The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities

The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities

Water resilience is still big problem in Indonesia.  In border and underdeveloped areas in Indonesia, the use of water sources is still considered not resilience. Especially in military context, where water needs are bigger and also more fundamental, this water resilience problem demanding a compreh...

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Main Authors: Fulkan Kafilah Al Husein, Muhamad Syazali, Suhaila Saidat, Nursyiva Irsalinda, Fajri Farid
Format: Article
Language:English
Published: FoundAE 2024-12-01
Series:International Journal of Applied Mathematics, Sciences, and Technology for National Defense
Subjects:
distribution
failure
model
resilience
water
Online Access:https://journal.foundae.com/index.php/JAS-ND/article/view/341
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author Fulkan Kafilah Al Husein
Muhamad Syazali
Suhaila Saidat
Nursyiva Irsalinda
Fajri Farid
author_facet Fulkan Kafilah Al Husein
Muhamad Syazali
Suhaila Saidat
Nursyiva Irsalinda
Fajri Farid
author_sort Fulkan Kafilah Al Husein
collection DOAJ
description Water resilience is still big problem in Indonesia.  In border and underdeveloped areas in Indonesia, the use of water sources is still considered not resilience. Especially in military context, where water needs are bigger and also more fundamental, this water resilience problem demanding a comprehensive solution. To address this issue, this research proposes the use of ordinary differential equations as a mathematical tool to model the dynamics of system damage over time, consumption, maintenance scheme, water crisis scheme, and other factors affecting water distribution resilience in military facilities. This journal presents a conceptual model of failure risk management water distribution system using a differential equation model approach to support water resilience. Specifically, the derivation of failure equation in the “reliability and maintenance system technical” textbook will be the basic reference for generating mathematical model. It is used because our model will be focused in improving failure risk management. By using the model, there are a lot of problem will be tackled such as Identify and manage failure risks in the water supply system, design an efficient water distribution maintenance scheme, and predict how strong the system to face water crisis. But before the model applied, the prediction of model will be tested by applying it in form of computer program. The case study of this research will be focused in testing the model in form of computer program with some simplicity and assumption. Through this approach, it is expected to find solutions that improve water usage efficiency, support the well-being of military personnel, and contribute to national water resilience to bolster national defense especially in case of water crisis happened. This research holds significant benefits for scientific advancement by providing a conceptual model that can serve as a reference for future research. It has the potential to make a tangible contribution but also still need so much development especially for application in real data, adding others variables that can be included for next research, conducting the interpretation, and better defining the measurement boundaries.
format Article
id doaj-art-1ee8790d7171496985e2c4ce3fe172d6
institution Kabale University
issn 2986-0776
2985-9352
language English
publishDate 2024-12-01
publisher FoundAE
record_format Article
series International Journal of Applied Mathematics, Sciences, and Technology for National Defense
spelling doaj-art-1ee8790d7171496985e2c4ce3fe172d62025-08-20T03:52:38ZengFoundAEInternational Journal of Applied Mathematics, Sciences, and Technology for National Defense2986-07762985-93522024-12-01239311010.58524/app.sci.def..v2i3.341225The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilitiesFulkan Kafilah Al Husein0Muhamad Syazali1Suhaila Saidat2Nursyiva Irsalinda3Fajri Farid4Indonesia Defense UniversityIndonesia Defense UniversityIrbid National UniversityUniversiti Malaysia TerengganyInstitut Teknologi SumateraWater resilience is still big problem in Indonesia.  In border and underdeveloped areas in Indonesia, the use of water sources is still considered not resilience. Especially in military context, where water needs are bigger and also more fundamental, this water resilience problem demanding a comprehensive solution. To address this issue, this research proposes the use of ordinary differential equations as a mathematical tool to model the dynamics of system damage over time, consumption, maintenance scheme, water crisis scheme, and other factors affecting water distribution resilience in military facilities. This journal presents a conceptual model of failure risk management water distribution system using a differential equation model approach to support water resilience. Specifically, the derivation of failure equation in the “reliability and maintenance system technical” textbook will be the basic reference for generating mathematical model. It is used because our model will be focused in improving failure risk management. By using the model, there are a lot of problem will be tackled such as Identify and manage failure risks in the water supply system, design an efficient water distribution maintenance scheme, and predict how strong the system to face water crisis. But before the model applied, the prediction of model will be tested by applying it in form of computer program. The case study of this research will be focused in testing the model in form of computer program with some simplicity and assumption. Through this approach, it is expected to find solutions that improve water usage efficiency, support the well-being of military personnel, and contribute to national water resilience to bolster national defense especially in case of water crisis happened. This research holds significant benefits for scientific advancement by providing a conceptual model that can serve as a reference for future research. It has the potential to make a tangible contribution but also still need so much development especially for application in real data, adding others variables that can be included for next research, conducting the interpretation, and better defining the measurement boundaries.https://journal.foundae.com/index.php/JAS-ND/article/view/341distributionfailuremodelresiliencewater
spellingShingle Fulkan Kafilah Al Husein
Muhamad Syazali
Suhaila Saidat
Nursyiva Irsalinda
Fajri Farid
The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities
International Journal of Applied Mathematics, Sciences, and Technology for National Defense
distribution
failure
model
resilience
water
title The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities
title_full The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities
title_fullStr The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities
title_full_unstemmed The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities
title_short The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities
title_sort conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities
topic distribution
failure
model
resilience
water
url https://journal.foundae.com/index.php/JAS-ND/article/view/341
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