Modern electric distribution systems with emerging operation methods and advanced metering systems bring new challenges to the system analysis, control and management. Interdependency of cyber and physical layers and interoperability of various control and management strategies require wide and accurate test and analysis before field implementation. Real-time simulation is known as a precise and reliable method to support new system/device development from initial design to implementation. However, for the study of different application algorithms, considering the various expertise requirements, the interconnection of multiple development laboratories to a real-time simulation lab, which constitutes the core of an interdepartmental real-time simulation platform, is needed. This paper presents the implemented architecture of such an integrated lab, which serves real-time simulations to different application fields within electric distribution system domain. The architecture is an implementation of an Internet-of-Things to facilitate software in-the-loop (SIL) and hardware in-the-loop (HIL) tests. A demo of the proposed architecture is presented, applied to the testing of a fault location algorithm in a portion of a realistic distribution system model. The implemented platform is flexible to integrate different algorithms in a plug-and-play fashion through a designed communication interface.
An IoT realization in an interdepartmental real time simulation lab for distribution system control and management studies / Estebsari, Abouzar; Pons, Enrico; Patti, Edoardo; Mengistu, MILLION ABAYNEH; Bompard, ETTORE FRANCESCO; Bahmanyar, Alireza; Jamali, Sadegh. - ELETTRONICO. - (2016), pp. 1-6. (Intervento presentato al convegno 2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC) tenutosi a Florence (IT) nel 7-10 June 2016) [10.1109/EEEIC.2016.7555699].
An IoT realization in an interdepartmental real time simulation lab for distribution system control and management studies
ESTEBSARI, ABOUZAR;PONS, ENRICO;PATTI, EDOARDO;MENGISTU, MILLION ABAYNEH;BOMPARD, ETTORE FRANCESCO;
2016
Abstract
Modern electric distribution systems with emerging operation methods and advanced metering systems bring new challenges to the system analysis, control and management. Interdependency of cyber and physical layers and interoperability of various control and management strategies require wide and accurate test and analysis before field implementation. Real-time simulation is known as a precise and reliable method to support new system/device development from initial design to implementation. However, for the study of different application algorithms, considering the various expertise requirements, the interconnection of multiple development laboratories to a real-time simulation lab, which constitutes the core of an interdepartmental real-time simulation platform, is needed. This paper presents the implemented architecture of such an integrated lab, which serves real-time simulations to different application fields within electric distribution system domain. The architecture is an implementation of an Internet-of-Things to facilitate software in-the-loop (SIL) and hardware in-the-loop (HIL) tests. A demo of the proposed architecture is presented, applied to the testing of a fault location algorithm in a portion of a realistic distribution system model. The implemented platform is flexible to integrate different algorithms in a plug-and-play fashion through a designed communication interface.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2642721