基于知识图谱的可解释网络物理能量系统

Proceedings of the 9th Workshop on Modeling and Simulation of Cyber-Physical Energy Systems Pub Date : 2021-05-19 DOI:10.1145/3470481.3472704

Peb Ruswono Aryan, F. Ekaputra, M. Sabou, Daniel Hauer, R. Mosshammer, A. Einfalt, Tomasz Miksa, A. Rauber

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引用次数: 4

摘要

可解释性可以帮助网络物理系统减轻影响我们生活的自动化决策的风险。建立一个可解释的网络物理系统需要从系统事件和系统要素之间的因果关系中得出解释。网络-物理能源系统，如智能电网，涉及能源系统的网络和物理方面以及其他要素，即社会和经济。此外，智能电网的规模可以从一个小村庄扩展到跨越多个国家的大地区。因此，整合这些不同的数据和知识是建立一个可解释的网络物理能源系统的基本挑战。本文旨在利用基于知识图谱的框架来解决这一难题。该框架由本体和基于图的算法组成，本体用于对各种来源的数据进行建模和链接，算法用于从事件中导出解释。一个涵盖上述各方面的模拟需求响应方案进一步证明了这个框架的适用性。

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Explainable cyber-physical energy systems based on knowledge graph

Explainability can help cyber-physical systems alleviating risk in automating decisions that are affecting our life. Building an explainable cyber-physical system requires deriving explanations from system events and causality between the system elements. Cyber-physical energy systems such as smart grids involve cyber and physical aspects of energy systems and other elements, namely social and economic. Moreover, a smart-grid scale can range from a small village to a large region across countries. Therefore, integrating these varieties of data and knowledge is a fundamental challenge to build an explainable cyber-physical energy system. This paper aims to use knowledge graph based framework to solve this challenge. The framework consists of an ontology to model and link data from various sources and graph-based algorithm to derive explanations from the events. A simulated demand response scenario covering the above aspects further demonstrates the applicability of this framework.

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Proceedings of the 9th Workshop on Modeling and Simulation of Cyber-Physical Energy Systems

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