Reservoir computing for emotion valence discrimination from EEG signals
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- 作者:Lachezar BozhkovaAuthor Vitae ; Petia Koprinkova-HristovabAuthor Vitae ; Petia Georgievac ; petia@ua.ptAuthor Vitae
- 关键词:Reservoir Computing ; Echo State Networks ; Intrinsic Plasticity ; Deep Neural Encoders ; Feature dimensionality reduction ; Affective computing
- 刊名:Neurocomputing
- 出版年:2017
- 出版时间:29 March 2017
- 年:2017
- 卷:231
- 期:Complete
- 页码:28-40
- 全文大小:1716 K
- 卷排序:231
文摘
In this paper we propose a new approach for feature dimensionality reduction based on Reservoir Computing (Echo State Networks). The method is validated with EEG data to identify the common neural signatures based on which the positive and negative valence of human emotions across multiple subjects can be reliably discriminated. The key step in the proposed approach is the Intrinsic Plasticity (IP) adaptation of the reservoir states. Learning Echo State Networks (ESN) with IP maximizes the entropy of the distribution of reservoir vectors given static data as a fixed input, which is supposed to follow Gaussian distribution. The equilibrium reservoir vector is extracted for each static input vector by iterating updates of the reservoir vector until it converges. Standard classification and clustering models provided with selected combinations of reservoir neurons are ranked based on their discriminate performance. The IP tuned ESNs is more powerful technique to map the high dimensional input feature vector into a low dimensional representation and improve the emotion valence discrimination compared to classical ESNs and Deep Neural Encoders.