Chen, Jun and Mahfouf, M.
(2009)
An artificial immune systems based predictive modelling approach for the multi-objective elicitation of Mamdani fuzzy rules: a special application to modelling alloys.
In: Systems, Man and Cybernetics, 2009. SMC 2009. IEEE International Conference on, 11-14 October 2009, San Antonio, TX.
Full content URL: http://dx.doi.org/10.1109/ICSMC.2009.5346831
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| Item Type: | Conference or Workshop contribution (Presentation) |
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| Item Status: | Live Archive |
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Abstract
In this paper, a systematic multi-objective Mamdani fuzzy modeling approach is proposed, which can be viewed as an extended version of the previously proposed Singleton fuzzy modeling paradigm. A set of new back-error propagation (BEP) updating formulas are derived so that they can replace the old set developed in the singleton version. With the substitution, the extension to the multi-objective Mamdani Fuzzy Rule-Based Systems (FRBS) is almost endemic. Due to the carefully chosen output membership functions, the inference and the defuzzification methods, a closed form integral can be deducted for the defuzzification method, which ensures the efficiency of the developed Mamdani FRBS. Some important factors, such as the variable length coding scheme and the rule alignment, are also discussed. Experimental results for a real data set from the steel industry suggest that the proposed approach is capable of eliciting not only accurate but also transparent FRBS with good generalization ability.
| Additional Information: | In this paper, a systematic multi-objective Mamdani fuzzy modeling approach is proposed, which can be viewed as an extended version of the previously proposed Singleton fuzzy modeling paradigm. A set of new back-error propagation (BEP) updating formulas are derived so that they can replace the old set developed in the singleton version. With the substitution, the extension to the multi-objective Mamdani Fuzzy Rule-Based Systems (FRBS) is almost endemic. Due to the carefully chosen output membership functions, the inference and the defuzzification methods, a closed form integral can be deducted for the defuzzification method, which ensures the efficiency of the developed Mamdani FRBS. Some important factors, such as the variable length coding scheme and the rule alignment, are also discussed. Experimental results for a real data set from the steel industry suggest that the proposed approach is capable of eliciting not only accurate but also transparent FRBS with good generalization ability. |
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| Keywords: | mamdani fuzzy modeling, artificial immune systems |
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| Subjects: | G Mathematical and Computer Sciences > G700 Artificial Intelligence |
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| Divisions: | College of Science > School of Engineering |
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| ID Code: | 2802 |
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| Deposited On: | 07 Jul 2010 14:18 |
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