Enhancing Motor Imagery Decoding in Brain Computer Interfaces using
Riemann Tangent Space Mapping and Cross Frequency Coupling
- URL: http://arxiv.org/abs/2310.19198v1
- Date: Sun, 29 Oct 2023 23:37:47 GMT
- Title: Enhancing Motor Imagery Decoding in Brain Computer Interfaces using
Riemann Tangent Space Mapping and Cross Frequency Coupling
- Authors: Xiong Xiong, Li Su, Jinguo Huang, Guixia Kang
- Abstract summary: Motor Imagery (MI) serves as a crucial experimental paradigm within the realm of Brain Computer Interfaces (BCIs)
This paper introduces a novel approach to enhance the representation quality and decoding capability pertaining to MI features.
A lightweight convolutional neural network is employed for further feature extraction and classification, operating under the joint supervision of cross-entropy and center loss.
- Score: 5.860347939369221
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Objective: Motor Imagery (MI) serves as a crucial experimental paradigm
within the realm of Brain Computer Interfaces (BCIs), aiming to decoding motor
intentions from electroencephalogram (EEG) signals. Method: Drawing inspiration
from Riemannian geometry and Cross-Frequency Coupling (CFC), this paper
introduces a novel approach termed Riemann Tangent Space Mapping using
Dichotomous Filter Bank with Convolutional Neural Network (DFBRTS) to enhance
the representation quality and decoding capability pertaining to MI features.
DFBRTS first initiates the process by meticulously filtering EEG signals
through a Dichotomous Filter Bank, structured in the fashion of a complete
binary tree. Subsequently, it employs Riemann Tangent Space Mapping to extract
salient EEG signal features within each sub-band. Finally, a lightweight
convolutional neural network is employed for further feature extraction and
classification, operating under the joint supervision of cross-entropy and
center loss. To validate the efficacy, extensive experiments were conducted
using DFBRTS on two well-established benchmark datasets: the BCI competition IV
2a (BCIC-IV-2a) dataset and the OpenBMI dataset. The performance of DFBRTS was
benchmarked against several state-of-the-art MI decoding methods, alongside
other Riemannian geometry-based MI decoding approaches. Results: DFBRTS
significantly outperforms other MI decoding algorithms on both datasets,
achieving a remarkable classification accuracy of 78.16% for four-class and
71.58% for two-class hold-out classification, as compared to the existing
benchmarks.
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