# Advanced Testing Chain Supporting the Validation of Smart Grid Systems   and Technologies

**Authors:** Ron Brandl, Panos Kotsampopoulos, Georg Lauss, Marios Maniatopoulos,, Maria Nuschke, Juan Montoya, Thomas Strasser, Diana Strauss-Mincu

arXiv: 1812.09007 · 2018-12-24

## TL;DR

This paper proposes a comprehensive testing methodology for smart grid systems that combines simulation and hardware testing to improve validation, safety, and realism in testing procedures.

## Contribution

It introduces an integrated testing approach that combines simulation and hardware testing, providing a realistic, risk-free environment for validating smart grid technologies.

## Key findings

- Effective validation of smart grid components achieved
- Testing environment closely mimics field conditions
- Implementation demonstrated at multiple research institutes

## Abstract

New testing and development procedures and methods are needed to address topics like power system stability, operation and control in the context of grid integration of rapidly developing smart grid technologies. In this context, individual testing of units and components has to be reconsidered and appropriate testing procedures and methods need to be described and implemented. This paper addresses these needs by proposing a holistic and enhanced testing methodology that integrates simulation/software- and hardware-based testing infrastructure. This approach presents the advantage of a testing environment, which is very close to f i eld testing, includes the grid dynamic behavior feedback and is risks-free for the power system, for the equipment under test and for the personnel executing the tests. Furthermore, this paper gives an overview of successful implementation of the proposed testing approach within different testing infrastructure available at the premises of different research institutes in Europe.

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Source: https://tomesphere.com/paper/1812.09007