Document Type
Article
Publication Date
12-2016
Publication Source
Security and Communication Networks
Abstract
Smart grid is an intelligent cyber physical system (CPS). The CPS generates a massive amount of data for efficient grid operation. In this paper, a big data-driven, cloud-based information and communication technology (ICT) framework for smart grid CPS is proposed. The proposed ICT framework deploys hybrid cloud servers to enhance scalability and reliability of smart grid communication infrastructure. Because the data in the ICT framework contains much privacy of customers and important data for automated controlling, the security of data transmission must be ensured. In order to secure the communications over the Internet in the system, identity-based schemes are proposed especially because of their advantage in key management. Specifically, an identity-based signcryption (IBSC) scheme is proposed to provide confidentiality, non-repudiation, and data integrity. For practical purposes, an identity-based signature scheme is relaxed from the proposed IBSC to provide non-repudiation only. Moreover, identity-based schemes are also proposed to achieve signature delegation within the ICT framework. Security of the proposed IBSC scheme is rigorously analyzed in this work. Efficiency of the proposed IBSC scheme is demonstrated with an implementation using modified Weil pairing over an elliptic curve. Copyright (c) 2016 John Wiley & Sons, Ltd.
Inclusive pages
5262-5277
ISBN/ISSN
1939-0114
Document Version
Published Version
Publisher
Wiley-Hindawi
Volume
9
Peer Reviewed
yes
Issue
18
Sponsoring Agency
National Science Foundation (NSF) ; NSF - Directorate for Computer & Information Science & Engineering (CISE)
eCommons Citation
Ye, Feng; Qian, Yi; and Hu, Rose Qingyang, "Identity-Based Schemes for a Secured Big Data and Cloud ICT Framework in Smart Grid System" (2016). Electrical and Computer Engineering Faculty Publications. 452.
https://ecommons.udayton.edu/ece_fac_pub/452
Included in
Computer Engineering Commons, Electrical and Electronics Commons, Electromagnetics and Photonics Commons, Optics Commons, Other Electrical and Computer Engineering Commons, Systems and Communications Commons
Comments
This open-access article is provided for download in compliance with the publisher’s policy on self-archiving. To view the version of record, use the DOI: https://doi.org/10.1002/sec.1695