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Journal of High Speed Networks
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The large-scale deployment of the smart grids paradigm is expected to support the evolution of traditional electrical power systems toward active, flexible and self-healing web energy networks composed by distributed and cooperative energy resources. In this field, the application of hierarchical monitoring paradigms has many disadvantages that could hinder their application in modern smart grids where the constant growth of grid complexity and the need for supporting rapid decisions in a data rich, but information limited environment, require more scalable, more flexible monitoring paradigms. In trying and addressing these challenges, in this paper, a distributed and cooperative monitoring architecture aimed at exploiting the semantic representation of power system measurements for automatically detecting anomalies and incoherencies in power sensors data is proposed. Numerical results, obtained on the 57 bus IEEE test network, demonstrate the effectiveness of the proposed framework.