Tingrui Pei , Zhiwen Hou , Jun Zhou , Chixin Xiao , Juan Zou
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引用次数: 0
摘要
本文提出了一种基于区块链的方案,重点关注匿名身份验证和数据聚合,以实现基于高级计量基础设施(AMI)的公用事业公司与电力用户之间更安全、更可靠的双向通信。首先,为了应对资源受限的智能电表之间的相互身份验证,设计了一种使用椭圆曲线加密技术的轻量级匿名身份验证策略。同时,利用区块链的去中心化和不可篡改特性,开发了基于信誉的共识协议,以完成 AMI 中的数据聚合。在通信过程中,在每个时隙,所提出的方案只需随机选择一个可信用户来承担挖矿节点,而不需要以中心化的方式引入第三方将用户端数据汇总并记录到区块链中。这种方案可以有效防止数据被篡改,也能有效降低处理复杂度。本文采用 AVISPA 工具对其安全性进行了正式评估。仿真结果表明该方案性能良好。所提出的方案不仅能保证通信安全,还能有效降低 AMI 的计算成本。
Blockchain-based anonymous authentication and data aggregation for advanced metering infrastructure in smart grid
This paper proposes a blockchain-based scheme, focusing on anonymous identity authentication and data aggregation, for safer and more reliable bidirectional communication between the utility company and power consumers based on Advanced Metering Infrastructure (AMI). Firstly, to cope with the mutual identity authentication between resource-constrained Smart Meters, a lightweight anonymous authentication strategy is designed using Elliptic Curve Cryptography. Meanwhile, a reputation-based consensus protocol is developed to accomplish data aggregation in AMI by using decentralization and non-tampering features of the blockchain. During the communication, in each time slot, the proposed scheme only needs to select a trusted user randomly to undertake the mining node rather than to introduce a third-party in a centralized manner to summarize and record the user-side data into the blockchain. Such scheme can effectively prevent data tampering and also be effective to decrease the processing complexity. The AVISPA tool is adopted to formally evaluate its security. The simulation results show promising performance. The proposed scheme not only can guarantee secure communication but also effectively decrease the computational cost in AMI.
期刊介绍:
The International Journal of Critical Infrastructure Protection (IJCIP) was launched in 2008, with the primary aim of publishing scholarly papers of the highest quality in all areas of critical infrastructure protection. Of particular interest are articles that weave science, technology, law and policy to craft sophisticated yet practical solutions for securing assets in the various critical infrastructure sectors. These critical infrastructure sectors include: information technology, telecommunications, energy, banking and finance, transportation systems, chemicals, critical manufacturing, agriculture and food, defense industrial base, public health and health care, national monuments and icons, drinking water and water treatment systems, commercial facilities, dams, emergency services, nuclear reactors, materials and waste, postal and shipping, and government facilities. Protecting and ensuring the continuity of operation of critical infrastructure assets are vital to national security, public health and safety, economic vitality, and societal wellbeing.
The scope of the journal includes, but is not limited to:
1. Analysis of security challenges that are unique or common to the various infrastructure sectors.
2. Identification of core security principles and techniques that can be applied to critical infrastructure protection.
3. Elucidation of the dependencies and interdependencies existing between infrastructure sectors and techniques for mitigating the devastating effects of cascading failures.
4. Creation of sophisticated, yet practical, solutions, for critical infrastructure protection that involve mathematical, scientific and engineering techniques, economic and social science methods, and/or legal and public policy constructs.