Abstract
Advanced metering infrastructure (AMI) networks allow the data collection of consumers' fine-grained power consumption data (PCD) to perform real-time monitoring and energy management. However, PCD can leak sensitive information about consumers' activities. Various privacy-preserving data collection schemes have been proposed for AMI networks to allow the collection of an aggregated PCD to preserve consumers' privacy. However, most of these schemes are designed for single-recipient AMI networks and cannot be used efficiently for multi-recipient AMI networks in which several entities should have access to the aggregated PCD of different sets of users for legitimate uses. In this paper, we propose an efficient and privacy-preserving data collection and access control scheme for multi-recipient AMI networks named EPDA. We developed a novel proxy re-encryption scheme that allows data aggregation before re-encryption and can allow either full or partial access to the aggregated data after re-encryption as needed. The proposed scheme can be used for fine-grained access control for multi-recipient AMI networks in which each recipient can access only the data intended to it. The EPDA uses lightweight operations in encryption, aggregation, and decryption which result in low computation and communication overheads. Our security analysis demonstrates that the EPDA is secure, can resist collusion attacks and hide customers' distribution which is needed for a fair electricity trade market. Our experimental results confirm that the EPDA has improved performance for the computational cost at each entity in the AMI network and low communication overhead.
Highlights
Traditional power grids are obsolete and vulnerable to blackouts
Advanced metering infrastructure (AMI) networks allows the collection of fine-grained power consumption data (PCD) of electricity consumers at high rates, e.g., few minutes
Multiple entities, e.g. transmission system operator (TSO), distribution network operators (DNOs) and electricity suppliers, should have access to the aggregated PCD (APCD) of different sets of users for legitimate uses as will be explained in subsection III-C, and a data collection and access control scheme is needed for multirecipient AMI network
Summary
Traditional power grids are obsolete and vulnerable to blackouts. Recent reports indicated that the power outages cost the United States (U.S.) at least 150 billion dollars each year [1]. AMI networks allows the collection of fine-grained power consumption data (PCD) of electricity consumers at high rates, e.g., few minutes. Multiple entities, e.g. TSO, DNOs and electricity suppliers, should have access to the APCD of different sets of users for legitimate uses as will be explained in subsection III-C, and a data collection and access control scheme is needed for multirecipient AMI network. If existing schemes, such as [21]–[27], when applied to the multi-recipient AMI networks are inefficient and not scalable They allow aggregators to learn the customers’ distribution of each supplier within their areas, i.e., the number of users of each suppliers in each area. In order to address the aforementioned limitations, we propose in this paper an Efficient and Privacy-preserving Data collection and Access control scheme for multi-recipient AMI network named ‘‘EPDA’’. We used some acronyms similar to those used in [28]
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