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DeepLabv3Plus-Pytorch

DeepLabv3, DeepLabv3+ and Segformer with pretrained models for Pascal VOC & Cityscapes InfraParis and MUAD.

Quick Start

1. Available Architectures

Specify the model architecture with '--model ARCH_NAME' and set the output stride using '--output_stride OUTPUT_STRIDE'.

DeepLabV3 DeepLabV3+ Segformer
deeplabv3_resnet50 deeplabv3plus_resnet50 B0
deeplabv3_resnet101 deeplabv3plus_resnet101 B1
deeplabv3_mobilenet deeplabv3plus_mobilenet B2
deeplabv3_hrnetv2_48 deeplabv3plus_hrnetv2_48 B3
deeplabv3_hrnetv2_32 deeplabv3plus_hrnetv2_32 B4
deeplabv3_xception deeplabv3plus_xception B5

All pretrained models: googledrive

2. Deeplab information

If you need Deeplab or DeepLabV3+ please follow the original code

2. Load the pretrained model:

model.load_state_dict( torch.load( CKPT_PATH )['model_state']  )

3. Visualize segmentation outputs:

outputs = model(images)
preds = outputs.max(1)[1].detach().cpu().numpy()
colorized_preds = val_dst.decode_target(preds).astype('uint8') # To RGB images, (N, H, W, 3), ranged 0~255, numpy array
# Do whatever you like here with the colorized segmentation maps
colorized_preds = Image.fromarray(colorized_preds[0]) # to PIL Image

4. Atrous Separable Convolution

Note: pre-trained models in this repo do not use Seperable Conv.

Atrous Separable Convolution is supported in this repo. We provide a simple tool network.convert_to_separable_conv to convert nn.Conv2d to AtrousSeparableConvolution. Please run main.py with '--separable_conv' if it is required. See 'main.py' and 'network/_deeplab.py' for more details.

5. Prediction

Single image:

python predict.py --input ~/Datasets/Cityscapes/leftImg8bit/train/bremen/bremen_000000_000019_leftImg8bit.png  --dataset cityscapes --model deeplabv3plus_mobilenet --ckpt checkpoints/best_deeplabv3plus_mobilenet_cityscapes_os16.pth --save_val_results_to test_results

Image folder:

python predict.py --input ~/Datasets/Cityscapes/leftImg8bit/train/bremen  --dataset cityscapes --model deeplabv3plus_mobilenet --ckpt checkpoints/best_deeplabv3plus_mobilenet_cityscapes_os16.pth --save_val_results_to test_results

Results

1. Performance on INFRA Paris (19 classes, 1024 x 2048)

Training: 1024x1024 random crop for RGB 250x250 random crop for IR
validation: 1024x2048

Model Batch Size FLOPs RGB test mIoU IR test mIoU
DeepLabV3Plus-MobileNet 16 17.0G 65.65 31.158
DeepLabV3Plus-ResNet101 8 83.4G 69.040 34.445
Segformer B0 8 - 64.160 31.032
Segformer B1 8 - 68.006 35.313
Segformer B2 8 - 69.852 35.313
Segformer B3 8 - 68.803 36.623
Segformer B4 8 - 70.333 36.708
Segformer B5 8 - 70.595 36.161

2. Performance on MUAD (19 classes, 1024 x 2048)

[WORK IN PROGRESS]

Prepare Datasets

InfraParis

1. Download cityscapes and extract it to 'datasets/data/cityscapes'

/datasets
    /data
        /INFRA10
            /Left
            /Infra
            /semantic_segmentation_truth
            /semantic_segmentation_truth_reprojected_IR

2. Train your model on InfraParis for RGB images

Deeplab training

python main.py --data_root "PATHTO_BDDs/INFRA10" --dataset "infraPARIS" --model "deeplabv3plus_resnet101" --output_stride 8 --batch_size 16 --crop_size 768 --gpu_id 0,1 --lr 0.1

Segformer training

python main_segformer.py --data_root "PATHTO_BDDs/INFRA10" --dataset "infraPARIS" --model "B0" --batch_size 8 --crop_size_h 1024 --crop_size_w 1024 --gpu_id 0,1 --lr 0.0001 --total_itrs 40000  --ckpt_segformer './pretrained/mit_b0.pth' --weight_decay 0.01 

2. Train your model on InfraParis for Infrared images

Deeplab training

python main.py --data_root "PATHTO_BDDs/INFRA10" --dataset "infraPARIS_IR" --model "deeplabv3plus_resnet101" --output_stride 8 --batch_size 16 --crop_size 250 --gpu_id 0,1 --lr 0.1 

Segformer training

python main_segformer.py --data_root "PATHTO_BDDs/INFRA10" --dataset "infraPARIS_IR" --model "B0" --batch_size 8 --crop_size_h 250 --crop_size_w 250 --gpu_id64.160 0 --lr 0.0001 --total_itrs 40000  --ckpt_segformer './pretrained/mit_b0.pth' --weight_decay 0.01

MUAD

1. Odgt file sample

"fpath_img": the path of image. "fpath_segm": the path of label. "width": the width of image. 'height': the height of image

{"fpath_img": "train2/leftImg8bit/003506_leftImg8bit.png", "fpath_segm": "train2/leftLabel/003506_leftLabel.png", "width": 2048, "height": 1024}
{"fpath_img": "train2/leftImg8bit/001108_leftImg8bit.png", "fpath_segm": "train2/leftLabel/001108_leftLabel.png", "width": 2048, "height": 1024}
{"fpath_img": "train2/leftImg8bit/002319_leftImg8bit.png", "fpath_segm": "train2/leftLabel/002319_leftLabel.png", "width": 2048, "height": 1024}

Reference

[1] InfraParis: A multi-modal and multi-task autonomous driving dataset

[2] MUAD: Multiple Uncertainties for Autonomous Driving, a benchmark for multiple uncertainty types and tasks

[3] SegFormer: Simple and Efficient Design for Semantic Segmentation with Transformers

[4] Rethinking Atrous Convolution for Semantic Image Segmentation

[5] Encoder-Decoder with Atrous Separable Convolution for Semantic Image Segmentation

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