Asynchronous Large Language Model Enhanced Planner for Autonomous Driving

arXiv | Dataset

Official implementation of the ECCV 2024 paper Asynchronous Large Language Model Enhanced Planner for Autonomous Driving.

Getting Started

1. Installation

Step 1: Download NuPlan Dataset

• Follow the official instructions to download the NuPlan dataset.

Step 2: Set Environment Variables

Make sure to set the following environment variables correctly to point to the NuPlan datase:

NUPLAN_MAPS_ROOT=path/to/nuplan/dataset/maps
NUPLAN_DATA_ROOT=path/to/nuplan/dataset
NUPLAN_EXP_ROOT=path/to/nuplan/exp

Step 3: Clone the Repository

Clone this repository and navigate to the project directory:

git clone https://github.com/memberRE/AsyncDriver.git && cd AsyncDriver

Step 4: Set up the Conda Environment

• Create the NuPlan Environment:

  Create a Conda environment based on the provided environment.yml file:

  conda env create -f environment.yml
  

• Install Additional Dependencies:

  After setting up the Conda environment, install the additional dependencies listed in the requirements_asyncdriver.txt:

  pip install -r requirements_asyncdriver.txt
  

  Note: If you encounter any issues with dependencies, refer to the environment_all.yaml for a complete list of packages.

Step 5: Download Checkpoints and AsyncDriver Dataset

• Download the PDM checkpoint, and update the necessary file paths in the configuration (although this checkpoint is not actively used in the current version).
• Download the llama-2-13b-chat-hf.
• Download the training data and validate data and update the map_info field in the JSON files to the corresponding file's absolute path.

2. Evaluation

To evaluate the model, use the following command:

bash train_script/inference/asyncdriver_infer.sh <gpuid> <scenario_type_id>

<scenario_type_id> is a value between [0-13], representing 14 different scenario types. Replace all path/to placeholders in the scripts with actual paths.

To evaluate the model with asynchronous inference, use:

bash train_script/inference/with_interval.sh <gpuid> <scenario_type_id> <interval>

<interval> defines the inference interval between LLM and Real-time Planner, and it should be set to a value between [0, 149].

To evaluate the model with pdm_scorer, use:

bash train_script/inference/with_interval.sh <gpuid> <scenario_type_id>

Note: Update nuplan/planning/script/config/simulation/planner/llama4drive_lora_ins_wo_stop_refine.yaml at line 58 with the correct PDM checkpoint path. This path is required for instantiation but is not used during execution.

If you encounter issues with the planner not being found, modify the following line:

• Change train_script/inference/simulator_llama4drive.py from line 83 to line 84.

Training checkpoints is available for download.

3. Training

The training process involves multiple stages:

• Train GameFormer:

python train_script/train_gameformer.py --train_set path/to/stage1_train_180k_processed.json --valid_set stage1_val_20k_processed.json

• Train Planning-QA:

bash train_script/train_qa/train_driveqa.sh <gpu_ids>

• Train Reasoning1K:

bash train_script/train_qa/train_driveqa.sh <gpu_ids>

• Final stage:

bash train_script/train_from_scratch/llm_load_pretrain_lora_gameformer.sh <gpu_ids>

Note: Make sure to replace all path/to placeholders in the scripts with actual paths.

Citation

If you find this repository useful for your research, please consider giving us a star 🌟 and citing our paper.

@inproceedings{chen2024asynchronous,
 author = {Yuan Chen, Zi-han Ding, Ziqin Wang, Yan Wang, Lijun Zhang, Si Liu},
 title = {Asynchronous Large Language Model Enhanced Planner for Autonomous Drivingr},
 booktitle={Proceedings of the European Conference on Computer Vision (ECCV)},
 year = {2024}}

Acknowledgements

Some of the codes are built upon nuplan-devkit, GameFormer, tuplan_garage and llama. Thanks them for their great works!