Coherent Language Reconstruction from Brain Recordings with Flexible Multi-Modal Input Stimuli
Chunyu Ye, Shaonan Wang
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Decoding thoughts from brain activity offers valuable insights into human cognition and enables promising applications in brain-computer interaction. While prior studies have explored language reconstruction from fMRI data, they are typically limited to single-modality inputs such as images or audio. In contrast, human thought is inherently multimodal. To bridge this gap, we propose a unified and flexible framework for reconstructing coherent language from brain recordings elicited by diverse input modalities-visual, auditory, and textual. Our approach leverages visual-language models (VLMs), using modality-specific experts to jointly interpret information across modalities. Experiments demonstrate that our method achieves performance comparable to state-of-the-art systems while remaining adaptable and extensible. This work advances toward more ecologically valid and generalizable mind decoding.