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AlphaGAN

This project is an unofficial implementation of AlphaGAN: Generative adversarial networks for natural image matting published at the BMVC 2018. As for now, the result of my experiment is not as good as the paper's.

Dataset

Adobe Deep Image Matting Dataset

Follow the instruction to contact the author for the dataset

You might need to follow the method mentioned in the Deep Image Matting to generate the trimap using the alpha mat.

The trimap are generated while the data are loaded.

import numpy as np
import cv2 as cv

def generate_trimap(alpha):
   k_size = random.choice(range(2, 5))
   iterations = np.random.randint(5, 15)
   kernel = cv.getStructuringElement(cv.MORPH_ELLIPSE, (k_size, k_size))
   dilated = cv.dilate(alpha, kernel, iterations=iterations)
   eroded = cv.erode(alpha, kernel, iterations=iterations)
   trimap = np.zeros(alpha.shape, dtype=np.uint8)
   trimap.fill(128)

   trimap[eroded >= 255] = 255
   trimap[dilated <= 0] = 0

   return trimap

See scripts/MattingTrain.ipynb and scripts/MattingTest.ipynb to compose the training/testing set.

The Dataset structure in my project

Train
  ├── alpha  # the alpha ground-truth
  ├── fg     # the foreground image
  ├── merged_cv  # the real image composed by the fg & bg
MSCOCO
  ├── train2014 # the background image

Running the Codes

   python train.py --dataroot ${YOUR_DIM_DATASET_ROOT} \
                     --training_file ${THE TRAINING FILE OF THE DIM DATASET}

Differences from the original paper

Records

4 GPUS 32 batch size, and SyncBatchNorm

1 GPU 1 batch size, and GroupNorm

Results

imagetrimapalpha(predicted)

Acknowledgments

My code is inspired by: