Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems
This paper presents a novel application of a hybrid learning approach to the optimisation of membership and nonmembership functions of a newly developed interval type-2 intuitionistic fuzzy logic system (IT2 IFLS) of a Takagi-Sugeno-Kang (TSK) fuzzy inference system with neural network learning capa...
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sg-ntu-dr.10356-1424442020-06-22T06:09:34Z Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems Eyoh, Imo John, Robert De Maere, Geert Kayacan, Erdal School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Decoupled Extended Kalman Filter (DEKF) Gradient Descent (GD) Algorithm This paper presents a novel application of a hybrid learning approach to the optimisation of membership and nonmembership functions of a newly developed interval type-2 intuitionistic fuzzy logic system (IT2 IFLS) of a Takagi-Sugeno-Kang (TSK) fuzzy inference system with neural network learning capability. The hybrid algorithms consisting of decoupled extended Kalman filter (DEKF) and gradient descent (GD) are used to tune the parameters of the IT2 IFLS for the first time. The DEKF is used to tune the consequent parameters in the forward pass while the GD method is used to tune the antecedents parts during the backward pass of the hybrid learning. The hybrid algorithm is described and evaluated, prediction and identification results together with the runtime are compared with similar existing studies in the literature. Performance comparison is made among the proposed hybrid learning model of IT2 IFLS, a TSK-type-1 intuitionistic fuzzy logic system (IFLS-TSK), and a TSK-type interval type-2 fuzzy logic system (IT2 FLS-TSK) on two instances of the datasets under investigation. The empirical comparison is made on the designed systems using three artificially generated datasets and three real world datasets. Analysis of results reveal that IT2 IFLS outperforms its type-1 variants, IT2 FLS and most of the existing models in the literature. Moreover, the minimal run time of the proposed hybrid learning model for IT2 IFLS also puts this model forward as a good candidate for application in real time systems. 2020-06-22T06:09:34Z 2020-06-22T06:09:34Z 2018 Journal Article Eyoh, I., John, R., De Maere, G., & Kayacan, E. (2018). Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems. IEEE Transactions on Fuzzy Systems, 26(5), 2672-2685. doi:10.1109/TFUZZ.2018.2803751 1063-6706 https://hdl.handle.net/10356/142444 10.1109/TFUZZ.2018.2803751 2-s2.0-85041513797 5 26 2672 2685 en IEEE Transactions on Fuzzy Systems © 2018 IEEE. All rights reserved. |
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Engineering::Mechanical engineering Decoupled Extended Kalman Filter (DEKF) Gradient Descent (GD) Algorithm |
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Engineering::Mechanical engineering Decoupled Extended Kalman Filter (DEKF) Gradient Descent (GD) Algorithm Eyoh, Imo John, Robert De Maere, Geert Kayacan, Erdal Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems |
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This paper presents a novel application of a hybrid learning approach to the optimisation of membership and nonmembership functions of a newly developed interval type-2 intuitionistic fuzzy logic system (IT2 IFLS) of a Takagi-Sugeno-Kang (TSK) fuzzy inference system with neural network learning capability. The hybrid algorithms consisting of decoupled extended Kalman filter (DEKF) and gradient descent (GD) are used to tune the parameters of the IT2 IFLS for the first time. The DEKF is used to tune the consequent parameters in the forward pass while the GD method is used to tune the antecedents parts during the backward pass of the hybrid learning. The hybrid algorithm is described and evaluated, prediction and identification results together with the runtime are compared with similar existing studies in the literature. Performance comparison is made among the proposed hybrid learning model of IT2 IFLS, a TSK-type-1 intuitionistic fuzzy logic system (IFLS-TSK), and a TSK-type interval type-2 fuzzy logic system (IT2 FLS-TSK) on two instances of the datasets under investigation. The empirical comparison is made on the designed systems using three artificially generated datasets and three real world datasets. Analysis of results reveal that IT2 IFLS outperforms its type-1 variants, IT2 FLS and most of the existing models in the literature. Moreover, the minimal run time of the proposed hybrid learning model for IT2 IFLS also puts this model forward as a good candidate for application in real time systems. |
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School of Mechanical and Aerospace Engineering |
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School of Mechanical and Aerospace Engineering Eyoh, Imo John, Robert De Maere, Geert Kayacan, Erdal |
| format |
Article |
| author |
Eyoh, Imo John, Robert De Maere, Geert Kayacan, Erdal |
| author_sort |
Eyoh, Imo |
| title |
Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems |
| title_short |
Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems |
| title_full |
Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems |
| title_fullStr |
Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems |
| title_full_unstemmed |
Hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems |
| title_sort |
hybrid learning for interval type-2 intuitionistic fuzzy logic systems as applied to identification and prediction problems |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/142444 |
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1681056771004694528 |