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NavCoT: Boosting LLM-Based Vision-and-Language Navigation via Learning Disentangled Reasoning
PyTorch implementation of the paper NavCoT: Boosting LLM-Based Vision-and-Language Navigation via Learning Disentangled Reasoning.
Vision-and-Language Navigation (VLN), as a crucial research problem of Embodied AI, requires an embodied agent to navigate through complex 3D environments following natural language instructions. Recent research has highlighted the promising capacity of large language models (LLMs) in VLN by improving navigational reasoning accuracy and interpretability. However, their predominant use in an offline manner usually suffers from substantial domain gap between the VLN task and the LLM training corpus. This paper introduces a novel strategy called Navigational Chain-of-Thought (NavCoT), where we fulfill parameter-efficient in-domain training to enable self-guided navigational decision, leading to a significant mitigation of the domain gap in a cost-effective manner. Specifically, at each timestep, the LLM is prompted to forecast the navigational chain-of-thought by: 1) acting as a world model to imagine the next observation according to the instruction, 2) selecting the candidate observation that best aligns with the imagination, and 3) determining the action based on the reasoning from the prior steps. Through constructing formalized labels for training, the LLM can learn to generate desired and reasonable chain-of-thought outputs for improving the action decision. Experimental results across various training settings and popular VLN benchmarks (e.g., Room-to-Room (R2R), Room-across-Room (RxR), Room-for-Room (R4R)) show the significant superiority of NavCoT over the direct action prediction variants. Through simple parameter-efficient finetuning, our NavCoT outperforms a recent GPT4-based approach with ~7% relative improvement on the R2R dataset. We believe that NavCoT will help unlock more task-adaptive and scalable LLM-based embodied agents, which are helpful for developing real-world robotics applications.
Installation
Training
The training environment installation of NavCoT follows that in LLaMA2-Accessory.
Install requirements:
cd LLaMA2-Accessory
conda create -n accessory python=3.10 -y
conda activate accessory
pip install -r requirements.txt
Testing
The testing environment installation of NavCoT follows that in VLN-SIG.
- Follow instructions here to install Matterport3D simulators.
- Install requirements:
pip install -r python_requirements.txt
Data Preparation
please follow the instructions below to prepare the data in directories:
Training
- Download pretrained LLaMA2 weight from here.
- Download tokenizer from here.
- Download instruction finetuning data from here.
Testing
- Download navigation data following instructions here.
- Download pre-trained dVAE from here.
- Download pre-extracted CLIP-ViT/16 features and pre-extracted image semantics from here.
- Download RxR English subset from here.
- Download caption data here.
Navigation
Training
cd LLaMA2-Accessory/accessory/exps/finetune/sg
bash alpaca_llamaPeft_normBias_r2r.sh 0,1,2,3 # (alpaca_llamaPeft_normBias_r4r.sh, alpaca_llamaPeft_normBias_rxr.sh)
Testing
cd finetune_src
bash scripts/run_r2r.sh # (run_r4r.sh, run_rxr.sh)
Acknowledgement
Some of the codes are built upon VLN-HAMT, VLN-SIG and LLaMA 2. Thanks them for their great works!