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Smart Grid Topologies Paving the Way for an Urban Resilient Continuity Management

Smart Grid Topologies Paving the Way for an Urban Resilient Continuity Management

Sadeeb Simon Ottenburger, Thomas Münzberg, Misha Strittmatter
Copyright: © 2017 |Volume: 9 |Issue: 4 |Pages: 22
ISSN: 1937-9390|EISSN: 1937-9420|EISBN13: 9781522512547|DOI: 10.4018/IJISCRAM.2017100101
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MLA

Ottenburger, Sadeeb Simon, et al. "Smart Grid Topologies Paving the Way for an Urban Resilient Continuity Management." IJISCRAM vol.9, no.4 2017: pp.1-22. http://doi.org/10.4018/IJISCRAM.2017100101

APA

Ottenburger, S. S., Münzberg, T., & Strittmatter, M. (2017). Smart Grid Topologies Paving the Way for an Urban Resilient Continuity Management. International Journal of Information Systems for Crisis Response and Management (IJISCRAM), 9(4), 1-22. http://doi.org/10.4018/IJISCRAM.2017100101

Chicago

Ottenburger, Sadeeb Simon, Thomas Münzberg, and Misha Strittmatter. "Smart Grid Topologies Paving the Way for an Urban Resilient Continuity Management," International Journal of Information Systems for Crisis Response and Management (IJISCRAM) 9, no.4: 1-22. http://doi.org/10.4018/IJISCRAM.2017100101

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Abstract

The generation and supply of electricity is currently about to undergo a fundamental transition that includes extensive development of smart grids. Smart grids are huge and complex networks consisting of a vast number of devices and entities which are connected with each other. This opens new variations of disruption scenarios which can increase the vulnerability of a power distribution network. However, the network topology of a smart grid has significant effects on urban resilience particularly referring to the adequate provision of infrastructures. Thus, topology massively codetermines the degree of urban resilience, i.e. different topologies enable different strategies of power distribution. Therefore, this article introduces a concept of criticality adapted to a power system relying on an advanced metering infrastructure. The authors propose a two-stage operationalization of this concept that refers to the design phase of a smart grid and its operation mode, targeting at an urban resilient power flow during power shortage.

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