# 数据增强与imgaug支持 数据增强操作可用于在模型训练时,增加训练样本的多样性,从而提升模型的泛化能力。 ## PaddleX内置增强操作 PaddleX对于图像分类、目标检测、实例分割和语义分割内置了部分常见的数据增强操作,如下表所示, | 任务类型 | 增强方法 | | :------- | :------------| | 图像分类 | [RandomCrop](cls_transforms.html#randomcrop)、[RandomHorizontalFlip](cls_transforms.html#randomhorizontalflip)、[RandomVerticalFlip](cls_transforms.html#randomverticalflip)、
[RandomRotate](cls_transforms.html#randomratate)、 [RandomDistort](cls_transforms.html#randomdistort) | |目标检测
实例分割| [RandomHorizontalFlip](det_transforms.html#randomhorizontalflip)、[RandomDistort](det_transforms.html#randomdistort)、[RandomCrop](det_transforms.html#randomcrop)、
[MixupImage](det_transforms.html#mixupimage)(仅支持YOLOv3模型)、[RandomExpand](det_transforms.html#randomexpand) | |语义分割 | [RandomHorizontalFlip](seg_transforms.html#randomhorizontalflip)、[RandomVerticalFlip](seg_transforms.html#randomverticalflip)、[RandomRangeScaling](seg_transforms.html#randomrangescaling)、
[RandomStepScaling](seg_transforms.html#randomstepscaling)、[RandomPaddingCrop](seg_transforms.html#randompaddingcrop)、 [RandomBlur](seg_transforms.html#randomblur)、
[RandomRotation](seg_transforms.html#randomrotation)、[RandomScaleAspect](seg_transforms.html#randomscaleaspect)、[RandomDistort](seg_transforms.html#randomdistort) | ## imgaug增强库的支持 PaddleX目前已适配imgaug图像增强库,用户可以直接在PaddleX构造`transforms`时,调用imgaug的方法, 如下示例 ``` import paddlex as pdx from paddlex.cls import transforms import imgaug.augmenters as iaa train_transforms = transforms.Compose([ # 随机在[0.0 3.0]中选值对图像进行模糊 iaa.blur.GaussianBlur(sigma=(0.0, 3.0)), transforms.RandomCrop(crop_size=224), transforms.Normalize() ]) ``` 除了上述用法,`Compose`接口中也支持imgaug的`Someof`、`Sometimes`、`Sequential`、`Oneof`等操作,开发者可以通过这些方法随意组合出增强流程。由于imgaug对于标注信息(目标检测框和实例分割mask)与PaddleX模型训练逻辑有部分差异,**目前在检测和分割中,只支持pixel-level的增强方法,(即在增强时,不对图像的大小和方向做改变) 其它方法仍在适配中**,详情可见下表, | 增强方法 | 图像分类 | 目标检测
实例分割 | 语义分割 | 备注 | | :------ | :------- | :-------------------- | :------- | :--- | | [imgaug.augmenters.arithmetic](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_arithmetic.html) |√ |√ |√ | Cutout, DropoutJpegCompression等| | [imgaug.augmenters.artistic](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_artistic.html) |√ |√ |√ | 图像卡通化| | [imgaug.augmenters.blur](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_blur.html) |√ |√ |√ | GaussianBlur, AverageBlur等| | [imgaug.augmenters.collections](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_collections.html) |√ | | |提供了RandAugment方法 | | [imgaug.augmenters.color](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_color.html) |√ |√ |√ | Brightness, Hue等色调的增强方法| | [imgaug.augmenters.contrast](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_contrast.html) |√ |√ |√ | 多种对比度增强方式| | [imgaug.augmenters.convolutional](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_convolutional.html) |√ |√ |√ | 应用卷积kernel到图像 | | [imgaug.augmenters.edges](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_edges.html) |√ |√ |√ | 图像边缘化等方法| | [imgaug.augmenters.flip](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_flip.html) |√ | | | Fliplr和Flipud翻转方法| | [imgaug.augmenters.geometric](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_geometric.html) |√ | | | Affine、Rotate等增强方法| | [imgaug.augmenters.imgcorruptlike](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_imgcorruptlike.html) |√ |√ |√ | GaussianNoise等图像噪声增强方法| | [imgaug.augmenters.pillike](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_pillike.html) |√ | | | | | [imgaug.augmenters.pooling](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_pooling.html) |√ | | |应用pooling操作到图像 | | [imgaug.augmenters.segmentation](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_segmentation.html) |√ | | | 应用分割方法到图像| | [imgaug.augmenters.size](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_size.html) |√ | | | Reisze、Crop、Pad等操作| | [imgaug.augmenters.weather](https://imgaug.readthedocs.io/en/latest/source/api_augmenters_weather.html) |√ |√ |√ | 多种模拟天气等增强方法| 需要注意的是,imgaug的基础方法中,如`imgaug.augmenters.blur`仅为图像处理操作,并无概率设置,而在CV模型训练中,增强操作往往是以一定概率应用在样本上,因此我们可以通过imgaug的`Someof`、`Sometimes`、`Sequential`、`Oneof`等操作来组合实现,如下代码所示, > - `Someof` 执行定义增强方法列表中的部分方法 > - `Sometimes` 以一定概率执行定义的增强方法列表 > - `Sequential` 按顺序执行定义的增强方法列表 ``` image imgaug.augmenters as iaa from paddlex.cls import transforms # 以0.6的概率对图像样本进行模糊 img_augmenters = iaa.Sometimes(0.6, [ iaa.blur.GaussianBlur(sigma=(0.0, 3.0)) ]) train_transforms = transforms.Compose([ img_augmenters, transforms.RandomCrop(crop_size=224), transforms.Normalize() ]) ```