A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology
A monotone fuzzy rule relabeling (MFRR) algorithm has been introduced previously for tackling the issue of a non-monotone fuzzy rule base in the Takagi-Sugeno-Kang (TSK) Fuzzy Inference System (FIS). In this paper, we further propose a new three-stage framework to develop a computationally efficient...
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IEEE Computational Intelligence Society
2020
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my.unimas.ir.312662021-05-29T06:47:47Z http://ir.unimas.my/id/eprint/31266/ A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology Tay, Kai Meng Pang, Lie Meng Lim, Chee Peng Ishibuchi, Hisao QA Mathematics A monotone fuzzy rule relabeling (MFRR) algorithm has been introduced previously for tackling the issue of a non-monotone fuzzy rule base in the Takagi-Sugeno-Kang (TSK) Fuzzy Inference System (FIS). In this paper, we further propose a new three-stage framework to develop a computationally efficient MFRR algorithm. The first stage determines the combinations of fuzzy rules to be relabeled by exploiting the prior information derived from a given non-monotone fuzzy rule base. This prior information includes the minimum number of fuzzy rules to be relabeled (denoted as k), as well as the states of fuzzy rules that must be, must not be, or may be relabeled. The second stage relabels the consequent parts of multiple sets of k noisy fuzzy rules obtained from the first stage, such that a monotone fuzzy rule base is produced. The third stage selects the most suitable relabeled fuzzy rule base among the potential monotone fuzzy rule bases obtained from the second stage, either objectively or subjectively. We provide insights into MFRR and discuss its practical implementation. In addition, a network flow method is fused with the proposed MFRR framework, resulting in an efficient computation scheme. The MFRR framework is applied to Failure Mode and Effect Analysis (FMEA) problems related to a sewage treatment plant and a public hospital. It is also evaluated with real FMEA information from a semiconductor plant. The results are analyzed and discussed, which positively demonstrate the effectiveness of the proposed MFRR framework in formulating a monotone TSK-FIS model for undertaking FMEA problems. IEEE Computational Intelligence Society 2020 Article PeerReviewed text en http://ir.unimas.my/id/eprint/31266/1/abstract2.pdf Tay, Kai Meng and Pang, Lie Meng and Lim, Chee Peng and Ishibuchi, Hisao (2020) A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology. IEEE Transactions on Fuzzy Systems, 8. pp. 144908-144930. ISSN 1063-6706 https://cis.ieee.org/publications/t-fuzzy-systems DOI: 10.1109/TFUZZ.2016.2540059 |
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QA Mathematics Tay, Kai Meng Pang, Lie Meng Lim, Chee Peng Ishibuchi, Hisao A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology |
| description |
A monotone fuzzy rule relabeling (MFRR) algorithm has been introduced previously for tackling the issue of a non-monotone fuzzy rule base in the Takagi-Sugeno-Kang (TSK) Fuzzy Inference System (FIS). In this paper, we further propose a new three-stage framework to develop a computationally efficient MFRR algorithm. The first stage determines the combinations of fuzzy rules to be relabeled by exploiting the prior information derived from a given non-monotone fuzzy rule base. This prior information includes the minimum number of fuzzy rules to be relabeled (denoted as k), as well as the states of fuzzy rules that must be, must not be, or may be relabeled. The second stage relabels the consequent parts of multiple sets of k noisy fuzzy rules obtained from the first stage, such that a monotone fuzzy rule base is produced. The third stage selects the most suitable relabeled fuzzy rule base among the potential monotone fuzzy rule bases obtained from the second stage, either objectively or subjectively. We provide insights into MFRR and discuss its practical implementation. In addition, a network flow method is fused with the proposed MFRR framework, resulting in an efficient computation scheme. The MFRR framework is applied to Failure Mode and Effect Analysis (FMEA) problems related to a sewage treatment plant and a public hospital. It is also evaluated with real FMEA information from a semiconductor plant. The results are analyzed and discussed, which positively demonstrate the effectiveness of the proposed MFRR framework in formulating a monotone
TSK-FIS model for undertaking FMEA problems. |
| format |
Article |
| author |
Tay, Kai Meng Pang, Lie Meng Lim, Chee Peng Ishibuchi, Hisao |
| author_facet |
Tay, Kai Meng Pang, Lie Meng Lim, Chee Peng Ishibuchi, Hisao |
| author_sort |
Tay, Kai Meng |
| title |
A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology |
| title_short |
A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology |
| title_full |
A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology |
| title_fullStr |
A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology |
| title_full_unstemmed |
A New Monotone Fuzzy Rule Relabeling Framework With Application to Failure Mode and Effect Analysis Methodology |
| title_sort |
new monotone fuzzy rule relabeling framework with application to failure mode and effect analysis methodology |
| publisher |
IEEE Computational Intelligence Society |
| publishDate |
2020 |
| url |
http://ir.unimas.my/id/eprint/31266/1/abstract2.pdf http://ir.unimas.my/id/eprint/31266/ https://cis.ieee.org/publications/t-fuzzy-systems |
| _version_ |
1701166556660105216 |
| score |
13.160551 |