Sliced Detection and Clustering Analysis Toolkit - Developed by MBARI
Project description
sdcat
Sliced Detection and Clustering Analysis Toolkit
This repository processes images using a sliced detection and clustering workflow. If your images look something like the image below, and you want to detect objects in the images, and optionally cluster the detections, then this repository is for you.
Drone/UAV
ISIIS Plankton Imager
DeepSea Imaging System
Detection
Detection can be done with a fine-grained saliency-based detection model, and/or one the following models run with the SAHI algorithm. Both detections algorithms are run by default and combined to produce the final detections.
| Model | Description |
|---|---|
| yolov8s | YOLOv8s model from Ultralytics |
| hustvl/yolos-small | YOLOS model a Vision Transformer (ViT) |
| hustvl/yolos-tiny | YOLOS model a Vision Transformer (ViT) |
| MBARI/megamidwater (default) | MBARI midwater YOLOv5x for general detection in midwater images |
| MBARI/uav-yolov5 | MBARI UAV YOLOv5x for general detection in UAV images |
| FathomNet/MBARI-315k-yolov5 | MBARI YOLOv5x for general detection in benthic images |
To skip saliency detection, use the --skip-saliency option.
sdcat detect --skip-saliency --image-dir <image-dir> --save-dir <save-dir> --model <model> --slice-size-width 900 --slice-size-height 900
To skip using the SAHI algorithm, use --skip-sahi.
sdcat detect --skip-sahi --image-dir <image-dir> --save-dir <save-dir> --model <model> --slice-size-width 900 --slice-size-height 900
ViTS + HDBSCAN Clustering
Once the detections are generated, the detections can be clustered. Alternatively, detections can be clustered from a collection of images by providing the detections in a folder with the roi option.
sdcat cluster roi --roi <roi> --save-dir <save-dir> --model <model>
The clustering is done with a Vision Transformer (ViT) model, and a cosine similarity metric with the HDBSCAN algorithm. The ViT model is used to generate embeddings for the detections, and the HDBSCAN algorithm is used to cluster the detections. The defaults are set to produce fine-grained clusters, but the parameters can be adjusted to produce coarser clusters. The algorithm workflow looks like this:
Installation
Pip install the sdcat package with:
pip install sdcat
Alternatively, Docker can be used to run the code. A pre-built docker image is available at Docker Hub with the latest version of the code.
Detection
docker run -it -v $(pwd):/data mbari/sdcat detect --image-dir /data/images --save-dir /data/detections --model MBARI-org/uav-yolov5
Followed by clustering
docker run -it -v $(pwd):/data mbari/sdcat cluster detections --det-dir /data/detections/ --save-dir /data/detections --model MBARI-org/uav-yolov5
A GPU is recommended for clustering and detection. If you don't have a GPU, you can still run the code, but it will be slower. If running on a CPU, multiple cores are recommended and will speed up processing.
docker run -it --gpus all -v $(pwd):/data mbari/sdcat:cuda124 detect --image-dir /data/images --save-dir /data/detections --model MBARI-org/uav-yolov5
Commands
To get all options available, use the --help option. For example:
sdcat --help
which will print out the following:
Usage: sdcat [OPTIONS] COMMAND [ARGS]...
Process images from a command line.
Options:
-V, --version Show the version and exit.
-h, --help Show this message and exit.
Commands:
cluster Cluster detections.
detect Detect objects in images
To get details on a particular command, use the --help option with the command. For example, with the cluster command:
sdcat cluster --help
which will print out the following:
Usage: sdcat cluster [OPTIONS] COMMAND [ARGS]...
Commands related to clustering images
Options:
-h, --help Show this message and exit.
Commands:
detections Cluster detections.
roi Cluster roi.
File organization
The sdcat toolkit generates data in the following folders. Here, we assume both detection and clustering is output to the same root folder.:
/data/20230504-MBARI/
└── detections
└── hustvl
└── yolos-small # The model used to generate the detections
├── det_raw # The raw detections from the model
│ └── csv
│ ├── DSC01833.csv
│ ├── DSC01859.csv
│ ├── DSC01861.csv
│ └── DSC01922.csv
├── det_filtered # The filtered detections from the model
├── det_filtered_clustered # Clustered detections from the model
├── crops # Crops of the detections
├── dino_vits8...date # The clustering results - one folder per each run of the clustering algorithm
├── dino_vits8..exemplars.csv # Exemplar embeddings - examples with the highest cosine similarity within a cluster
├── dino_vits8..detections.csv # The detections with the cluster id
├── stats.txt # Statistics of the detections
└── vizresults # Visualizations of the detections (boxes overlaid on images)
├── DSC01833.jpg
├── DSC01859.jpg
├── DSC01861.jpg
└── DSC01922.jpg
Process images creating bounding box detections with the YOLOv5 model.
The YOLOv5s model is not as accurate as other models, but is fast and good for detecting larger objects in images, and good for experiments and quick results. Slice size is the size of the detection window. The default is to allow the SAHI algorithm to determine the slice size; a smaller slice size will take longer to process.
sdcat detect --image-dir <image-dir> --save-dir <save-dir> --model yolov5s --slice-size-width 900 --slice-size-height 900
Cluster detections from the YOLOv5 model
Cluster the detections from the YOLOv5 model. The detections are clustered using cosine similarity and embedding features from a FaceBook Vision Transformer (ViT) model.
sdcat cluster --det-dir <det-dir> --save-dir <save-dir> --model yolov5s
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