@inproceedings{Cor2015,
Author = {Cornelius Steinbrink, Sebastian Lehnhoff},
Title = {Challenges and Necessity of Systematic Uncertainty Quantification in Smart Grid Co-Simulation},

Year = {2015},
Month = {9},
Booktitle = {IEEE R8 EUROCON 2015 Conference},
Organization = {IEEE},
type = {inproceedings},
note = {The increasing installation of renewable energy
generation requires the integration of new automation and
communication components into a (smart) power grid. This, in
turn, requires rigorous testing of these components and their
interaction in order t},
Abstract = {The increasing installation of renewable energy
generation requires the integration of new automation and
communication components into a (smart) power grid. This, in
turn, requires rigorous testing of these components and their
interaction in order to guarantee safe, reliable energy supply.
Co-simulation will become more and more important as means
of testing since smart grids are multi-domain systems and as
such too complex for one expert to model and analyze. How-
ever, simulation always carries uncertainty, which might defeat
the purpose of testing safety-critical systems if not considered
properly. The quantification of this uncertainty is of paramount
importance for the design of reliable testing frameworks. Since
this issue has not yet gained much attention in the smart
grid simulation community, this paper presents an exemplary
uncertainty quantification of a grid simulation to underline
the acuteness of the issue. The groundwork of an uncertainty
analysis framework for co-simulation is presented and further
requirements of such a framework are discussed.}
}
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