可扩展性
计算机科学
需求响应
标杆管理
信息交流
电
分布式算法
数学优化
分布式计算
工程类
经济
电信
数学
管理
数据库
电气工程
作者
Xiao Kou,Fangxing Li,Jin Dong,Michael Starke,Peter L. Munk,Yaosuo Xue,Mohammed M. Olama,Helia Zandi
标识
DOI:10.1109/tsg.2020.2995923
摘要
For effective engagement of residential demand-side resources and to ensure efficient operation of distribution networks, we must overcome the challenges of controlling and coordinating residential components and devices at scale. In this paper, we present a distributed and scalable algorithm with a three-level hierarchical information exchange architecture for managing the residential demand response programs. First, a centralized optimization model is formulated to maximize community social welfare. Then, this centralized model is solved in a distributed manner with alternating direction method of multipliers (ADMM) by decomposing the original problem to utility-level and house-level problems. The information exchange between the different layers is limited to the primary residual (i.e., supply-demand mismatch), Lagrangian multipliers, and the total load of each house to protect each customer's privacy. Simulation studies are performed on the IEEE 33 bus test system with 605 residential customers. The results demonstrate that the proposed approach can reduce customers' electricity bills and reduce the peak load at the utility level without much affecting customers' comfort and privacy. Finally, a quantitative comparison of the distributed and centralized algorithms shows the scalability advantage of the proposed ADMM-based approach, and it gives benchmarking results with achievable value for future research works.
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