Transformers as Decision Makers: Provable In-Context Reinforcement Learning via Supervised Pretraining
October 12, 2023 ยท Declared Dead ยท ๐ International Conference on Learning Representations
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Authors
Licong Lin, Yu Bai, Song Mei
arXiv ID
2310.08566
Category
cs.LG: Machine Learning
Cross-listed
cs.AI,
cs.CL,
math.ST,
stat.ML
Citations
70
Venue
International Conference on Learning Representations
Last Checked
4 months ago
Abstract
Large transformer models pretrained on offline reinforcement learning datasets have demonstrated remarkable in-context reinforcement learning (ICRL) capabilities, where they can make good decisions when prompted with interaction trajectories from unseen environments. However, when and how transformers can be trained to perform ICRL have not been theoretically well-understood. In particular, it is unclear which reinforcement-learning algorithms transformers can perform in context, and how distribution mismatch in offline training data affects the learned algorithms. This paper provides a theoretical framework that analyzes supervised pretraining for ICRL. This includes two recently proposed training methods -- algorithm distillation and decision-pretrained transformers. First, assuming model realizability, we prove the supervised-pretrained transformer will imitate the conditional expectation of the expert algorithm given the observed trajectory. The generalization error will scale with model capacity and a distribution divergence factor between the expert and offline algorithms. Second, we show transformers with ReLU attention can efficiently approximate near-optimal online reinforcement learning algorithms like LinUCB and Thompson sampling for stochastic linear bandits, and UCB-VI for tabular Markov decision processes. This provides the first quantitative analysis of the ICRL capabilities of transformers pretrained from offline trajectories.
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