Counting-based reliability estimation for power-transmission grids

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Abstract

Modern society is increasingly reliant on the functionality of infrastructure facilities and utility services. Consequently, there has been surge of interest in the problem of quantification of system reliability, which is known to be #P-complete. Reliability also contributes to the resilience of systems, so as to effectively make them bounce back after contingencies. Despite diverse progress, most techniques to estimate system reliability and resilience remain computationally expensive. In this paper, we investigate how recent advances in hashingbased approaches to counting can be exploited to improve computational techniques for system reliability. The primary contribution of this paper is a novel framework, RelNet, that reduces the problem of computing reliability for a given network to counting the number of satisfying assignments of a S1 1 formula, which is amenable to recent hashing-based techniques developed for counting satisfying assignments of SAT formula. We then apply RelNet to ten real world powertransmission grids across different cities in the U.S. and are able to obtain, to the best of our knowledge, the first theoretically sound a priori estimates of reliability between several pairs of nodes of interest. Such estimates will help managing uncertainty and support rational decision making for community resilience.

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APA

Duenas-Osorio, L., Meel, K. S., Paredes, R., & Vardi, M. Y. (2017). Counting-based reliability estimation for power-transmission grids. In 31st AAAI Conference on Artificial Intelligence, AAAI 2017 (pp. 4488–4494). AAAI press. https://doi.org/10.1609/aaai.v31i1.11178

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