Your search keyword '"Seera, Manjeevan"' showing total 6 results

1. Hierarchical Parallel Genetic Optimization Fuzzy ARTMAP Ensemble

Author

Liew, Wei Shiung, Seera, Manjeevan, and Loo, Chu Kiong

Published

2016

2. A hybrid FAM–CART model and its application to medical data classification

Author

Seera, Manjeevan, Lim, Chee Peng, Tan, Shing Chiang, and Loo, Chu Kiong

Published

2015

3. Probabilistic ensemble Fuzzy ARTMAP optimization using hierarchical parallel genetic algorithms

Author

Loo, Chu Kiong, Liew, Wei Shiung, Seera, Manjeevan, and Lim, Einly

Published

2015

4. A hybrid FAM‐CART model for online data classification.

Author

Seera, Manjeevan, Lim, Chee Peng, and Tan, Shing Chiang

Subjects

*SOFT computing, *ARTIFICIAL neural networks, *FUZZY logic, *REGRESSION analysis, *ONLINE education

Abstract

Abstract: In this paper, an online soft computing model based on an integration between the fuzzy ARTMAP (FAM) neural network and the classification and regression tree (CART) for undertaking data classification problems is presented. Online FAM network is useful for conducting incremental learning with data samples, whereas the CART model prevails in depicting the knowledge learned explicitly in a tree structure. Capitalizing on their respective advantages, the hybrid FAM‐CART model is capable of learning incrementally while explaining its predictions with knowledge elicited from data samples. To evaluate the usefulness of FAM‐CART, 2 sets of benchmark experiments with a total of 12 problems are used in both offline and online learning modes. The results are examined and compared with those published in the literature. The experimental outcome positively indicates that the online FAM‐CART model is useful for tackling data classification tasks. In addition, a decision tree is produced to allow users in understanding the predictions, which is an important property of the hybrid FAM‐CART model in supporting decision‐making tasks. [ABSTRACT FROM AUTHOR]

Published

2018

5. Affect classification using genetic-optimized ensembles of fuzzy ARTMAPs.

Author

Liew, Wei Shiung, Seera, Manjeevan, Loo, Chu Kiong, and Lim, Einly

Subjects

NEURAL computers, GENETIC algorithms, SUPERVISED learning, PARAMETERS (Statistics), DATA analysis

Abstract

Training neural networks in distinguishing different emotions from physiological signals frequently involves fuzzy definitions of each affective state. In addition, manual design of classification tasks often uses sub-optimum classifier parameter settings, leading to average classification performance. In this study, an attempt to create a framework for multi-layered optimization of an ensemble of classifiers to maximize the system's ability to learn and classify affect, and to minimize human involvement in setting optimum parameters for the classification system is proposed. Using fuzzy adaptive resonance theory mapping (ARTMAP) as the classifier template, genetic algorithms (GAs) were employed to perform exhaustive search for the best combination of parameter settings for individual classifier performance. Speciation was implemented using subset selection of classification data attributes, as well as using an island model genetic algorithms method. Subsequently, the generated population of optimum classifier configurations was used as candidates to form an ensemble of classifiers. Another set of GAs were used to search for the combination of classifiers that would result in the best classification ensemble accuracy. The proposed methodology was tested using two affective data sets and was able to produce relatively small ensembles of fuzzy ARTMAPs with excellent affect recognition accuracy. [ABSTRACT FROM AUTHOR]

Published

2015

6. An improved fuzzy ARTMAP and Q-learning agent model for pattern classification.

Author

Pourpanah, Farhad, Wang, Ran, Lim, Chee Peng, Wang, Xizhao, Seera, Manjeevan, and Tan, Choo Jun

Subjects

*MULTIAGENT systems, *BENCHMARK problems (Computer science), *REINFORCEMENT learning, *CLASSIFICATION, *FUZZY systems, *FUZZY neural networks

Abstract

• An improved multi-agent system based on Fuzzy ARTMAP (FAM) and Q-learning, i.e., IQ-MACS, is proposed. • A trust measurement using a combination of Q-learning and Bayesian formalism is added at team level. • Two real-world case studies, i.e., human motion detection and motor fault detection, with and without noise are used to evaluate the proposed model. • The outcome indicates that IQMACS is able to produce promising results. The Fuzzy ARTMAP (FAM) network is an online supervised neural network that operates by computing the similarity level between the new sample and those prototype nodes stored in its network against a threshold. In our previous study, we have developed a multi-agent system consisting of an ensemble of FAM networks and Q-learning, known as QMACS, for data classification. In this paper, an Improved QMACS (IQMACS) model with trust measurement using a combination of Q-learning and Bayesian formalism is proposed. A number of benchmark and real-world problems, i.e., motor fault detection and human motion detection, are conducted to evaluate the effectiveness of IQMACS. Statistical features are extracted from real-world case studies and utilized for classification with IQMACS, QMACS, and their constituents. The experimental results indicate that IQMACS produces better classification performance by combining the outcomes of its constituents as compared with those of QMACS and other related methods. [ABSTRACT FROM AUTHOR]

Published

2019