A unified acoustic-to-speech-to-language embedding space captures the neural basis of natural language processing in everyday conversations by Nature Human Behaviour ISBN 101038/S41562025021059 instant download

A unified acoustic-to-speech-to-language embedding space captures the neural basis of natural language processing in everyday conversations by Nature Human Behaviour ISBN 101038/S41562025021059 instant download

This study introduces a unifed computational framework connecting Check for updatesacoustic, speech and word-level linguistic structures to study the neural basis of everyday conversations in the human brain. We used electrocorticography to record neural signals across 100 h of speech production and comprehension as participants engaged in open-ended real-life conversations. We extracted low-level acoustic, mid-level speech and contextual word embeddings from a multimodal speech-to-text model (Whisper). We developed encoding models that linearly map these embeddings onto brain activity during speech production and comprehension. Remarkably, this model accurately predicts neural activity at each level of the language processing hierarchy across hours of new conversations not used in training the model. The internal processing hierarchy in the model is aligned with the cortical hierarchy for speech and language processing, where sensory and motor regions better align with the model’s speech embeddings, and higher-level language areas better align with the model’s language embeddings. The Whisper model captures the temporal sequence of language-to-speech encoding before word articulation (speech production) and speech-to-language encoding post articulation (speech comprehension). The embeddings learned by this model outperform symbolic models in capturing neural activity supporting natural speech and language. These fndings support a paradigm shift towards unifed computational models that capture the entire processing hierarchy for speech comprehension and production in real-world conversations.