A neutrosophic framework for evaluating security measures in information systems
This study introduces a neutrosophic framework combined with the multi-attribute decision-making methods TODIM and PROMETHEE to evaluate security measures in information systems. Addressing the inherent uncertainty and complexity of cybersecurity challenges, this research focuses on optimizing decis...
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| Main Authors: | , , , |
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| Format: | Article |
| Language: | English |
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Ayandegan Institute of Higher Education,
2024-11-01
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| Series: | Journal of Fuzzy Extension and Applications |
| Subjects: | |
| Online Access: | https://www.journal-fea.com/article_209591_884d3af8e54c236e8af9371e3579002d.pdf |
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| _version_ | 1832577799634812928 |
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| author | Jessica Santander Moreno Jessica Alexandra Ortega Matoma Marcelo Raúl Dávila Castillo Jerson Alexis Ordóñez Sarchi |
| author_facet | Jessica Santander Moreno Jessica Alexandra Ortega Matoma Marcelo Raúl Dávila Castillo Jerson Alexis Ordóñez Sarchi |
| author_sort | Jessica Santander Moreno |
| collection | DOAJ |
| description | This study introduces a neutrosophic framework combined with the multi-attribute decision-making methods TODIM and PROMETHEE to evaluate security measures in information systems. Addressing the inherent uncertainty and complexity of cybersecurity challenges, this research focuses on optimizing decision-making processes by leveraging the unique capabilities of neutrosophic logic. The study identifies a critical gap in existing literature, where comprehensive evaluations of cybersecurity measures often overlook the dynamic and uncertain nature of threats. By integrating expert assessments with neutrosophic numbers, the framework captures truth, indeterminacy, and falsity in decision-making, ensuring a more nuanced evaluation. The results reveal that access policies and privilege control are the most effective measures, followed by continuous monitoring and personnel training. This approach not only enhances the prioritization of security strategies but also demonstrates the applicability of neutrosophic methods in complex decision environments. The study contributes a replicable methodology for improving cybersecurity measures in other domains, thereby advancing data protection strategies and decision analysis under uncertainty. |
| format | Article |
| id | doaj-art-31103b56e1f04f47a99b063de73c79a1 |
| institution | Kabale University |
| issn | 2783-1442 2717-3453 |
| language | English |
| publishDate | 2024-11-01 |
| publisher | Ayandegan Institute of Higher Education, |
| record_format | Article |
| series | Journal of Fuzzy Extension and Applications |
| spelling | doaj-art-31103b56e1f04f47a99b063de73c79a12025-01-30T15:07:23ZengAyandegan Institute of Higher Education,Journal of Fuzzy Extension and Applications2783-14422717-34532024-11-015Special Issue122410.22105/jfea.2024.468184.1546209591A neutrosophic framework for evaluating security measures in information systemsJessica Santander Moreno0Jessica Alexandra Ortega Matoma1Marcelo Raúl Dávila Castillo2Jerson Alexis Ordóñez Sarchi3Regional Autonomous University of the Andes, Tulcan, Carchi, Ecuador.Regional Autonomous University of the Andes, Tulcan, Carchi, Ecuador.Regional Autonomous University of the Andes, Tulcan, Carchi, Ecuador.Regional Autonomous University of the Andes, Tulcan, Carchi, Ecuador.This study introduces a neutrosophic framework combined with the multi-attribute decision-making methods TODIM and PROMETHEE to evaluate security measures in information systems. Addressing the inherent uncertainty and complexity of cybersecurity challenges, this research focuses on optimizing decision-making processes by leveraging the unique capabilities of neutrosophic logic. The study identifies a critical gap in existing literature, where comprehensive evaluations of cybersecurity measures often overlook the dynamic and uncertain nature of threats. By integrating expert assessments with neutrosophic numbers, the framework captures truth, indeterminacy, and falsity in decision-making, ensuring a more nuanced evaluation. The results reveal that access policies and privilege control are the most effective measures, followed by continuous monitoring and personnel training. This approach not only enhances the prioritization of security strategies but also demonstrates the applicability of neutrosophic methods in complex decision environments. The study contributes a replicable methodology for improving cybersecurity measures in other domains, thereby advancing data protection strategies and decision analysis under uncertainty.https://www.journal-fea.com/article_209591_884d3af8e54c236e8af9371e3579002d.pdfcybersecurityneutrosophic setdecision-makingtodimprometheeinformation systems security |
| spellingShingle | Jessica Santander Moreno Jessica Alexandra Ortega Matoma Marcelo Raúl Dávila Castillo Jerson Alexis Ordóñez Sarchi A neutrosophic framework for evaluating security measures in information systems Journal of Fuzzy Extension and Applications cybersecurity neutrosophic set decision-making todim promethee information systems security |
| title | A neutrosophic framework for evaluating security measures in information systems |
| title_full | A neutrosophic framework for evaluating security measures in information systems |
| title_fullStr | A neutrosophic framework for evaluating security measures in information systems |
| title_full_unstemmed | A neutrosophic framework for evaluating security measures in information systems |
| title_short | A neutrosophic framework for evaluating security measures in information systems |
| title_sort | neutrosophic framework for evaluating security measures in information systems |
| topic | cybersecurity neutrosophic set decision-making todim promethee information systems security |
| url | https://www.journal-fea.com/article_209591_884d3af8e54c236e8af9371e3579002d.pdf |
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