A spectral-ensemble deep random vector functional link network for passive brain–computer interface
Randomized neural networks (RNNs) have shown outstanding performance in many different fields. The superiority of having fewer training parameters and closed-form solutions makes them popular in small datasets analysis. However, automatically decoding raw electroencephalogram (EEG) data using RNNs i...
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sg-ntu-dr.10356-1745502024-04-05T15:41:16Z A spectral-ensemble deep random vector functional link network for passive brain–computer interface Li, Ruilin Gao, Ruobin Suganthan, Ponnuthurai Nagaratnam Cui, Jian Sourina, Olga Wang, Lipo School of Electrical and Electronic Engineering School of Civil and Environmental Engineering Fraunhofer, Nanyang Technological University Engineering Ensemble deep random vector functional link Electroencephalogram Randomized neural networks (RNNs) have shown outstanding performance in many different fields. The superiority of having fewer training parameters and closed-form solutions makes them popular in small datasets analysis. However, automatically decoding raw electroencephalogram (EEG) data using RNNs is still challenging in EEG-based passive brain–computer interface (pBCI) classification tasks. Models with the high-dimension input of EEG may suffer from overfitting and the intrinsic characteristics of non-stationary, high-level noises and subject variability could limit the generation of distinctive features in the hidden layers. To address these problems in EEG-based pBCI tasks, this work proposes a spectral-ensemble deep random vector functional link (SedRVFL) network that focuses on feature learning in the frequency domain. Specifically, an unsupervised feature-refining (FR) block is proposed to improve the low feature learning capability in RNNs. Moreover, a dynamic direct link (DDL) is performed to further complement the frequency information. The proposed model has been evaluated on a self-collected dataset as well as a public driving dataset. The cross-subject classification results obtained demonstrated its effectiveness. This work offers a new solution for EEG decoding, i.e., using optimized RNNs for decoding complex raw EEG data and boosting the classification performance of EEG-based pBCI tasks. Singapore Maritime Institute (SMI) Published version This research is supported by funding from Singapore Maritime Institute. Open Access funding provided by the Qatar National Library. This work was partially supported by the STI2030-Major Projects, China 2021ZD0200201, the National Natural Science Foundation of China (Grant No. 62201519), Key Research Project of Zhejiang Lab, China (No. 2022KI0AC02), Exploratory Research Project of Zhejiang Lab, China (No. 2022ND0AN01), and Youth Foundation Project of Zhejiang Lab, China (No. 111012-AA2301). 2024-04-02T04:41:47Z 2024-04-02T04:41:47Z 2023 Journal Article Li, R., Gao, R., Suganthan, P. N., Cui, J., Sourina, O. & Wang, L. (2023). A spectral-ensemble deep random vector functional link network for passive brain–computer interface. Expert Systems With Applications, 227, 120279-. https://dx.doi.org/10.1016/j.eswa.2023.120279 0957-4174 https://hdl.handle.net/10356/174550 10.1016/j.eswa.2023.120279 2-s2.0-85158894253 227 120279 en Expert Systems with Applications © 2023 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering Ensemble deep random vector functional link Electroencephalogram |
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Engineering Ensemble deep random vector functional link Electroencephalogram Li, Ruilin Gao, Ruobin Suganthan, Ponnuthurai Nagaratnam Cui, Jian Sourina, Olga Wang, Lipo A spectral-ensemble deep random vector functional link network for passive brain–computer interface |
| description |
Randomized neural networks (RNNs) have shown outstanding performance in many different fields. The superiority of having fewer training parameters and closed-form solutions makes them popular in small datasets analysis. However, automatically decoding raw electroencephalogram (EEG) data using RNNs is still challenging in EEG-based passive brain–computer interface (pBCI) classification tasks. Models with the high-dimension input of EEG may suffer from overfitting and the intrinsic characteristics of non-stationary, high-level noises and subject variability could limit the generation of distinctive features in the hidden layers. To address these problems in EEG-based pBCI tasks, this work proposes a spectral-ensemble deep random vector functional link (SedRVFL) network that focuses on feature learning in the frequency domain. Specifically, an unsupervised feature-refining (FR) block is proposed to improve the low feature learning capability in RNNs. Moreover, a dynamic direct link (DDL) is performed to further complement the frequency information. The proposed model has been evaluated on a self-collected dataset as well as a public driving dataset. The cross-subject classification results obtained demonstrated its effectiveness. This work offers a new solution for EEG decoding, i.e., using optimized RNNs for decoding complex raw EEG data and boosting the classification performance of EEG-based pBCI tasks. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Li, Ruilin Gao, Ruobin Suganthan, Ponnuthurai Nagaratnam Cui, Jian Sourina, Olga Wang, Lipo |
| format |
Article |
| author |
Li, Ruilin Gao, Ruobin Suganthan, Ponnuthurai Nagaratnam Cui, Jian Sourina, Olga Wang, Lipo |
| author_sort |
Li, Ruilin |
| title |
A spectral-ensemble deep random vector functional link network for passive brain–computer interface |
| title_short |
A spectral-ensemble deep random vector functional link network for passive brain–computer interface |
| title_full |
A spectral-ensemble deep random vector functional link network for passive brain–computer interface |
| title_fullStr |
A spectral-ensemble deep random vector functional link network for passive brain–computer interface |
| title_full_unstemmed |
A spectral-ensemble deep random vector functional link network for passive brain–computer interface |
| title_sort |
spectral-ensemble deep random vector functional link network for passive brain–computer interface |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174550 |
| _version_ |
1800916238680981504 |