Grounded SAM 2: Ground and Track Anything in Videos with Grounding DINO, Grounding DINO 1.5, Florence-2 and SAM 2.

🔥 Project Highlight

In this repo, we've supported the following demo with simple implementations:

• Ground and Segment Anything with Grounding DINO, Grounding DINO 1.5 & 1.6 and SAM 2
• Ground and Track Anything with Grounding DINO, Grounding DINO 1.5 & 1.6 and SAM 2
• Detect, Segment and Track Visualization based on the powerful supervision library.

Grounded SAM 2 does not introduce significant methodological changes compared to Grounded SAM: Assembling Open-World Models for Diverse Visual Tasks. Both approaches leverage the capabilities of open-world models to address complex visual tasks. Consequently, we try to simplify the code implementation in this repository, aiming to enhance user convenience.

• 2024/08/09: Support Ground and Track New Object throughout the whole videos. This feature is still under development now. Credits to Shuo Shen.
• 2024/08/07: Support Custom Video Inputs, users need only submit their video file (e.g. mp4 file) with specific text prompts to get an impressive demo videos.

• Installation
• Grounded SAM 2 Demos
  • Grounded SAM 2 Image Demo
  • Grounded SAM 2 Image Demo (with Grounding DINO 1.5 & 1.6)
  • Grounded SAM 2 Video Object Tracking Demo
  • Grounded SAM 2 Video Object Tracking Demo (with Grounding DINO 1.5 & 1.6)
  • Grounded SAM 2 Video Object Tracking with Custom Video Input (using Grounding DINO)
  • Grounded SAM 2 Video Object Tracking with Custom Video Input (using Grounding DINO 1.5 & 1.6)
  • Grounded SAM 2 Video Object Tracking with Continues ID (using Grounding DINO)
• Grounded SAM 2 Florence-2 Demos
  • Grounded SAM 2 Florence-2 Image Demo (Updating)
• Citation

Download the pretrained SAM 2 checkpoints:

cd checkpoints
bash download_ckpts.sh

Download the pretrained Grounding DINO checkpoints:

cd gdino_checkpoints
bash download_ckpts.sh

Install PyTorch environment first. We use python=3.10, as well as torch >= 2.3.1, torchvision>=0.18.1 and cuda-12.1 in our environment to run this demo. Please follow the instructions here to install both PyTorch and TorchVision dependencies. Installing both PyTorch and TorchVision with CUDA support is strongly recommended. You can easily install the latest version of PyTorch as follows:

pip3 install torch torchvision torchaudio

Since we need the CUDA compilation environment to compile the Deformable Attention operator used in Grounding DINO, we need to check whether the CUDA environment variables have been set correctly (which you can refer to Grounding DINO Installation for more details). You can set the environment variable manually as follows if you want to build a local GPU environment for Grounding DINO to run Grounded SAM 2:

export CUDA_HOME=/path/to/cuda-12.1/

Install Segment Anything 2:

pip install -e .

Install Grounding DINO:

pip install --no-build-isolation -e grounding_dino

Build the Docker image and Run the Docker container:

cd Grounded-SAM-2
make build-image
make run

After executing these commands, you will be inside the Docker environment. The working directory within the container is set to: /home/appuser/Grounded-SAM-2

Once inside the Docker environment, you can start the demo by running:

python grounded_sam2_tracking_demo.py

Note that Grounding DINO has already been supported in Huggingface, so we provide two choices for running Grounded SAM 2 model:

• Use huggingface API to inference Grounding DINO (which is simple and clear)

python grounded_sam2_hf_model_demo.py

• Load local pretrained Grounding DINO checkpoint and inference with Grounding DINO original API (make sure you've already downloaded the pretrained checkpoint)

python grounded_sam2_local_demo.py

We've already released our most capable open-set detection model Grounding DINO 1.5 & 1.6, which can be combined with SAM 2 for stronger open-set detection and segmentation capability. You can apply the API token first and run Grounded SAM 2 with Grounding DINO 1.5 as follows:

Install the latest DDS cloudapi:

pip install dds-cloudapi-sdk

Apply your API token from our official website here: request API token.

python grounded_sam2_gd1.5_demo.py

Based on the strong tracking capability of SAM 2, we can combined it with Grounding DINO for open-set object segmentation and tracking. You can run the following scripts to get the tracking results with Grounded SAM 2:

python grounded_sam2_tracking_demo.py

• The tracking results of each frame will be saved in ./tracking_results
• The video will be save as children_tracking_demo_video.mp4
• You can refine this file with different text prompt and video clips yourself to get more tracking results.
• We only prompt the first video frame with Grounding DINO here for simple usage.

We've supported different types of prompt for Grounded SAM 2 tracking demo:

• Point Prompt: In order to get a stable segmentation results, we re-use the SAM 2 image predictor to get the prediction mask from each object based on Grounding DINO box outputs, then we uniformly sample points from the prediction mask as point prompts for SAM 2 video predictor
• Box Prompt: We directly use the box outputs from Grounding DINO as box prompts for SAM 2 video predictor
• Mask Prompt: We use the SAM 2 mask prediction results based on Grounding DINO box outputs as mask prompt for SAM 2 video predictor.

We've also support video object tracking demo based on our stronger Grounding DINO 1.5 model and SAM 2, you can try the following demo after applying the API keys for running Grounding DINO 1.5:

python grounded_sam2_tracking_demo_with_gd1.5.py

Users can upload their own video file (e.g. assets/hippopotamus.mp4) and specify their custom text prompts for grounding and tracking with Grounding DINO and SAM 2 by using the following scripts:

python grounded_sam2_tracking_demo_custom_video_input_gd1.0_hf_model.py

Users can upload their own video file (e.g. assets/hippopotamus.mp4) and specify their custom text prompts for grounding and tracking with Grounding DINO 1.5 and SAM 2 by using the following scripts:

python grounded_sam2_tracking_demo_custom_video_input_gd1.5.py

You can specify the params in this file:

VIDEO_PATH = "./assets/hippopotamus.mp4"
TEXT_PROMPT = "hippopotamus."
OUTPUT_VIDEO_PATH = "./hippopotamus_tracking_demo.mp4"
API_TOKEN_FOR_GD1_5 = "Your API token" # api token for G-DINO 1.5
PROMPT_TYPE_FOR_VIDEO = "mask" # using SAM 2 mask prediction as prompt for video predictor

After running our demo code, you can get the tracking results as follows:

And we will automatically save the tracking visualization results in OUTPUT_VIDEO_PATH.

In above demos, we only prompt Grounded SAM 2 in specific frame, which may not be friendly to find new object during the whole video. In this demo, we try to find new objects and assign them with new ID across the whole video, this function is still under develop. it's not that stable now.

Users can upload their own video files and specify custom text prompts for grounding and tracking using the Grounding DINO and SAM 2 frameworks. To do this, execute the script:

python grounded_sam2_tracking_demo_with_continuous_id.py

You can customize various parameters including:

• text: The grounding text prompt.
• video_dir: Directory containing the video files.
• output_dir: Directory to save the processed output.
• output_video_path: Path for the output video.
• step: Frame stepping for processing.
• box_threshold: box threshold for groundingdino model
• text_threshold: text threshold for groundingdino model Note: This method supports only the mask type of text prompt.

After running our demo code, you can get the tracking results as follows:

If you want to try Grounding DINO 1.5 model, you can run the following scripts after setting your API token:

python grounded_sam2_tracking_demo_with_continuous_id_gd1.5.py

In this section, we will explore how to integrate the feature-rich and robust open-source models Florence-2 and SAM 2 to develop practical applications.

Florence-2 is a powerful vision foundation model by Microsoft which supports a series of vision tasks by prompting with special task_prompt includes but not limited to:

Integrate Florence-2 with SAM-2, we can build a strong vision pipeline to solve complex vision tasks, you can try the following scripts to run the demo:

Object Detection and Segmentation

python grounded_sam2_image_demo_florence2.py \
    --pipeline object_detection_segmentation \
    --image_path ./notebooks/images/cars.jpg

Dense Region Caption and Segmentation

python grounded_sam2_image_demo_florence2.py \
    --pipeline dense_region_caption_segmentation \
    --image_path ./notebooks/images/cars.jpg

Region Proposal and Segmentation

python grounded_sam2_image_demo_florence2.py \
    --pipeline region_proposal_segmentation \
    --image_path ./notebooks/images/cars.jpg

Phrase Grounding and Segmentation

python grounded_sam2_image_demo_florence2.py \
    --pipeline phrase_grounding_segmentation \
    --image_path ./notebooks/images/cars.jpg \
    --text_input "The image shows two vintage Chevrolet cars parked side by side, with one being a red convertible and the other a pink sedan, \
            set against the backdrop of an urban area with a multi-story building and trees. \
            The cars have Cuban license plates, indicating a location likely in Cuba."

Referring Expression Segmentation

python grounded_sam2_image_demo_florence2.py \
    --pipeline referring_expression_segmentation \
    --image_path ./notebooks/images/cars.jpg \
    --text_input "The left red car."

If you find this project helpful for your research, please consider citing the following BibTeX entry.

@misc{ravi2024sam2segmentimages,
      title={SAM 2: Segment Anything in Images and Videos}, 
      author={Nikhila Ravi and Valentin Gabeur and Yuan-Ting Hu and Ronghang Hu and Chaitanya Ryali and Tengyu Ma and Haitham Khedr and Roman Rädle and Chloe Rolland and Laura Gustafson and Eric Mintun and Junting Pan and Kalyan Vasudev Alwala and Nicolas Carion and Chao-Yuan Wu and Ross Girshick and Piotr Dollár and Christoph Feichtenhofer},
      year={2024},
      eprint={2408.00714},
      archivePrefix={arXiv},
      primaryClass={cs.CV},
      url={https://arxiv.org/abs/2408.00714}, 
}

@article{liu2023grounding,
  title={Grounding dino: Marrying dino with grounded pre-training for open-set object detection},
  author={Liu, Shilong and Zeng, Zhaoyang and Ren, Tianhe and Li, Feng and Zhang, Hao and Yang, Jie and Li, Chunyuan and Yang, Jianwei and Su, Hang and Zhu, Jun and others},
  journal={arXiv preprint arXiv:2303.05499},
  year={2023}
}

@misc{ren2024grounding,
      title={Grounding DINO 1.5: Advance the "Edge" of Open-Set Object Detection}, 
      author={Tianhe Ren and Qing Jiang and Shilong Liu and Zhaoyang Zeng and Wenlong Liu and Han Gao and Hongjie Huang and Zhengyu Ma and Xiaoke Jiang and Yihao Chen and Yuda Xiong and Hao Zhang and Feng Li and Peijun Tang and Kent Yu and Lei Zhang},
      year={2024},
      eprint={2405.10300},
      archivePrefix={arXiv},
      primaryClass={cs.CV}
}

@misc{ren2024grounded,
      title={Grounded SAM: Assembling Open-World Models for Diverse Visual Tasks}, 
      author={Tianhe Ren and Shilong Liu and Ailing Zeng and Jing Lin and Kunchang Li and He Cao and Jiayu Chen and Xinyu Huang and Yukang Chen and Feng Yan and Zhaoyang Zeng and Hao Zhang and Feng Li and Jie Yang and Hongyang Li and Qing Jiang and Lei Zhang},
      year={2024},
      eprint={2401.14159},
      archivePrefix={arXiv},
      primaryClass={cs.CV}
}

@article{kirillov2023segany,
  title={Segment Anything}, 
  author={Kirillov, Alexander and Mintun, Eric and Ravi, Nikhila and Mao, Hanzi and Rolland, Chloe and Gustafson, Laura and Xiao, Tete and Whitehead, Spencer and Berg, Alexander C. and Lo, Wan-Yen and Doll{\'a}r, Piotr and Girshick, Ross},
  journal={arXiv:2304.02643},
  year={2023}
}

@misc{jiang2024trex2,
      title={T-Rex2: Towards Generic Object Detection via Text-Visual Prompt Synergy}, 
      author={Qing Jiang and Feng Li and Zhaoyang Zeng and Tianhe Ren and Shilong Liu and Lei Zhang},
      year={2024},
      eprint={2403.14610},
      archivePrefix={arXiv},
      primaryClass={cs.CV}
}