需求响应
调度(生产过程)
计算机科学
电动汽车
作业车间调度
可验证秘密共享
动态优先级调度
分布式计算
数据聚合器
可信赖性
响应时间
公平份额计划
数学优化
高效能源利用
有界函数
灵活性(工程)
可靠性(半导体)
过程(计算)
单调速率调度
作者
Jingli Feng,Junwei Ma,Xiukui Pan,Tingting Jiang,Min Chen,Jing Li,Jiaqi Guo,Yao Wei
标识
DOI:10.1109/icpet66029.2025.11160372
摘要
Electric vehicles (EVs) are becoming an increasingly valuable demand-side resource due to their flexibility and energy storage capabilities. Given the limited capacity of a single EV, the aggregation of charging load data is crucial for developing effective demand response strategies for EVs and facilitating orderly charging. However, the demand response scheduling model for EV aggregation is often solved by aggregators, and the solution process is in a "black box" state, making it difficult to verify the reliability of the solution results. This paper explores a trustworthy solution method for the demand response scheduling model for EV aggregation based on blockchain. Firstly, a demand response scheduling model for EV aggregation is constructed. Secondly, a blockchain-based on-chain-off-chain collaborative solution architecture for electric vehicle scheduling is established. In this architecture, the off-chain layer is responsible for the model solving and result validation, while the selection of solving nodes and the establishment of a consensus mechanism are performed on-chain. Finally, a smart contract for trusted EV scheduling is designed. The simulation results indicate that the proposed method possesses the advantages of verifiable optimality and efficiency.
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