compressedcv

Object detection on compressed images

Large amount of high quality data generated by cameras installed on autonomous driving cars - 9 GB / minute. Several petabytes are collected in a month. Storage of this amount of data is costly for a company. Motivated by the problem, we investigate how much can we compress data and do not lose accuracy of object detection on images?

We do transfer learning on a private dataset with the state-of-the-art SSD and Faster RCNN networks pre-trained on KITTI and COCO image datasets.

Below are the sample performance results of object detection for 100%. 40% and 5% quality JPEG by Faster RCNN.

Overall object detection results can be seen on fig. below.

Object detection results demonstrate that operating on compressed images (till 40%) do not bring significant drop in accuracy, while storage rates decrease hugely.

Project Organization

├── LICENSE
├── README.md          <- The top-level README for developers using this project.
├── data
│   ├── external       <- Data from third party sources.
│   ├── interim        <- Intermediate data that has been transformed.
│   ├── processed      <- The final, canonical data sets for modeling.
│   └── raw            <- The original, immutable data dump.
│
├── models             <- Trained and serialized models, model predictions, or model summaries
│
├── notebooks          <- Jupyter notebooks. Naming convention is a number (for ordering),
│                         the creator's initials, and a short `-` delimited description, e.g.
│                         `1.0-jqp-initial-data-exploration`.
│
├── reports            <- Generated analysis as HTML, PDF, LaTeX, etc.
│   └── figures        <- Generated graphics and figures to be used in reporting
│
├── requirements.txt   <- The requirements file for reproducing the analysis environment, e.g.
│                         generated with `pip freeze > requirements.txt`
│
├── setup.py           <- makes project pip installable (pip install -e .) so src can be imported
├── src                <- Source code for use in this project.
│   ├── __init__.py    <- Makes src a Python module
│   │
│   ├── data           <- Scripts to download or generate data
│   │   └── make_dataset.py
│   │
│   ├── features       <- Scripts to turn raw data into features for modeling
|       └── build_features.py
└──TensorFlow          <- TensorFlow pipeline for transfer learning

Use instructions in readme files in TensorFlow folder to train pre-trained models.

---

Project based on the cookiecutter data science project template. #cookiecutterdatascience