Public-Key Infrastructure for Smart Meters using Blockchains
Wilson S. Melo, Raphael C. S. Machado, Daniel Peters, Mahbuba Moni
Abstract
Public-Key Infrastructures are elementary building blocks to implement digital signatures (i.e., digital notarization) and, hence, ensure information integrity, authenticity, and nonrepudiation. This feature is a promising alternative to improve the reliability of smart meters. However, conventional PKIs can be too expensive in scenarios that consist of a significant number of meters. In this work, we propose a blockchain-based PKI, describing how to tailor this solution to deal with specific aspects related to smart meter protection. We also implement our proposal as a smart contract with the Hyperledger Fabric platform. The results show our solution's feasibility and provide a reliable model to manage digital certificates for a wide diversity of smart devices.