Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHP
This research is driven by the necessity for effective and high-quality maintenance systems capable of fulfilling rigorous equipment maintenance standards. The purpose of this study was to identify potential failures in an air knocker, evaluate the risk of failure through the Fuzzy FMEA approach, a...
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| Format: | Article |
| Language: | English |
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Petra Christian University
2024-10-01
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| Series: | Jurnal Teknik Industri |
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| Online Access: | https://jurnalindustri.petra.ac.id/index.php/ind/article/view/28722 |
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| _version_ | 1841555760122691584 |
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| author | Andreas Tri Panudju Helena Sitorus Umi Marfuah Wiwik Sudarwati Nunung Nurhasanah |
| author_facet | Andreas Tri Panudju Helena Sitorus Umi Marfuah Wiwik Sudarwati Nunung Nurhasanah |
| author_sort | Andreas Tri Panudju |
| collection | DOAJ |
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This research is driven by the necessity for effective and high-quality maintenance systems capable of fulfilling rigorous equipment maintenance standards. The purpose of this study was to identify potential failures in an air knocker, evaluate the risk of failure through the Fuzzy FMEA approach, and optimize decision-making using the AHP method. This study was based on theories related to maintenance, Fuzzy FMEA, and AHP. The research methodologies employed comprised a literature review, data analysis, and the application of Expert Choice software to compute weights and ratings according to pertinent criteria. The results showed that the integration of Fuzzy FMEA and AHP methods was effective in identifying potential failures, evaluating risks more accurately, and prioritizing optimal corrective actions in the maintenance system. This study suggests that the integration of Fuzzy FMEA and AHP methods can improve risk management and decision-making in maintenance systems. This strategy assists organizations in mitigating the risk of failure, enhancing efficiency, and more effectively addressing process requirements. This methodology enables a more comprehensive examination of risk variables and the efficient management of uncertainties, as well as the decision-making process for assessing the risks associated with air knocker operations.
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| format | Article |
| id | doaj-art-84b5c8b5601c44f38775270398b024a1 |
| institution | Kabale University |
| issn | 1411-2485 2087-7439 |
| language | English |
| publishDate | 2024-10-01 |
| publisher | Petra Christian University |
| record_format | Article |
| series | Jurnal Teknik Industri |
| spelling | doaj-art-84b5c8b5601c44f38775270398b024a12025-01-08T03:19:53ZengPetra Christian UniversityJurnal Teknik Industri1411-24852087-74392024-10-0126210.9744/jti.26.2.193-206Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHPAndreas Tri Panudju0Helena Sitorus1Umi Marfuah2Wiwik Sudarwati3Nunung Nurhasanah4Bhayangkara Jakarta Raya UniversityBhayangkara Jakarta Raya UniversityUniversitas Muhammadiyah JakartaUniversitas Muhammadiyah JakartaAl Azhar Indonesia University This research is driven by the necessity for effective and high-quality maintenance systems capable of fulfilling rigorous equipment maintenance standards. The purpose of this study was to identify potential failures in an air knocker, evaluate the risk of failure through the Fuzzy FMEA approach, and optimize decision-making using the AHP method. This study was based on theories related to maintenance, Fuzzy FMEA, and AHP. The research methodologies employed comprised a literature review, data analysis, and the application of Expert Choice software to compute weights and ratings according to pertinent criteria. The results showed that the integration of Fuzzy FMEA and AHP methods was effective in identifying potential failures, evaluating risks more accurately, and prioritizing optimal corrective actions in the maintenance system. This study suggests that the integration of Fuzzy FMEA and AHP methods can improve risk management and decision-making in maintenance systems. This strategy assists organizations in mitigating the risk of failure, enhancing efficiency, and more effectively addressing process requirements. This methodology enables a more comprehensive examination of risk variables and the efficient management of uncertainties, as well as the decision-making process for assessing the risks associated with air knocker operations. https://jurnalindustri.petra.ac.id/index.php/ind/article/view/28722AHPFuzzy FMEApotential failuresdecision making |
| spellingShingle | Andreas Tri Panudju Helena Sitorus Umi Marfuah Wiwik Sudarwati Nunung Nurhasanah Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHP Jurnal Teknik Industri AHP Fuzzy FMEA potential failures decision making |
| title | Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHP |
| title_full | Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHP |
| title_fullStr | Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHP |
| title_full_unstemmed | Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHP |
| title_short | Risk Mitigation of Air Knocker Using Fuzzy FMEA-AHP |
| title_sort | risk mitigation of air knocker using fuzzy fmea ahp |
| topic | AHP Fuzzy FMEA potential failures decision making |
| url | https://jurnalindustri.petra.ac.id/index.php/ind/article/view/28722 |
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