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NIMA: Neural IMage Assessment

Python 3.6+ MIT License

This is a PyTorch implementation of the paper NIMA: Neural IMage Assessment (accepted at IEEE Transactions on Image Processing) by Hossein Talebi and Peyman Milanfar. You can learn more from this post at Google Research Blog.

Implementation Details

Requirements

Code is written using PyTorch 1.8.1 with CUDA 11.1. You can recreate the environment I used with conda by

conda env create -f env.yml

to install the dependancies.

Usage

To start training on the AVA dataset, first download the dataset from the link above and decompress which should create a directory named images/. Then download the curated annotation CSVs below which already splits the dataset (You can create your own split of course). Then do

python main.py --img_path /path/to/images/ --train --train_csv_file /path/to/train_labels.csv --val_csv_file /path/to/val_labels.csv --conv_base_lr 5e-4 --dense_lr 5e-3 --decay --ckpt_path /path/to/ckpts --epochs 100 --early_stoppping_patience 10

For inference, do

python -W ignore test.py --model /path/to/your_model --test_csv /path/to/test_labels.csv --test_images /path/to/images --predictions /path/to/save/predictions

See predictions/ for dumped predictions as an example.

Training Statistics

Training is done with early stopping. Here I set early_stopping_patience=10.

<p align="center"> <img src="./snapshots/snapshot@34.png"> </p>

Pretrained Model

~0.069 EMD on validation. Not fully converged yet (constrained by resources). To continue training, download the pretrained weights and add --warm_start --warm_start_epoch 34 to your args.

Google Drive

Annotation CSV Files

Train Validation Test

Example Results

<p align="center"> <img src="./snapshots/goodpred.png"> </p> <p align="center"> <img src="./snapshots/badpred.png"> </p> <p align="center"> <img src="./snapshots/contrast.png"> </p>

License

MIT