Fu-Lai Chung scite author profile

Recognition of epileptic seizures from offline EEG signals is very important in clinical diagnosis of epilepsy. Compared with manual labeling of EEG signals by doctors, machine learning approaches can be faster and more consistent. However, the classification accuracy is usually not satisfactory for two main reasons: the distributions of the data used for training and testing may be different, and the amount of training data may not be enough. In addition, most machine learning approaches generate black-box models that are difficult to interpret. In this paper, we integrate transductive transfer learning, semi-supervised learning and TSK fuzzy system to tackle these three problems. More specifically, we use transfer learning to reduce the discrepancy in data distribution between the training and testing data, employ semi-supervised learning to use the unlabeled testing data to remedy the shortage of training data, and adopt TSK fuzzy system to increase model interpretability. Two learning algorithms are proposed to train the system. Our experimental results show that the proposed approaches can achieve better performance than many state-of-the-art seizure classification algorithms.

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Enhanced soft subspace clustering integrating within-cluster and between-cluster information

Deng

Choi

Chung

et al. 2010

Pattern Recognition

190

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Recognition of Epileptic EEG Signals Using a Novel Multiview TSK Fuzzy System

Jiang

Deng

Chung

et al. 2017

IEEE Trans. Fuzzy Syst.

165

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Knowledge-Leverage-Based TSK Fuzzy System Modeling

Deng

Jiang

Choi

et al. 2013

IEEE Trans. Neural Netw. Learning Syst.

120

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Classical fuzzy system modeling methods consider only the current scene where the training data are assumed to be fully collectable. However, if the data available from the current scene are insufficient, the fuzzy systems trained by using the incomplete datasets will suffer from weak generalization capability for the prediction in the scene. In order to overcome this problem, a knowledge-leverage-based fuzzy system (KL-FS) is studied in this paper from the perspective of transfer learning. The KL-FS intends to not only make full use of the data from the current scene in the learning procedure, but also effectively leverage the existing knowledge from the reference scenes. Specifically, a knowledge-leverage-based Takagi-Sugeno-Kang-type Fuzzy System (KL-TSK-FS) is proposed by integrating the corresponding knowledge-leverage mechanism. The new fuzzy system modeling technique is evaluated through experiments on synthetic and real-world datasets. The results demonstrate that KL-TSK-FS has better performance and adaptability than the traditional fuzzy modeling methods in scenes with insufficient data.

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Improving weak ad-hoc queries using wikipedia asexternal corpus

Luk

et al. 2007

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Fu-Lai Chung

Seizure Classification From EEG Signals Using Transfer Learning, Semi-Supervised Learning and TSK Fuzzy System

Enhanced soft subspace clustering integrating within-cluster and between-cluster information

Recognition of Epileptic EEG Signals Using a Novel Multiview TSK Fuzzy System

Knowledge-Leverage-Based TSK Fuzzy System Modeling

Improving weak ad-hoc queries using wikipedia asexternal corpus

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