Image Reconstruction from Electroencephalography Using Latent Diffusion
In this work, we have adopted the diffusion-based image reconstruction pipeline previously used for fMRI image reconstruction and applied it to Electroencephalography (EEG). The EEG encoding method is very simple, and forms a baseline from which more sophisticated EEG encoding methods can be compared. We have also evaluated the fidelity of the generated image using the same metrics used in the previous functional magnetic resonance imaging (fMRI) and magnetoencephalography (MEG) works. Our results show that while the reconstruction from EEG recorded to rapidly presented images is not as good as reconstructions from fMRI to slower presented images, it holds a surprising amount of information that could be applied in specific use cases. Also, EEG-based image reconstruction works better in some categories-such as land animals and food-than others, shedding new light on previous findings of EEG's sensitivity to those categories and revealing potential for these methods to further understand EEG responses to human visual coding. More investigation should use longer-duration image stimulations to elucidate the later components that might be salient to the different image categories.
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