--- sdk: gradio emoji: 🚀 colorFrom: yellow colorTo: red sdk_version: 5.0.1 --- ## Depth Pro: Sharp Monocular Metric Depth in Less Than a Second This software project accompanies the research paper: **[Depth Pro: Sharp Monocular Metric Depth in Less Than a Second](https://arxiv.org/abs/2410.02073)**, *Aleksei Bochkovskii, Amaël Delaunoy, Hugo Germain, Marcel Santos, Yichao Zhou, Stephan R. Richter, and Vladlen Koltun*. ![](data/depth-pro-teaser.jpg) We present a foundation model for zero-shot metric monocular depth estimation. Our model, Depth Pro, synthesizes high-resolution depth maps with unparalleled sharpness and high-frequency details. The predictions are metric, with absolute scale, without relying on the availability of metadata such as camera intrinsics. And the model is fast, producing a 2.25-megapixel depth map in 0.3 seconds on a standard GPU. These characteristics are enabled by a number of technical contributions, including an efficient multi-scale vision transformer for dense prediction, a training protocol that combines real and synthetic datasets to achieve high metric accuracy alongside fine boundary tracing, dedicated evaluation metrics for boundary accuracy in estimated depth maps, and state-of-the-art focal length estimation from a single image. The model in this repository is a reference implementation, which has been re-trained. Its performance is close to the model reported in the paper but does not match it exactly. ## Getting Started We recommend setting up a virtual environment. Using e.g. miniconda, the `depth_pro` package can be installed via: ```bash conda create -n depth-pro -y python=3.9 conda activate depth-pro pip install -e . ``` To download pretrained checkpoints follow the code snippet below: ```bash source get_pretrained_models.sh # Files will be downloaded to `checkpoints` directory. ``` ### Running from commandline We provide a helper script to directly run the model on a single image: ```bash # Run prediction on a single image: depth-pro-run -i ./data/example.jpg # Run `depth-pro-run -h` for available options. ``` ### Running from python ```python from PIL import Image import depth_pro # Load model and preprocessing transform model, transform = depth_pro.create_model_and_transforms() model.eval() # Load and preprocess an image. image, _, f_px = depth_pro.load_rgb(image_path) image = transform(image) # Run inference. prediction = model.infer(image, f_px=f_px) depth = prediction["depth"] # Depth in [m]. focallength_px = prediction["focallength_px"] # Focal length in pixels. ``` ### Evaluation (boundary metrics) Our boundary metrics can be found under `eval/boundary_metrics.py` and used as follows: ```python # for a depth-based dataset boundary_f1 = SI_boundary_F1(predicted_depth, target_depth) # for a mask-based dataset (image matting / segmentation) boundary_recall = SI_boundary_Recall(predicted_depth, target_mask) ``` ## Citation If you find our work useful, please cite the following paper: ```bibtex @article{Bochkovskii2024:arxiv, author = {Aleksei Bochkovskii and Ama\"{e}l Delaunoy and Hugo Germain and Marcel Santos and Yichao Zhou and Stephan R. Richter and Vladlen Koltun} title = {Depth Pro: Sharp Monocular Metric Depth in Less Than a Second}, journal = {arXiv}, year = {2024}, url = {https://arxiv.org/abs/2410.02073}, } ``` ## License This sample code is released under the [LICENSE](LICENSE) terms. The model weights are released under the [LICENSE](LICENSE) terms. ## Acknowledgements Our codebase is built using multiple opensource contributions, please see [Acknowledgements](ACKNOWLEDGEMENTS.md) for more details. Please check the paper for a complete list of references and datasets used in this work.