Sparse Graph-based Representations of SSVEP Responses Under the Variational Bayesian Framework

V. Oikonomou, S. Nikolopoulos, Y. Kompatsiaris
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引用次数: 2

Abstract

The recognition of Steady State Visual Evoked Potentials (SSVEP) constitutes a challenging problem in Brain Computer Interfaces (BCI), especially when the number of EEG sensors is limited. In this work, we propose a new sparse representation classification scheme that extends current schemes by exploiting the graph properties of relevant features. Based on this scheme each test signal is represented as a linear combination of train signals. Our expectation is that this constrained linear combination, exploiting the graph's structure of the training data, will lead to representations that are more robust. Moreover, in order to avoid overfitting and provide a model with good generalization abilities we adopt the bayesian framework and, in particular, the Variational Bayesian Framework since we use a specific prior distribution to exploit the graph structure of the data. The proposed algorithm has been evaluated on two SSVEP datasets achieving state-of- the-art performance against well known classification methods in SSVEP literature.
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变分贝叶斯框架下基于稀疏图的SSVEP响应表示
稳态视觉诱发电位(SSVEP)的识别是脑机接口(BCI)中一个具有挑战性的问题,特别是在脑电信号传感器数量有限的情况下。在这项工作中,我们提出了一种新的稀疏表示分类方案,该方案通过利用相关特征的图属性来扩展现有方案。基于该方案,每个测试信号被表示为列车信号的线性组合。我们的期望是,这种约束的线性组合,利用训练数据的图结构,将导致更鲁棒的表示。此外,为了避免过拟合并提供具有良好泛化能力的模型,我们采用贝叶斯框架,特别是变分贝叶斯框架,因为我们使用特定的先验分布来利用数据的图结构。所提出的算法已经在两个SSVEP数据集上进行了评估,在SSVEP文献中,与已知的分类方法相比,该算法达到了最先进的性能。
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