A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom

Multiple Criteria Decision Making (MCDM) problems always involve uncertainty and vague values since human judgments are highly subjective. Fuzzy concept has been applied extensively in MCDM to cater for the vagueness involved. However, the reliability of information given by fuzzy numbers is questio...

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Main Author: Sahrom, Nor Ashikin
Format: Thesis
Language:English
Published: 2014
Online Access:https://ir.uitm.edu.my/id/eprint/16365/1/TM_NOR%20ASHIKIN%20SAHROM%20CS%2014_5.pdf
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spelling my-uitm-ir.163652022-03-29T08:08:30Z A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom 2014-01 Sahrom, Nor Ashikin Multiple Criteria Decision Making (MCDM) problems always involve uncertainty and vague values since human judgments are highly subjective. Fuzzy concept has been applied extensively in MCDM to cater for the vagueness involved. However, the reliability of information given by fuzzy numbers is questionable. Hence, Z-number was introduced to enhance the reliability of fuzzy numbers. Usage of Z-number is very limited due to its newly introduced concept. Thus, the effect of R (reliability component) on solving MCDM problems has not been thoroughly explored and clearly explained. This is due to several available techniques on how R (reliability component) could be integrated into A (restriction component). The main objective of this study is to analyze the impact of introducing the concept of reliability of Znumber into a hybrid Analytic Hierarchy Process-Fuzzy Data Envelopment Analysis (AHP-FDEA) for risk assessment purposes. The Z-number extension to MCDM problem has been implemented to rank the risk priority of bridge structures. The criteria weights for decision criteria were determined using AHP. Next, two different types of multiplication relation operations were used to integrate R into A to deal with the linguistic decision making problems. Finally, a Z-number AHP-FDEA model is developed and used to rank the priority risk of the bridge structures. A numerical example has been explored to illustrate the applications of the proposed Analytic Hierarchy Process-Z-Number Data Envelopment Analysis (AHP-ZDEA) methodology in MCDM. Analysis on the feasibility of using AHP-ZDEA methodology was investigated and presented on comparisons between AHP-FDEA and AHP-ZDEA. Both FDEA and ZDEA are found to be suitable to be used in calculating risk priority of bridge structures. However, using ZDEA ensures the uncertainty of the data used is captured in the process of ranking. On top of overall ranking in MCDM, the proposed Z-number methods could also differentiate the risk priority ranking of each criteria used. This information is crucial in studying the characteristics of each decision alternatives with respect to each criterion. In other words, the strength and weaknesses of each decision alternatives could be identified. The discussion on the impact of Z-number in MCDM in particular risk assessment contributes to broaden the scope of Z-number related to solving MCDM problem. Furthermore, limitations and strength of Z-number when applied to solving MCDM problem can be identified in particular the differences in multiplication relation operations used to integrate R into A. Thus, suitable steps to overcome limitations of Z-number in MCDM problem can be further explored. 2014-01 Thesis https://ir.uitm.edu.my/id/eprint/16365/ https://ir.uitm.edu.my/id/eprint/16365/1/TM_NOR%20ASHIKIN%20SAHROM%20CS%2014_5.pdf text en public mphil masters Universiti Teknologi MARA Faculty of Computer and Mathematical Sciences
institution Universiti Teknologi MARA
collection UiTM Institutional Repository
language English
description Multiple Criteria Decision Making (MCDM) problems always involve uncertainty and vague values since human judgments are highly subjective. Fuzzy concept has been applied extensively in MCDM to cater for the vagueness involved. However, the reliability of information given by fuzzy numbers is questionable. Hence, Z-number was introduced to enhance the reliability of fuzzy numbers. Usage of Z-number is very limited due to its newly introduced concept. Thus, the effect of R (reliability component) on solving MCDM problems has not been thoroughly explored and clearly explained. This is due to several available techniques on how R (reliability component) could be integrated into A (restriction component). The main objective of this study is to analyze the impact of introducing the concept of reliability of Znumber into a hybrid Analytic Hierarchy Process-Fuzzy Data Envelopment Analysis (AHP-FDEA) for risk assessment purposes. The Z-number extension to MCDM problem has been implemented to rank the risk priority of bridge structures. The criteria weights for decision criteria were determined using AHP. Next, two different types of multiplication relation operations were used to integrate R into A to deal with the linguistic decision making problems. Finally, a Z-number AHP-FDEA model is developed and used to rank the priority risk of the bridge structures. A numerical example has been explored to illustrate the applications of the proposed Analytic Hierarchy Process-Z-Number Data Envelopment Analysis (AHP-ZDEA) methodology in MCDM. Analysis on the feasibility of using AHP-ZDEA methodology was investigated and presented on comparisons between AHP-FDEA and AHP-ZDEA. Both FDEA and ZDEA are found to be suitable to be used in calculating risk priority of bridge structures. However, using ZDEA ensures the uncertainty of the data used is captured in the process of ranking. On top of overall ranking in MCDM, the proposed Z-number methods could also differentiate the risk priority ranking of each criteria used. This information is crucial in studying the characteristics of each decision alternatives with respect to each criterion. In other words, the strength and weaknesses of each decision alternatives could be identified. The discussion on the impact of Z-number in MCDM in particular risk assessment contributes to broaden the scope of Z-number related to solving MCDM problem. Furthermore, limitations and strength of Z-number when applied to solving MCDM problem can be identified in particular the differences in multiplication relation operations used to integrate R into A. Thus, suitable steps to overcome limitations of Z-number in MCDM problem can be further explored.
format Thesis
qualification_name Master of Philosophy (M.Phil.)
qualification_level Master's degree
author Sahrom, Nor Ashikin
spellingShingle Sahrom, Nor Ashikin
A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom
author_facet Sahrom, Nor Ashikin
author_sort Sahrom, Nor Ashikin
title A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom
title_short A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom
title_full A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom
title_fullStr A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom
title_full_unstemmed A z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / Nor Ashikin Sahrom
title_sort z-number extension of an integrated analytic hierarchy process: fuzzy data envelopment analysis for risk assessment / nor ashikin sahrom
granting_institution Universiti Teknologi MARA
granting_department Faculty of Computer and Mathematical Sciences
publishDate 2014
url https://ir.uitm.edu.my/id/eprint/16365/1/TM_NOR%20ASHIKIN%20SAHROM%20CS%2014_5.pdf
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