Author
Listed:
- Greta Tuckute
(Massachusetts Institute of Technology
Massachusetts Institute of Technology)
- Aalok Sathe
(Massachusetts Institute of Technology
Massachusetts Institute of Technology)
- Shashank Srikant
(Massachusetts Institute of Technology
MIT-IBM Watson AI Lab)
- Maya Taliaferro
(Massachusetts Institute of Technology
Massachusetts Institute of Technology)
- Mingye Wang
(Massachusetts Institute of Technology
Massachusetts Institute of Technology)
- Martin Schrimpf
(Massachusetts Institute of Technology
Massachusetts Institute of Technology
École Polytechnique Fédérale de Lausanne)
- Kendrick Kay
(University of Minnesota)
- Evelina Fedorenko
(Massachusetts Institute of Technology
Massachusetts Institute of Technology
Harvard University)
Abstract
Transformer models such as GPT generate human-like language and are predictive of human brain responses to language. Here, using functional-MRI-measured brain responses to 1,000 diverse sentences, we first show that a GPT-based encoding model can predict the magnitude of the brain response associated with each sentence. We then use the model to identify new sentences that are predicted to drive or suppress responses in the human language network. We show that these model-selected novel sentences indeed strongly drive and suppress the activity of human language areas in new individuals. A systematic analysis of the model-selected sentences reveals that surprisal and well-formedness of linguistic input are key determinants of response strength in the language network. These results establish the ability of neural network models to not only mimic human language but also non-invasively control neural activity in higher-level cortical areas, such as the language network.
Suggested Citation
Greta Tuckute & Aalok Sathe & Shashank Srikant & Maya Taliaferro & Mingye Wang & Martin Schrimpf & Kendrick Kay & Evelina Fedorenko, 2024.
"Driving and suppressing the human language network using large language models,"
Nature Human Behaviour, Nature, vol. 8(3), pages 544-561, March.
Handle:
RePEc:nat:nathum:v:8:y:2024:i:3:d:10.1038_s41562-023-01783-7
DOI: 10.1038/s41562-023-01783-7
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