The implementation of Hierarchical Multi-Scale Attention based on PaddlePaddle. [Paper]
Based on the above work, we made some optimizations:
- Use dice loss and bootstrapped cross entropy loss instead of cross entropy
- Learn all fine data and equal amount of coarse data in each epoch
- The evaluation is carried out by using the equal difference scale series instead of the equal ratio scale series
We achieve mIoU of 87% on Cityscapes validation set.
The actual effect is as follows (for high-definition pictures, please click here).
System Requirements:
- PaddlePaddle >= 2.0.0rc1
- Python >= 3.6+
Highly recommend you install the GPU version of PaddlePaddle, due to large overhead of segmentation models, otherwise it could be out of memory while running the models. For more detailed installation tutorials, please refer to the official website of PaddlePaddle。
You should use API Calling method to install PaddleSeg for flexible development.
pip install paddleseg
Download following files and put into data/cityscapes
directory. Then unzip these files.
mkdir -p data/cityscapes
Firstly please download 3 files from Cityscapes dataset
- leftImg8bit_trainvaltest.zip (11GB)
- gtFine_trainvaltest.zip (241MB)
- leftImg8bit_trainextra.zip (44GB)
Run the following commands to do the label conversion:
pip install cityscapesscripts
python ../../tools/convert_cityscapes.py --cityscapes_path data/cityscapes --num_workers 8
Where 'cityscapes_path' should be adjusted according to the actual dataset path. 'num_workers' determines the number of processes started and the size can be adjusted according to the actual situation.
Then download and uncompress Autolabelled-Data from google drive
- refinement_final_v0.zip # This file is needed for autolabelled training for recreating SOTA
Delete useless tmp
directory in refinement_final
directory.
rm -r tmp/
Convert autolabelled data according to PaddleSeg data format:
python tools/convert_cityscapes_autolabeling.py --dataset_root data/cityscapes/
Finally, you need to organize data following the below structure.
cityscapes
|
|--leftImg8bit
| |--train
| |--val
| |--test
|
|--gtFine
| |--train
| |--val
| |--test
|
|--leftImg8bit_trainextra
| |--leftImg8bit
| |--train_extra
| |--augsburg
| |--bayreuth
| |--...
|
|--convert_autolabelled
| |--augsburg
| |--bayreuth
| |--...
mkdir -p saved_model && cd saved_model
wget https://bj.bcebos.com/paddleseg/dygraph/cityscapes/mscale_ocr_hrnetw48_cityscapes_autolabel_mapillary/model.pdparams
cd ..
Model | Backbone | mIoU | mIoU (flip) | mIoU (5 scales + flip) |
---|---|---|---|---|
MscaleOCRNet | HRNet_w48 | 86.89% | 86.99% | 87.00% |
CUDA_VISIBLE_DEVICES=0,1,2,3,4,5,6,7 python -u -m paddle.distributed.launch val.py \
--config configs/mscale_ocr_cityscapes_autolabel_mapillary.yml --num_workers 3 --model_path saved_model/model.pdparams
The reported mIoU should be 86.89. This evaluates with scales of 0.5, 1.0 and 2.0. This requires 14.2GB of GPU memory.
CUDA_VISIBLE_DEVICES=0,1,2,3,4,5,6,7 python -u -m paddle.distributed.launch val.py \
--config configs/mscale_ocr_cityscapes_autolabel_mapillary.yml --num_workers 3 --model_path saved_model/model.pdparams \
--aug_eval --flip_horizontal
The reported mIoU should be 86.99. This evaluates with scales of 0.5, 1.0, 2.0 and flip horizontal. This requires 14.2GB of GPU memory.
CUDA_VISIBLE_DEVICES=0,1,2,3,4,5,6,7 python -u -m paddle.distributed.launch val.py \
--config configs/mscale_ocr_cityscapes_autolabel_mapillary_ms_val.yml --num_workers 3 --model_path saved_model/model.pdparams \
--aug_eval --flip_horizontal
The reported mIoU should be 87.00. This evaluates with scales of 0.5, 1.0, 1.5, 2.0, 2.5 and flip horizontal. This requires 21.2GB of GPU memory.
mkdir -p pretrain && cd pretrain
wget https://bj.bcebos.com/paddleseg/dygraph/cityscapes/ocrnet_hrnetw48_mapillary/pretrained.pdparams
cd ..
Pretrained weights were obtained by pretraining on the Mapillary dataset from OCRNet (backbone is HRNet w48).
CUDA_VISIBLE_DEVICES=0,1,2,3,4,5,6,7 python -u -m paddle.distributed.launch train.py \
--config configs/mscale_ocr_cityscapes_autolabel_mapillary.yml --use_vdl \
--save_dir saved_model/mscale_ocr_cityscapes_autolabel_mapillary --save_interval 2000 --num_workers 5 --do_eval
Note that this requires 32GB of GPU memory. You can remove argument --do_eval
to turn off evaluation during training, thus it only requires 25GB of GPU memory.
If you run out of memory, try to lower the crop size.
- Inference with TensorRT in C++
- Inference with ONNX Runtime in Python
- Inference with TensorFlow Lite in Python
Please refer to
- https://github.com/PINTO0309/PINTO_model_zoo/tree/main/201_CityscapesSOTA/demo
- https://github.com/iwatake2222/play_with_tensorrt/tree/master/pj_tensorrt_seg_paddleseg_cityscapessota
- https://github.com/axinc-ai/ailia-models/tree/master/image_segmentation/paddleseg
Thanks for their contributions!