English

Integrating Hardware Security into a Blockchain-Based Transactive Energy Platform

Cryptography and Security 2020-08-26 v1

Abstract

This applied research paper introduces a novel framework for integrating hardware security and blockchain functionality with grid-edge devices to establish a distributed cyber-security mechanism that verifies the provenance of messages to and from the devices. Expanding the idea of Two Factor Authentication and Hardware Root of Trust, this work describes the development of a Cryptographic Trust Center(TM) (CTC(TM)) chip integrated into grid-edge devices to create uniform cryptographic key management. Product managers, energy system designers, and security architects can utilize this modular framework as a unified approach to manage distributed devices of various vendors, vintages, and sizes. Results demonstrate the application of CTC(TM) to a blockchain-based Transactive Energy (TE) platform for provisioning of cryptographic keys and improved uniformity of the operational network and data management. This process of configuring, installing, and maintaining keys is described as Eco-Secure Provisioning(TM) (ESP(TM)). Laboratory test results show the approach can resolve several cyber-security gaps in common blockchain frameworks such as Hyperledger Fabric.

Keywords

Cite

@article{arxiv.2008.10705,
  title  = {Integrating Hardware Security into a Blockchain-Based Transactive Energy Platform},
  author = {Shammya Shananda Saha and Christopher Gorog and Adam Moser and Anna Scaglione and Nathan G. Johnson},
  journal= {arXiv preprint arXiv:2008.10705},
  year   = {2020}
}

Comments

2021 North American Power Symposium

R2 v1 2026-06-23T18:04:36.628Z