AI Article Synopsis
- Motor imagery brain-computer interface (BCI) systems are important for research but face challenges in transferring data between different subjects.
- This paper presents a new method that combines common spatial patterns (CSP) and wavelet packet transforms (WPT) with transfer learning to improve the reliability of these systems.
- Using data from BCI Competition III, the proposed method achieved a high classification accuracy of 93.4% and demonstrates effectiveness in addressing subject-to-subject transfer issues, making it a valuable approach for enhancing motor imagery BCI performance.
Article Abstract
Motor imagery brain computer interface (BCI) systems are considered one of the most crucial paradigms and have received extensive attention from researchers worldwide. However, the non-stationary from subject-to-subject transfer is a substantial challenge for robust BCI operations. To address this issue, this paper proposes a novel approach that integrates joint multi-feature extraction, specifically combining common spatial patterns (CSP) and wavelet packet transforms (WPT), along with transfer learning (TL) in motor imagery BCI systems. This approach leverages the time-frequency characteristics of WPT and the spatial characteristics of CSP while utilizing transfer learning to facilitate EEG identification for target subjects based on knowledge acquired from non-target subjects. Using dataset IVa from BCI Competition III, our proposed approach achieves an impressive average classification accuracy of 93.4%, outperforming five kinds of state-of-the-art approaches. Furthermore, it offers the advantage of enabling the design of various auxiliary problems to learn different aspects of the target problem from unlabeled data through transfer learning, thereby facilitating the implementation of innovative ideas within our proposed approach. Simultaneously, it demonstrates that integrating CSP and WPT while transferring knowledge from other subjects is highly effective in enhancing the average classification accuracy of EEG signals and it provides a novel solution to address subject-to-subject transfer challenges in motor imagery BCI systems.
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| http://dx.doi.org/10.1080/10255842.2024.2404541 | DOI Listing |
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