Abstract
Recent advances of Internet and microelectronics technologies have led to the concept of smart grid which has been a widespread concern for industry, governments, and academia. The openness of communications in the smart grid environment makes the system vulnerable to different types of attacks. The implementation of secure communication and the protection of consumers’ privacy have become challenging issues. The data aggregation scheme is an important technique for preserving consumers’ privacy because it can stop the leakage of a specific consumer’s data. To satisfy the security requirements of practical applications, a lot of data aggregation schemes were presented over the last several years. However, most of them suffer from security weaknesses or have poor performances. To reduce computation cost and achieve better security, we construct a lightweight data aggregation scheme against internal attackers in the smart grid environment using Elliptic Curve Cryptography (ECC). Security analysis of our proposed approach shows that it is provably secure and can provide confidentiality, authentication, and integrity. Performance analysis of the proposed scheme demonstrates that both computation and communication costs of the proposed scheme are much lower than the three previous schemes. As a result of these aforementioned benefits, the proposed lightweight data aggregation scheme is more practical for deployment in the smart grid environment.
Highlights
By providing bidirectional communications of electricity and information, the smart grid performs real-time monitoring of power usage [1]
To reduce both computation and communication costs, we propose a lightweight data aggregation scheme based on the Elliptic Curve Cryptography (ECC) [18, 19], which can obtain the same security level but with a much shorter key size
To ensure security and protect privacy in the smart grid environment, several data aggregation schemes have been proposed in recent years
Summary
By providing bidirectional communications of electricity and information, the smart grid performs real-time monitoring of power usage [1]. Based on the real-time information, the providers can monitor the power generation and consumption and get immediate power demand of each area. Many of these schemes cannot implement the integrity and confidentiality simultaneously To address this challenge, data aggregation schemes have been proposed by several researchers and applied in the smart grid. Several data aggregation schemes against internal attackers were proposed to enhance security, their computation or communication costs are too high for practical smart grid applications. To reduce both computation and communication costs, we propose a lightweight data aggregation scheme based on the Elliptic Curve Cryptography (ECC) [18, 19], which can obtain the same security level but with a much shorter key size.
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