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Abstract

Recent studies have uncovered the potential of Large Language Models (LLMs) in addressing complex sequential decision-making tasks through the provision of high-level instructions. However, LLM-based agents lack specialization in tackling specific target problems, particularly in real-time dynamic environments. Additionally, deploying an LLM-based agent in practical scenarios can be both costly and time-consuming. On the other hand, reinforcement learning (RL) approaches train agents that specialize in the target task but often suffer from low sampling efficiency and high exploration costs. In this paper, we introduce a novel framework that addresses these challenges by training a smaller, specialized student RL agent using instructions from an LLM-based teacher agent. By incorporating the guidance from the teacher agent, the student agent can distill the prior knowledge of the LLM into its own model. Consequently, the student agent can be trained with significantly less data. Moreover, through further training with environment feedback, the student agent surpasses the capabilities of its teacher for completing the target task. We conducted experiments on challenging MiniGrid and Habitat environments, specifically designed for embodied AI research, to evaluate the effectiveness of our framework. The results clearly demonstrate that our approach achieves superior performance compared to strong baseline methods. Our code is available at https://github.com/ZJLAB-AMMI/LLM4Teach.

Purpose

This repo is intended to serve as a foundation with which you can reproduce the results of the experiments detailed in our paper, Large Language Model as a Policy Teacher for Training Reinforcement Learning Agents.

Running experiments

Setup the LLMs

  1. For ChatGLM models, please use your own api_key and run the following code to launch the API
python3 -m utils.chatglm_api --host <API_host> --port <API_port>
  1. For Vicuna models, please follow the instruction from FastChat to install Vicuna model on local sever. Here are the commands to launch the API in terminal:
python3 -m fastchat.serve.controller --host localhost --port <controller_port>        ### Launch the controller
python3 -m fastchat.serve.model_worker --model-name '<model_name>' --model-path <Vicuna_path> --controller http://localhost:<controller_port> --port <model_port> --worker_address http://localhost:<model_port>        ### Launch the model worker
python3 -m fastchat.serve.api --host <API_host> --port <API_port>        ### Launch the API

Train and evaluate the models

Any algorithm can be run from the main.py entry point.

To train on a SimpleDoorKey environment,

python main.py train --task SimpleDoorKey --savedir train

To evaluate the trained model,

python main.py eval --task SimpleDoorKey --loaddir train --savedir eval

To evaluate the LLM-based teacher baseline,

python main.py eval --task SimpleDoorKey --loaddir train --savedir eval --eval_teacher

Logging details

Tensorboard logging is enabled by default for all algorithms. The logger expects that you supply an argument named logdir, containing the root directory you want to store your logfiles

The resulting directory tree would look something like this:

log/                         # directory with all of the saved models and tensorboard 
└── ppo                                 # algorithm name
    └── simpledoorkey                   # environment name
        └── save_name                   # unique save name 
            ├── acmodel.pt              # actor and critic network for algo
            ├── events.out.tfevents     # tensorboard binary file
            └── config.json             # readable hyperparameters for this run

Using tensorboard makes it easy to compare experiments and resume training later on.

To see live training progress

Run $ tensorboard --logdir=log then navigate to http://localhost:6006/ in your browser

Citation

If you find our work useful, please kindly cite:

@inproceedings{zhou2024large,
  title={Large Language Model as a Policy Teacher for Training Reinforcement Learning Agents},
  author={Zhou, Zihao and Hu, Bin and Zhao, Chenyang and Zhang, Pu and Liu, Bin},
  booktitle={The 33rd International Joint Conference on Artificial Intelligence (IJCAI 2024)},
  year={2024}
}

Acknowledgements

This work is supported by Exploratory Research Project (No.2022RC0AN02) of Zhejiang Lab.