brain-computer interface

Fig. 3. Structure of the semantic latent factor encoding module of CD-CMAN model

CD-CMAN: Causality-Driven Neural Network for EEG Signal Decoding in Brain-Computer Interfaces

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CD-CMAN: Causality-Driven Neural Network for EEG Signal Decoding in Brain-Computer Interfaces Neuroscience × Deep Learning · March 2026 How Causality Is Rewiring the Brain-Computer Interface:Inside CD-CMAN, the EEG Decoder That Thinks Causally Deep Learning & Medical AI ~2,100 words · 10 min read IEEE TPAMI · Vol. 48 · No. 3 · 2026 Slug: /cd-cman-eeg-decoding-causality-driven-neural-network

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Decoding Olfactory Response with TACAF: A Breakthrough in EEG and Breathing Signal Fusion

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Introduction: The Power of Smell and the Science Behind It Smell is one of the most primal and powerful senses humans possess. It can evoke memories, influence emotions, and even affect our daily decisions. But how does the brain interpret different smells — and what happens when we’re exposed to pleasant versus unpleasant odors? A

Decoding Olfactory Response with TACAF: A Breakthrough in EEG and Breathing Signal Fusion Read More »

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