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In this paper, we focus on recognizing epileptic seizure from scant EEG signals and propose a novel transfer enhanced  α -expansion move (TrEEM) learning model. This framework implants transfer learning into the exemplar-based clustering model to improve the utilization rate of EEG signals. Starting from Bayesian probability theory, by leveraging Kullback-Leibler distance, we measure the similarity relationship between source and target data. Furthermore, we embed this relationship into the calculation of similarity matrix involved in the exemplar-based clustering model. Then we sum up a new objective function and study this new TrEEM scheme earnestly. We optimize the proposed TrEEM model by borrowing the mechanism utilized in EEM. In contrast to other machine learning models, experiments based on synthetic and real-world EEG datasets show that the performance of the proposed TrEEM is very promising.

A Novel Transfer Enhanced α -Expansion Move Learning Model for EEG Signals

A Novel Transfer Enhanced $α$ -Expansion Move Learning Model for EEG Signals