Reliability Analysis of Industrial Model Using Redundancy Technique and Geometric Distribution

Pankaj, None; Bhatti, Jasdev; Kakkar, Mohit Kumar

doi:10.1149/10701.7273ecst

Cited by 2 publications

(3 citation statements)

References 16 publications

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“…To study the functioning of the system with an unactive reserve, the method of reliability theory was applied, in particular, the method of calculating the probability of trouble-free operation of the system with an unactive reserve (passive reservation) [20][21][22][23].…”

Section: The Study Materials and Methodsmentioning

confidence: 99%

“…The formula for determining the probability of troublefree RFS operation o with a passive reservation of structural and functional elements [20][21][22][23] is:…”

Section: The Study Materials and Methodsmentioning

confidence: 99%

“…Passive reservation is the reservation in which one or more reserve elements are in an unactive state before they start performing the functions of the main element [20][21][22][23].…”

Section: Analysis Of Possible Types Of Reservation Of Individual Func...mentioning

confidence: 99%

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Improving the scientific methodological approach to determining the appropriate type of reservation of a reconnaissance fire system

Maistrenko

Stetsiv

Savelіev

et al. 2023

EEJET

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The object of this study is the process of choosing the appropriate types of reservation of reconnaissance fire systems under the conditions of performing a combat mission. The problem that was solved is the unsuitability of existing scientific and methodological apparatus to substantiate the appropriate type of reservation for reconnaissance and fire systems under specific conditions for performing a combat mission. Possible types of reservation of reconnaissance fire systems have been analyzed. Based on the results of the analysis, appropriate types of reservation were established, in particular, active, unactive, majoritarian sliding, distributed, for subsystems, as well as general reservation. A feature of this analysis is that it was carried out taking into account the peculiarities of the functioning of reconnaissance and fire systems. This makes it possible to eliminate existing problem associated with the complexity of the use of reconnaissance and fire systems in a combat event. The scope of practical use of the results of the proposed analysis is the management processes associated with the creation, layout, and use of reconnaissance and fire systems in military administration bodies. A methodology for determining the appropriate type of reservation of reconnaissance fire systems has been devised. A feature of the proposed procedure is the choice of such a type of reservation that makes it possible to save the resource of elements, provided that the task is completed. The proposed methodology ensures an increase in the stability of the functioning of reconnaissance and fire systems by an average of 20 % for the conditions adopted within the limits of the example. The proposed methodology closes the problem part, which concerns the procedure and rules for choosing the appropriate type of reservation. The scope and conditions for the practical use of the proposed methodology are management processes related to the planning and determination of the projected effectiveness of hostilities by military authorities

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Section: The Study Materials and Methodsmentioning

confidence: 99%

“…The formula for determining the probability of troublefree RFS operation o with a passive reservation of structural and functional elements [20][21][22][23] is:…”

Section: The Study Materials and Methodsmentioning

confidence: 99%

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Improving the scientific methodological approach to determining the appropriate type of reservation of a reconnaissance fire system

Maistrenko

Stetsiv

Savelіev

et al. 2023

EEJET

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Reliability Modeling of a Food Industrial System with two Types of Repair Persons wherein Demand is Season Dependent

Monika

Chopra

2022

Int. j. math. eng. manag. sci.

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The present study pertains to developing a reliability model concerning a food industrial system that runs throughout the month except for Sundays. There are two types of repair persons engaged with the system, one known as operator while another is fitter. The operator is responsible for minor repairs, while the fitter is responsible for major repairs. It is also noticed that the operator is the first person who attends the failed unit in case of a major failure. If the operator is found incapable of repairing the unit within some patience time, then the fitter is called. While gathering the actual month-wise data of the plant, two types of seasons, namely normal and festival seasons, have been recorded. The festival season is from July to November, while the normal season is from December to June, based on consumer demand. During the months of the normal season, the system is shut down for a few days as the demand gets accomplished before the month ends. However, during the festival season, the system has to be kept operational throughout the month to fulfill the high demand for the product. The semi-Markov process and regenerative point technique are used to assess the reliability measures, namely mean time to system failure (MTSF), system availability in both seasons, expected busy period of the repair persons, and expected downtime of the system. The overall profitability of the system is also demonstrated by Graphical interpretation.

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Reliability Analysis of Industrial Model Using Redundancy Technique and Geometric Distribution

Cited by 2 publications

References 16 publications

Improving the scientific methodological approach to determining the appropriate type of reservation of a reconnaissance fire system

Improving the scientific methodological approach to determining the appropriate type of reservation of a reconnaissance fire system

Reliability Modeling of a Food Industrial System with two Types of Repair Persons wherein Demand is Season Dependent

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