyperledger blockchains performance.
Cite
@article{arxiv.1901.09873,
title = {Physical Access Control Management System Based on Permissioned Blockchain},
author = {Sara Rouhani and Vahid Pourheidari and Ralph Deters},
journal= {arXiv preprint arXiv:1901.09873},
year = {2024}
}
Comments
2018 IEEE Confs on Internet of Things, Green Computing and Communications, Cyber, Physical and Social Computing,Smart Data, Blockchain, Computer and Information Technology, Congress on Cybermatics