Approximating stochastic loads using the EM-Algorithm

IF 1.8 Q3 AUTOMATION & CONTROL SYSTEMS
Fabian Ossevorth, Peter Schegner
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引用次数: 2

Abstract

Due to the increase in volatile power generation facilities, the need for flexible modeling options of an energy network is growing. One approach consists of a cellular architecture whose hierarchy levels are less pronounced. Such an architecture is provided by the Loop Circle Arc theory (LoCA theory). Each cell consists of essentially uniform basic building blocks, such as a storage unit, an energy converter, and a source and load, as well as an interface to the next cell. Based on this theory, a model of N households connected to a Circle is created. In order to report the demand of the connected households to the next cell, the Arc, via the interface, it is necessary to know the summed power values. Since the households generally represent stochastic processes, the densities associated with the households are estimated under the assumption of measured consumption values over a 24-hour period. Using the EM-Algorithm, mixed distribution densities are estimated based on normal distribution densities for each household and superimposed accordingly. In this way, in addition to the expected total power consumption, a variance can be given at the same time. This allows not only an estimation of the energy to be made available at certain times. It is also possible to simplify the network, since the N households can be approximated by the time evolution of the expected overall power consumption values.

用em -算法逼近随机荷载
由于不稳定发电设施的增加,对能源网络灵活建模选项的需求正在增长。一种方法是由细胞结构组成,其层次结构不太明显。这种架构是由环路圆弧理论(LoCA理论)提供的。每个单元基本上由统一的基本构建块组成,例如存储单元、能量转换器、源和负载,以及到下一个单元的接口。基于这一理论,我们创建了一个N个家庭连接到一个圆圈的模型。为了通过接口将连接家庭的需求报告给下一个单元,即Arc,有必要知道功率的总和值。由于住户通常代表随机过程,因此与住户相关的密度是在24小时内测量的消费值的假设下估计的。利用em -算法,根据每户的正态分布密度估计混合分布密度,并进行相应的叠加。这样,除了期望的总功耗外,还可以同时给出方差。这不仅可以在特定时间对能量进行估计。也可以简化网络,因为N个家庭可以通过预期总功耗值的时间演变来近似。
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来源期刊
IFAC Journal of Systems and Control
IFAC Journal of Systems and Control AUTOMATION & CONTROL SYSTEMS-
CiteScore
3.70
自引率
5.30%
发文量
17
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