Smart meters provide a lot of convenience for both power supply and consumption. Due to the frequent transmission of information, it brings great challenges to the privacy preservation of the user’s household power consumption data in the smart grid. In order to achieve the anonymity of smart meters. A smart meter privacy preservation scheme based on identity authentication is proposed. The third-party certification authority is introduced in this scheme; it issues pseudonym certificates to realize the identity privacy preservation of smart meters. The masking technology with the Advanced Encryption Standard algorithm is used for data aggregation. The results show that our scheme reduces the computational cost and the communication overhead.
References
[1]
Ferrag, M.A., Maglaras, L.A., Janicke, H., et al. (2018) A Systematic Review of Data Protection and Privacy Preservation Schemes for Smart Grid Communications. Sustainable Cities and Society, S2210670717308399.
[2]
Farhangi, H. (2010) The Path of the Smart Grid. IEEE Power and Energy Magazine, 8, 18-28.
[3]
Chan, J.C.L. and Wong, D.S. (2015) A Survey on Security Assessment of Metering Infrastructure in Smart Grid Systems. Proc. IEEE Southeast Con, 1-4.
[4]
Smartgrids and Meters (2015).
http://ec.europa.eu/energy/en/topics/marketsand-consumers/smart-grids-and-meters
[5]
Yu, S. (2017) Big Privacy: Challenges and Opportunities of Privacy Study in the Age of Big Data. IEEE Access.
[6]
Mehmood, A., Natgunanathan, I., Xiang, Y., et al. (2016) Protection of Big Data Privacy. IEEE Access, 4, 1821-1834.
[7]
Karimi, B., Namboodiri, V. and Jadliwala, M. (2015) Scalable Meter Data Collection in Smart Grids through Message Concatenation. IEEE Transactions on Smart Grid, 6, 1697-1706.
[8]
Li, F., Luo, B. and Liu, P. (2011) Secure and Privacy-Preserving Information Aggregation for Smart Grids. Int. J. Security and Networks, 6, 28-39.
[9]
Saxena, N., Choi, B.J. and Grijalva, S. (2017) Secure and Privacy-Preserving Concentration of Metering Data in AMI Networks. IEEE ICC.
[10]
Tan, X., Zheng, J., Zou, C., et al. (2016) Pseudonym-Based Privacy-Preserving Scheme for Data Collection in Smart Grid. International Journal of Ad Hoc & Ubiquitous Computing, 22, 120-127.
[11]
Chim, T., Yiu, S., Hui, L. and Li, V. (2011) PASS: Privacy-Preserving Authentication Scheme for Smart Grid Network. 2011 IEEE International Conference on Smart Grid Communications (SmartGridComm).
[12]
Cheung, J.C.L., Chim, T.W., Yiu, S.M., et al. (2011) Credential-Based Privacy-Preserving Power Request Scheme for Smart Grid Network. IEEE Global Telecommunications Conference.
[13]
Yu, C.M., Chen, C.Y., Kuo, S.Y., et al. (2014) Privacy-Preserving Power Request in Smart Grid Networks.
[14]
Guan, Z., Zhang, Y. and Wu, L. APPA: An Anonymous and Privacy Preserving Data Aggregation Scheme for Fog-Enhanced IoT. Journal of Network and Computer Applications.
[15]
Garcia and Jacobs, B. (2010) Privacy-Friendly Energy-Metering via Homomorphic Encryption.
[16]
Saxena, N., Choi, B. and Lu, R. (2015) Authentication and Authorization Scheme for Various User-Roles and Devices in Smart Grid. IEEE Transactions on Information Forensics and Security, 1.
[17]
ács, G. and Castelluccia, C. (2011) I Have a DREAM! (DiffeRentially privatE smArt Metering).
[18]
Riyaldhi, R. and Kurniawan, A. (2017) Improvement of Advanced Encryption Standard Algorithm with Shift Row and S.Box Modification Mapping in Mix Column. Procedia Computer Science, 116, 401-407.
[19]
Camenisch, J. and Stadler, M. (1997) Efficient Group Signature Schemes for Large Groups. Annual International Cryptology Conference, Springer, 410-424.
[20]
Zhang, L., Liang, P. and Mu, Y. (2018) Improving Privacy-Preserving and Security for Decentralized Key-Policy Attributed-Based Encryption. IEEE Access, 6, 12736-12745.