Dejan.brkic: Dejan.brkic moved page Draft Brkic 242554770 to Praks et al Select a yeara

2025-12-09T15:40:33Z

Dejan.brkic moved page Draft Brkic 242554770 to Praks et al Select a yeara

Dejan.brkic: Created page with " == Abstract ==
In reliability engineering, unavailability is deﬁned as the probability that a system is not operational at a given point in time, typically due to failu..."

2025-12-09T15:40:29Z

Created page with " == Abstract == <p>In reliability engineering, unavailability is deﬁned as the probability that a system is not operational at a given point in time, typically due to failu..."

New page

== Abstract ==

<p>In reliability engineering, unavailability is deﬁned as the probability that a system is not operational at a given point in time, typically due to failure or maintenance. A critical gap in reliability analysis by systematically evaluating the time-dependent unavailability of real interconnected power and communication networks in the Czech Republic is addressed in this work. These networks are modelled as acyclic graphs using open-source R packages. Unlike previous studies relying on commercial tools, the research presented here offers a novel, reproducible, and scalable framework. The main contribution lies in the innovative application and benchmarking of ftaproxim, an R package based on proxel simulation, which models ageing components during their entire life using various probabilistic distributions. This approach contrasts with traditional tools such as the FaultTree package, which are limited to asymptotic unavailability analysis. Here presented work evaluates both R packages on a real infrastructure model and compares their performance and computational efﬁciency on the Barbora supercomputer cluster against commercial software (Matlab). It is demonstrated how ftaproxim’s tolerance and time-step parameters can be tuned for robust computational efﬁciency and accuracy, an aspect previously unexplored. The results of the presented study show that unavailability computations can be completed in approximately 5 h under optimal settings, with absolute errors ranging from 1.0× 10−4to 9.6× 10−4when compared to commercial solutions. This integrated approach, combining open-source tools, high-</p>

== Document ==
<pdf>Media:Draft_Brkic_242554770-8768-document.pdf</pdf>

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Praks et al Select a yeara - Revision history

Dejan.brkic: Dejan.brkic moved page Draft Brkic 242554770 to Praks et al Select a yeara

Dejan.brkic: Created page with " == Abstract == In reliability engineering, unavailability is deﬁned as the probability that a system is not operational at a given point in time, typically due to failu..."

Dejan.brkic: Created page with " == Abstract ==
In reliability engineering, unavailability is deﬁned as the probability that a system is not operational at a given point in time, typically due to failu..."