Abstract
This article discusses the application of fuzzy mathematics for choosing time windows for the maintenance of non-public railway tracks. The design features of several stations and the points of junction of non-public railway tracks lead to hostile routes in the leads of the station. Moving the switching fleet through the neck creates hostility to the train route. To determine the optimal maintenance interval of non-public railway tracks, aimed at excluding hostility, it is necessary to know the throughput reserve of the railroad neck element in a certain time window. To localize the throughput reserve, it is proposed to divide the day into 30-minute intervals. This division will allow determining more accurately both the throughput reserve of the railroad neck element and the periods for servicing non-public railway tracks. The most appropriate way to calculate the throughput reserve is to use fuzzy numbers since this method allows taking into account the unequal capabilities of values within the intervals. Using the defuzzification procedure, a natural number is assigned to a given fuzzy number. After carrying out the defuzzification of the throughput reserve, the obtained values can be used to build an algorithm for selecting service intervals for non-public railway tracks.
Highlights
The throughput reserve of the railroad neck element is characterized by the capability of the lead of the station to pass an additional number of trains, taking into account restrictions on its technical, technological, and structural features
To calculate the throughput reserve of the railroad neck element, it is necessary to know the time reserve (TR) and the average time needed for technological operations with one train (Tav)
To calculate the throughput reserve of the railroad neck element, it is necessary to know the busy time of each train passing through the element
Summary
The throughput reserve of the railroad neck element is characterized by the capability of the lead of the station to pass an additional number of trains, taking into account restrictions on its technical, technological, and structural features. Para determinar el intervalo de mantenimiento óptimo de vías férreas no públicas, con el objetivo de excluir la hostilidad, es necesario conocer la reserva de rendimiento del elemento del cuello del ferrocarril en una determinada ventana de tiempo.
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