Designing a decentralized fault-tolerant software framework for smart grids and its applications

Purboday Ghosh, Scott Eisele, Abhishek Dubey, Mary Metelko, Istvan Madari, Peter Volgyesi, Gabor Karsai

Journal of Systems Architecture 2020

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Abstract

The vision of the ‘Smart Grid’ anticipates a distributed real-time embedded system that implements various monitoring and control functions. As the reliability of the power grid is critical to modern society, the software supporting the grid must support fault tolerance and resilience of the resulting cyber-physical system. This paper describes the fault-tolerance features of a software framework called Resilient Information Architecture Platform for Smart Grid (RIAPS). The framework supports various mechanisms for fault detection and mitigation and works in concert with the applications that implement the grid-specific functions. The paper discusses the design philosophy for and the implementation of the fault tolerance features and presents an application example to show how it can be used to build highly resilient systems.

Cite This Paper

@article{GHOSH2020101759,
  author = {Ghosh, Purboday and Eisele, Scott and Dubey, Abhishek and Metelko, Mary and Madari, Istvan and Volgyesi, Peter and Karsai, Gabor},
  journal = {Journal of Systems Architecture},
  title = {Designing a decentralized fault-tolerant software framework for smart grids and its applications},
  year = {2020},
  issn = {1383-7621},
  pages = {101759},
  volume = {109},
  abstract = {The vision of the ‘Smart Grid’ anticipates a distributed real-time embedded system that implements various monitoring and control functions. As the reliability of the power grid is critical to modern society, the software supporting the grid must support fault tolerance and resilience of the resulting cyber-physical system. This paper describes the fault-tolerance features of a software framework called Resilient Information Architecture Platform for Smart Grid (RIAPS). The framework supports various mechanisms for fault detection and mitigation and works in concert with the applications that implement the grid-specific functions. The paper discusses the design philosophy for and the implementation of the fault tolerance features and presents an application example to show how it can be used to build highly resilient systems.},
  contribution = {minor},
  doi = {https://doi.org/10.1016/j.sysarc.2020.101759},
  keywords = {Component, Fault tolerance, Distributed systems, Smart grid},
  tag = {platform},
  url = {http://www.sciencedirect.com/science/article/pii/S1383762120300539}
}
Quick Info
Year 2020
DOI https://doi.org/10.1016/j.s...
Keywords
Component Fault tolerance Distributed systems Smart grid
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Designing, decentralized, fault, tolerant, software, framework, smart, grids, applications, Component, Fault tolerance, Distributed systems, Smart grid, 2020, Ghosh, Eisele, Dubey, Metelko, Madari, Volgyesi, Karsai