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Using Tracking-by-Detection and Multi-classification to track and identify each beetle path

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beetle-tracking

Using Tracking-by-Detection and Multi-classification to track and identify each beetle path

tracking-demo

Installing

Requirement

  • Ubuntu 16.04
  • CUDA 9

pipenv

Clone the project and run the setup script to check the package dependency. Shell script will download the site-project TensorBox and keras-transfer-workflow.

  • TensorBox, the fork from Russell91 with some modification
  • keras-transfer-workflow, multiclass-classification the result from TensorBox
$ git clone https://github.com/afunTW/keras-transfer-workflow
$ ./setup.bash # setup by pipenv

Moreover, you can execute the download script to get the pre-trained models from TensorBox and keras-transfer-workflow for beetle project.

$ ./download_data.bash

docker

Available to apply with docker, then use the above script setup.bash to deploy as well.

docker pull afun/beetle-tracking

Running

If you are going to apply a new dataset, please refer to the related repository. The following instruction only writes up the process of inference model by given video and pre-trained model where you can download by download_data.bash. Check up the demo.bash for more detail.

Step 1: Inference Detection Model

Enter the detection repo and activate the virtualenv. Execute the generate_bbox.py to get the detection result, it will be generate at the same place by given video with suffix _detection

# make sure to run the script under beetle-tracking/detection virtualenv
$ python generate_bbox.py \
--gpu 0 \
--weights ../models/detection/lstm_resnet_beetle_rezoom/save.ckpt-1300000 \
--video-root ../data/demo/ \
--video-type avi \
--output-dir ../outputs

Step 2: Inference Multiclass-Classification Model

It's available to pass multiple models in --models parameter, but I use the pre-trained ResNet model only in this demonstration. This step will generate the classification result at the same place with given detection text file with suffix _ensemble

# make sure to run the script under beetle-tracking virtualenv
$ python3 ensemble_predicts.py \
--gpu 0 \
--video data/demo/demo.avi \
--input outputs/demo/demo_detection.txt \
--models models/classification/resnet.h5

Step 3: Apply Tracking Algorithm

With that information we got in the above instruction, main.py in this repo apply the Hungarian matching algorithm and some constraint for this specific experiment to get the tracking path. At the end, the final output will place at beetle-tracking/outputs/VIDEO_NAME/path.csv, and you might get the extra video at beetle-tracking/outputs/VIDEO_NAME/track.avi if you pass the --output-video parameter.

# make sure to run the script under beetle-tracking virtualenv
$ python3 main.py \
--video data/demo/demo.avi \
--input data/demo/demo_ensemble.txt \
--config config/default.json \
--no-show-video --no-save-video

More Functionality

demo in batch

Refer to utils/demo_in_batch.py, you can generate the data in batch for action classification if and only if you pass the option action_data. The folders under data/ would be videos for each.

$ python3 utils/demo_in_batch.py \
--gpus 0,1,2,3 \
--recursive data/ \ 
--outputdir outputs/

The script will run in multithreading and get the idle GPU from the queue.

visualization

Invoke the src.visualize.show_and_save_video function could show the result on each frame and output a video. Support the format of detection, classification, tracking, action. Check the utils/visualization.py for more detail.

multi-gpu booosting in classification

We apply the ensemble in classification, and the ensemble_predict.py can only accept a GPU which means you have to load a model once for each time. Considering to get the ensemble result asap, you can invoke the utils/ensemble_predict_mt.py which is available to predict in parallel as long as you provide multi-GPUs.

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  • Python 92.3%
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