Deep neural networks reveal a gradient in the complexity of neural representations across the ventral stream.Journal of Neuroscience, 35(27):10005–10014

Umut Güçlü, Marcel AJ Van Gerven · 2015

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ViBE: Visual-to-M/EEG Brain Encoding via Spatio-Temporal VAE and Distribution-Aligned Projection

cs.CV · 2026-04-29 · unverdicted · novelty 4.0

ViBE generates M/EEG signals from visual stimuli by reconstructing neural responses with a TSC-VAE and aligning CLIP image features to its latent space via Q-Former, MSE, and sliced Wasserstein losses.

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ViBE: Visual-to-M/EEG Brain Encoding via Spatio-Temporal VAE and Distribution-Aligned Projection cs.CV · 2026-04-29 · unverdicted · none · ref 43
ViBE generates M/EEG signals from visual stimuli by reconstructing neural responses with a TSC-VAE and aligning CLIP image features to its latent space via Q-Former, MSE, and sliced Wasserstein losses.

Deep neural networks reveal a gradient in the complexity of neural representations across the ventral stream.Journal of Neuroscience, 35(27):10005–10014

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