Gray Zone Assessment

Last update: Jan 08, 2022

Related tags

Overview

Gray Zone Assessment

Get started

Clone github repository

git clone https://github.com/andreanne-lemay/gray_zone_assessment.git

Build docker image

docker build -t gray_zone docker/

Run docker container

docker run -it -v tunnel/to/local/folder:/tunnel --gpus 0 gray_zone:latest bash

Run the following command at the root of the repository to install the modules

cd path/to/gray_zone_assessment

pip install -e .

Train model

python run_model.py -o <outpath/path> -p <resources/training_configs/config.json> -d <image/data/path> -c <path/csv/file.csv>

For more information on the different flags: python run_model.py --help

Configuration file (flag -p or --param-path)

The configuration file is a json file containing the main training parameters.
Some json file examples are located in gray_zone/resources/training_configs/

Required configuration parameters

Parameter	Description
architecture	Architecture id contained in Densenet or Resnet family. Choice between: 'densenet121', 'densenet169', 'densenet201', 'densenet264', 'resnet18', 'resnet34', 'resnet50', 'resnet101', 'resnet152', 'resnext50_32x4d', 'resnext101_32x8d', 'wide_resnet50_2', 'wide_resnet101_2'
model_type	Choice between "classification", "ordinal", "regression".
loss	Loss function id. Choice between 'ce' (Cross entropy), 'mse' (Mean square error), 'l1' (L1), 'bce' (Binary cross entropy), 'coral' (Ordinal loss), 'qwk' (Quadratic weighted kappa).
batch_size	Batch size (int).
lr	Learning rate (float).
n_epochs	Number of training epochs (int).
device	Device id (e.g., 'cuda:0', 'cpu') (str).
val_metric	Choice between "auc" (average ROC AUC over all classes), "val_loss" (minimum validation loss), "kappa" (linear Cohen's kappa), default "accuracy".
dropout_rate	Dropout rate (Necessary for Monte Carlo model's). A dropout rate of 0 will disable dropout. (float).
is_weighted_loss	Indicates if the loss is weighted by the number of cases by class (bool).
is_weighted_sampling	Indicates if the sampling is weighted by the number of cases by class (bool).
seed	Random seed (int).
train_frac	Fraction of cases used for training if splitting not already done in csv file, or else the parameter is ignored (float).
test_frac	Fraction of cases used for testing if splitting not already done in csv file, or else the parameter is ignored (float).
train_transforms / val_transforms	monai training / validation transforms with parameters. Validation transforms are also used during testing (see https://docs.monai.io/en/latest/transforms.html for transform list)

csv file (flag -c or --csv-path)

The provided csv file contains the filename of the images used for training, GT labels (int from 0-n_class), patient ID (str) and split column (containing 'train', 'val' or 'test') (optional).

Example of csv file with the default column names. If the column names are different from the default values, the flags --label-colname, --image-colname, --patient-colname, and --split-colname can be used to indicate the custom column names. There can be more columns in the csv file. All this metadata will be included in predictions.csv and split_df.csv.

image	label	patient	dataset
patient1_000.png	0	patient1	train
patient1_001.png	0	patient1	train
patient2_000.png	2	patient2	val
patient2_001.png	2	patient2	val
patient2_002.png	2	patient2	val
patient3_000.png	1	patient3	test
patient3_001.png	1	patient3	test

Output directory (flag -o or --output-path)


└── output directory                # Output directory specified with `-o`  
    ├──   checkpoints               # All models (one .pth per epoch)  
    |     ├──  checkpoint0.pth   
    |     ├──  ...  
    |     └──  checkpointn.pth   
    ├──   best_metric_model.pth     # Best model based on validation metric  
    ├──   params.json               # Parameters used for training (configuration file)  
    ├──   predictions.csv           # Test results  
    ├──   split_df.csv              # csv file containing image filenames, labels, split and patient id  
    └──   train_record.json         # Record of CLI used to train and other info for reproducibility

Gray Zone Assessment

Related tags

Overview

Gray Zone Assessment

Get started

Configuration file (flag -p or --param-path)

Required configuration parameters

csv file (flag -c or --csv-path)

Output directory (flag -o or --output-path)

Owner

Official implementation of Meta-StyleSpeech and StyleSpeech

Super Resolution for images using deep learning.

PyTorch code for our paper "Gated Multiple Feedback Network for Image Super-Resolution" (BMVC2019)

The repository for our EMNLP 2021 paper "Finnish Dialect Identification: The Effect of Audio and Text"

License Plate Detection Application

Controlling the MicriSpotAI robot from scratch

Data visualization app for H&M competition in kaggle

Code for Paper "Evidential Softmax for Sparse MultimodalDistributions in Deep Generative Models"

Contains supplementary materials for reproduce results in HMC divergence time estimation manuscript

nnFormer: Interleaved Transformer for Volumetric Segmentation

Using multidimensional LSTM neural networks to create a forecast for Bitcoin price

Meta Self-learning for Multi-Source Domain Adaptation： A Benchmark

Auto White-Balance Correction for Mixed-Illuminant Scenes

Source code of the paper PatchGraph: In-hand tactile tracking with learned surface normals.

Feedback is important: response-aware feedback mechanism for background based conversation

Implementation of Heterogeneous Graph Attention Network

TorchFlare is a simple, beginner-friendly, and easy-to-use PyTorch Framework train your models effortlessly.

A simple Rock-Paper-Scissors game using CV in python

Plover-tapey-tape: an alternative to Plover’s built-in paper tape

Python implementation of NARS (Non-Axiomatic-Reasoning-System)