Grunnleggende konsepter
A novel deep learning approach called Inception feature generator and two-sided perturbation (INC-TSP) is proposed to extract effective features from EEG data and learn a robust model against adversarial attacks for subject-independent emotion recognition.
Sammendrag
The paper presents a novel deep learning approach called Inception feature generator and two-sided perturbation (INC-TSP) for robust EEG-based emotion recognition.
The key highlights are:
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Inception-based Feature Generator:
- The Inception module is integrated with a CNN backbone to perform multiscale analysis of the spatial, temporal, and spectral characteristics of EEG data.
- This enables effective feature extraction from the EEG signals.
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Robust Generalization:
- Two-sided perturbation (TSP) is employed as a defensive mechanism against input perturbations and adversarial attacks.
- TSP applies worst-case perturbations to both the input data and the model's weights, reinforcing the model's elasticity.
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Evaluation:
- The proposed INC-TSP approach is evaluated on the SEED dataset for a subject-independent three-class emotion recognition scenario.
- INC-TSP demonstrates robust performance, maintaining high accuracy and F1-scores under various adversarial attack scenarios.
- Ablation studies and comparisons with previous works further validate the effectiveness of the proposed approach.
The results show that INC-TSP can effectively counter input perturbations and adversarial attacks, while maintaining accurate emotion recognition, making it a promising solution for robust BCI applications.
Statistikk
The EEG signals were recorded using the international 10-20 system with 62 channels, downsampled from 1000 Hz to 200 Hz, and a band-pass filter with a frequency range of 0.5-70 Hz was applied.
Differential entropy (DE) features were calculated every 1-second with no overlap in five frequency subbands: delta, theta, alpha, beta, and gamma.
Sitater
"To overcome such attacks, we employ adversarial training (AT) with adversarial weight perturbation as a defensive scheme inspired by [16]. This approach involves the use of two-sided perturbation (TSP), which applies worst-case perturbations to both the input data and the model's weights."
"Results indicate that the INC-TSP model consistently achieves robust accuracy and F1-scores across various threat models and adversarial attack scenarios which shows its efficacy in countering perturbations."