Forecasting-Based Adaptive Optimized Dispatch in Smart Grid Online

Q. Jiang, Dan Hu, Du-yi He
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Abstract

The power grid is a fusion of technologies in energy systems, and how to adjust and control the output power of each generator to balance the load of the grid is a crucial issue. As a platform, the smart grid is for the convenience of the implementation of adaptive control generators using advanced technologies. In this paper, we are introducing a new approach, the Central Lower Configuration Table, which optimizes dispatch of the generating capacity in a smart grid power system. The dispatch strategy of each generator in the grid is presented in the configuration table, and the scenario consists of two-level agents. A central agent optimizes dispatch calculation to get the configuration table, and a lower agent controls generators according to the tasks of the central level and the work states during generation. The central level is major optimization and adjustment. We used machine learning to predict the power load and address the best optimize cost function to deal with a different control strategy. We designed the items of the cost function, such as operations, maintenances and the effects on the environment. Then, according to the total cost, we got a new second-rank-sort table. As a result, we can resolve generator’s task based on the table, which can also be updated on-line based on the environmental situation. The signs of the driving generator’s controller include active power and system’s f. The lower control level agent carries out the generator control to track f along with the best optimized cost function. Our approach makes optimized dispatch algorithm more convenient to realize, and the numerical simulation indicates the strategy of machine learning forecast of optimized power dispatch is effective.
基于预测的智能电网在线自适应优化调度
电网是能源系统技术的融合,如何调整和控制每台发电机的输出功率以平衡电网负载是一个关键问题。智能电网作为一个平台,是为了方便发电机采用先进技术实现自适应控制。在本文中,我们介绍了一种新的方法,即中央下配置表,它可以优化智能电网电力系统中的发电量调度。配置表中给出了电网中每个发电机的调度策略,该场景由两级代理组成。中央代理优化调度计算得到配置表,下级代理根据中央级的任务和生成过程中的工作状态控制生成器。中央层面是重大优化调整。我们使用机器学习来预测电力负载,并解决最佳优化成本函数,以处理不同的控制策略。我们设计了成本函数的项目,如操作、维护和对环境的影响。然后,根据总成本,我们得到了一个新的二阶排序表。因此,我们可以基于该表来解决发电机的任务,该表也可以根据环境情况在线更新。驱动发电机控制器的标志包括有功功率和系统的f。较低控制级别的代理执行发电机控制以跟踪f以及最佳优化成本函数。该方法使优化调度算法更易于实现,数值模拟表明,优化调度的机器学习预测策略是有效的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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