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Bibliographic Details
Main Authors: van Stiphoudt, Christine, Menci, Sergio Potenciano, Fridgen, Gilbert
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.12649
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author van Stiphoudt, Christine
Menci, Sergio Potenciano
Fridgen, Gilbert
author_facet van Stiphoudt, Christine
Menci, Sergio Potenciano
Fridgen, Gilbert
contents The ongoing process of smart grid digitalisation is increasing the volume of automated information exchange across distributed energy systems. This has driven the development of new information and data models when existing models fail to offer an optimal description of the requisite information due to be exchanged. To prevent potential operational disruption - i.e. in the provision of flexibility - caused by flaws in these newly designed models, it is essential to conduct evaluations during the development process before these models are deployed. Current practices differ across domains. Beyond smart grid applications, information models are evaluated through explicit reviews using quality characteristics. Within smart grid contexts, evaluation focuses on data models and implicit system-level conformance and interoperability testing. However, no existing approach combines these explicit and implicit evaluation methods for both information and data models during their development. This limits early fault detection and increases potential model correction costs. To address this gap, we propose a three-phase evaluation method based on design science research. Our method integrates explicit and implicit approaches, applies them to information and data models and is adaptable to various design stages. We also introduce a set of quality characteristics to support explicit model evaluation. Overall, our contribution enhances the reliability and interoperability of smart grid information exchange.
format Preprint
id arxiv_https___arxiv_org_abs_2507_12649
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Enhancing Smart Grid Information Exchanges: A Three-Phase Method for Evaluating Information and Data Models during their Development Process
van Stiphoudt, Christine
Menci, Sergio Potenciano
Fridgen, Gilbert
Software Engineering
The ongoing process of smart grid digitalisation is increasing the volume of automated information exchange across distributed energy systems. This has driven the development of new information and data models when existing models fail to offer an optimal description of the requisite information due to be exchanged. To prevent potential operational disruption - i.e. in the provision of flexibility - caused by flaws in these newly designed models, it is essential to conduct evaluations during the development process before these models are deployed. Current practices differ across domains. Beyond smart grid applications, information models are evaluated through explicit reviews using quality characteristics. Within smart grid contexts, evaluation focuses on data models and implicit system-level conformance and interoperability testing. However, no existing approach combines these explicit and implicit evaluation methods for both information and data models during their development. This limits early fault detection and increases potential model correction costs. To address this gap, we propose a three-phase evaluation method based on design science research. Our method integrates explicit and implicit approaches, applies them to information and data models and is adaptable to various design stages. We also introduce a set of quality characteristics to support explicit model evaluation. Overall, our contribution enhances the reliability and interoperability of smart grid information exchange.
title Enhancing Smart Grid Information Exchanges: A Three-Phase Method for Evaluating Information and Data Models during their Development Process
topic Software Engineering
url https://arxiv.org/abs/2507.12649