如何使用GAN拯救你的低分辨率老照片

1 项目背景

2 原理简介

3 模型训练

## 训练集高分辨率图预处理函数

def train_hr_transform(crop_size):

    return Compose([

        RandomCrop(crop_size),

        ToTensor(),

])

## 训练集低分辨率图预处理函数

def train_lr_transform(crop_size, upscale_factor):

    return Compose([

        ToPILImage(),

        Resize(crop_size // upscale_factor, interpolation=Image.BICUBIC),

        ToTensor()

    ])

## 训练数据集类

class TrainDatasetFromFolder(Dataset):

    def __init__(self, dataset_dir, crop_size, upscale_factor):

        super(TrainDatasetFromFolder, self).__init__()

        self.image_filenames = [join(dataset_dir, x) for x in listdir(dataset_dir) if is_image_file(x)] ##获得所有图像

crop_size = calculate_valid_crop_size(crop_size, upscale_factor)##获得裁剪尺寸

        self.hr_transform = train_hr_transform(crop_size) ##高分辨率图预处理函数

        self.lr_transform = train_lr_transform(crop_size, upscale_factor) ##低分辨率图预处理函数

##数据集迭代指针

    def __getitem__(self, index):

        hr_image = self.hr_transform(Image.open(self.image_filenames[index])) ##随机裁剪获得高分辨率图

        lr_image = self.lr_transform(hr_image) ##获得低分辨率图

        return lr_image, hr_image

    def __len__(self):

        return len(self.image_filenames)

## 验证数据集类

class ValDatasetFromFolder(Dataset):

    def __init__(self, dataset_dir, upscale_factor):

        super(ValDatasetFromFolder, self).__init__()

        self.upscale_factor = upscale_factor

        self.image_filenames = [join(dataset_dir, x) for x in listdir(dataset_dir) if is_image_file(x)]