Noise detection using recursive feature elimination of attributes

Jérôme BUISINE 0907c658bc Merge tag 'v0.0.3' into develop 5 年之前
analyses d67f0b65e6 Add of rfe n_components param 5 年之前
data_processing da6c1aea12 Update of scorer used 5 年之前
display 021a6c2dc3 First initialization of the project 5 年之前
generate 021a6c2dc3 First initialization of the project 5 年之前
modules 021a6c2dc3 First initialization of the project 5 年之前
others 5923de0e11 Update of all bash scritps 5 年之前
prediction 021a6c2dc3 First initialization of the project 5 年之前
run 28dc22dc9e Update of rfe model params and run script 5 年之前
simulation 42bccef4c9 Fix simulation script issue 5 年之前
.gitignore 021a6c2dc3 First initialization of the project 5 年之前
.gitmodules ce47abdbc0 Remove of optimization module and optimization scripts 5 年之前
LICENSE 021a6c2dc3 First initialization of the project 5 年之前
README.md 021a6c2dc3 First initialization of the project 5 年之前
custom_config.py ce47abdbc0 Remove of optimization module and optimization scripts 5 年之前
data_attributes.py 5923de0e11 Update of all bash scritps 5 年之前
models.py d67f0b65e6 Add of rfe n_components param 5 年之前
requirements.txt 021a6c2dc3 First initialization of the project 5 年之前
train_model.py d67f0b65e6 Add of rfe n_components param 5 年之前

README.md

Noise detection using recursive feature elimination of attributes

Description

Noise detection on synthesis images with 26 attributes obtained using few filters.

Filters list:

  • average
  • wiener
  • median
  • gaussian
  • wavelet

and then complexity value from image obtained using std(Sobel(X)).

Requirements

pip install -r requirements.txt

Generate all needed data for each features (which requires the whole dataset. In order to get it, you need to contact us).

python generate/generate_all_data.py --feature all

Project structure

Link to your dataset

You have to create a symbolic link to your own database which respects this structure:

  • dataset/
    • Scene1/
    • zone00/
    • ...
    • zone15/
      • seuilExpe (file which contains threshold samples of zone image perceived by human)
    • Scene1_00050.png
    • Scene1_00070.png
    • ...
    • Scene1_01180.png
    • Scene1_01200.png
    • Scene2/
    • ...
    • ...

Create your symbolic link:

ln -s /path/to/your/data dataset

Code architecture description

  • modules/*: contains all modules usefull for the whole project (such as configuration variables)
  • generate/*: contains python scripts for generate data from scenes (described later)
  • data_processing/*: all python scripts for generate custom dataset for models
  • prediction/*: all python scripts for predict new threshold from computed models
  • simulation/*: contains all bash scripts used for run simulation from models
  • display/*: contains all python scripts used for display Scene information (such as Singular values...)
  • run/*: bash scripts to run few step at once :
    • generate custom dataset
    • train model
    • keep model performance
    • run simulation (if necessary)
  • others/*: folders which contains others scripts such as script for getting performance of model on specific scene and write it into Mardown file.
  • data_attributes.py: files which contains all extracted features implementation from an image.
  • custom_config.py: override the main configuration project of modules/config/global_config.py
  • train_model.py: script which is used to run specific model available.

Generated data directories:

  • data/*: folder which will contain all generated .train & .test files in order to train model.
  • saved_models/*: all scikit learn or keras models saved.
  • models_info/*: all markdown files generated to get quick information about model performance and prediction obtained after running run/runAll_*.sh script.
  • results/: This folder contains model_comparisons.csv file used for store models performance.

How to use ?

Remark: Note here that all python script have --help command.

python generate_data_model.py --help

Parameters explained:

  • feature: feature choice wished
  • output: filename of data (which will be split into two parts, .train and .test relative to your choices). Need to be into data folder.
  • interval: the interval of data you want to use from SVD vector.
  • kind: kind of data ['svd', 'svdn', 'svdne']; not normalize, normalize vector only and normalize together.
  • scenes: scenes choice for training dataset.
  • zones: zones to take for training dataset.
  • step: specify if all pictures are used or not using step process.
  • percent: percent of data amount of zone to take (choose randomly) of zone
  • custom: specify if you want your data normalized using interval and not the whole singular values vector. If it is, the value of this parameter is the output filename which will store the min and max value found. This file will be usefull later to make prediction with model (optional parameter).

Train model

This is an example of how to train a model

python train_model.py --data 'data/xxxx' --output 'model_file_to_save' --choice 'model_choice'

Predict image using model

Now we have a model trained, we can use it with an image as input:

python prediction/predict_noisy_image_rfe.py --image path/to/image.png --interval "x,x" --model saved_models/xxxxxx.joblib --feature 'filter_statistics' --mode 'svdn' --custom 'min_max_filename'
  • feature: feature choice need to be one of the listed above.
  • custom: specify filename with custom min and max from your data interval. This file was generated using custom parameter of one of the generate_data_model*.py script (optional parameter).

The model will return only 0 or 1:

  • 1 means noisy image is detected.
  • 0 means image seems to be not noisy.

All SVD features developed need:

  • Name added into feature_choices_labels global array variable of custom_config.py file.
  • A specification of how you compute the feature into get_image_features method of data_attributes.py file.

Predict scene using model

Now we have a model trained, we can use it with an image as input:

python prediction_scene.py --data path/to/xxxx.csv --model saved_model/xxxx.joblib --output xxxxx --scene xxxx

Remark: scene parameter expected need to be the correct name of the Scene.

Visualize data

All scripts with names display/display_*.py are used to display data information or results.

Just use --help option to get more information.

Simulate model on scene

All scripts named prediction/predict_seuil_expe*.py are used to simulate model prediction during rendering process. Do not forget the custom parameter filename if necessary.

Once you have simulation done. Checkout your threshold_map/%MODEL_NAME%/simulation_curves_zones_*/ folder and use it with help of display_simulation_curves.py script.

License

The MIT license