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Human Segmentation in Pytorch

Requirements

Features

  • A clear and easy to navigate structure.
  • A .json config file with a lot of possibilities for parameter tuning.
  • Supports various models, losses, Lr schedulers, data augmentations.
  • Checkpoint saving and resuming.
  • Abstract base classes for faster development:
    • BaseTrainer handles checkpoint saving/resuming, training process logging, and more.
    • BaseDataLoader handles batch generation, data shuffling, and validation data splitting.
    • BaseModel provides basic model summary.

Folder Structure

humanseg.pytorch/
│
├── base
│   ├── base_data_loader.py
│   ├── base_inference.py
│   ├── base_model.py
│   ├── base_trainer.py
│   └── __init__.py
├── config
│
├── data_loader
│   ├── data_loaders.py
│   └── transforms.py
├── LICENSE
├── logger
│   ├── __init__.py
│   ├── logger_config.json
│   ├── logger.py
│   └── visualization.py
├── README.md
├── test.py
├── trainer
│   ├── __init__.py
│   └── trainer.py
├── train.py
└── utils
    ├── __init__.py
    ├── loss.py
    ├── metric.py
    └── util.py

Benchmark

Methon Backbone Loss Pretrain Train Loss Train miou Valid Loss Valid miou
UNet Mobilenetv2 Dice Loss no 0.0231 0.9534 0.0242 0.9512
UNet ResNet-18 Dice Loss no 0.0220 0.9600 0.0239 0.9582
UNet ResNet-18 BCE Loss no 0.0334 0.9656 0.0365 0.9594
UNet ResNet-18 Lovasz Loss no 0.0368 0.9593 0.0452 0.9550
UNet ResNet-50 BCE Loss no 0.0340 0.9651 0.0368 0.9585
Deeplabv3+ ResNet-18 CE Loss yes 0.0279 0.9707 0.0303 0.9667
Deeplabv3+ ResNet-50 BCE Loss yes 0.0241 0.9744 0.0290 0.9696
UNet Mobilenetv2 BCE Loss no 0.0392 0.9604 0.0383 0.9576
UNet Mobilenetv2 BCE Loss yes 0.0278 0.9712 0.0324 0.9662
UNet Mobilenetv2 Lovasz Loss yes 0.0357 0.9674 0.0426 0.9656
Deeplabv3+ Mobilenetv2 BCE Loss yes 0.0311 0.9677 0.0313 0.9659
Deeplabv3+ Xception65 BCE Loss yes 0.0359 0.9626 0.0424 0.9543
HRNet W18_small_v1 CE Loss yes 0.0285 0.9710 0.0299 0.9667
HRNet W18_small_v2 CE Loss yes 0.0246 0.9749 0.0273 0.9700
HRNet W18_small_v2 BCE Loss yes 0.0246 0.9753 0.0284 0.9693
PSPNet ResNet-18 CE Loss yes 0.0451 0.9686 0.0312 0.9644
FastSCNN Custom CE Loss yes 0.0957 0.9616 0.0820 0.9584

Usage

The code in this repo is an MNIST example of the template. Try python train.py -c config.json to run code.

Config file format

Config files are in .json format:

{
    "name": "HumanSeg",
    "n_gpu": 1,
    
    "arch": {
        "type": "UNet",
        "args": {
            "backbone": "mobilenetv2",
            "num_classes": 2,
            "pretrained_backbone": null
        }
    },

	"train_loader": {
		"type": "SegmentationDataLoader",
		"args":{
			"pairs_file": "dataset/train_mask.txt",
			"color_channel": "RGB",
			"resize": 320,
			"padding_value": 0,
			"is_training": true,
			"noise_std": 3,
			"crop_range": [0.90, 1.0],
			"flip_hor": 0.5,
			"rotate": 0.0,
			"angle": 10,
			"normalize": true,
			"one_hot": false,
			"shuffle": true,
			"batch_size": 16,
			"n_workers": 24,
			"pin_memory": true
		}
	},

	"valid_loader": {
		"type": "SegmentationDataLoader",
		"args":{
			"pairs_file": "dataset/valid_mask.txt",
			"color_channel": "RGB",
			"resize": 320,
			"padding_value": 0,
			"is_training": false,
			"normalize": true,
			"one_hot": false,
			"shuffle": false,
			"batch_size": 16,
			"n_workers": 24,
			"pin_memory": true
		}
	},

	"optimizer": {
		"type": "SGD",
		"args":{
			"lr": 1e-2,
			"momentum": 0.9,
			"weight_decay": 1e-8
		}
	},

	"loss": "dice_loss",
	"metrics": [
		"miou"
	],

	"lr_scheduler": {
		"type":"StepLR",
		"args":{
			"step_size": 100,
			"gamma": 1.0
		}
	},

	"trainer": {
		"epochs": 80,
		"save_dir": "/workspace/checkpoints/",
		"save_freq": null,
		"verbosity": 2,
		"monitor": "valid_loss",
		"monitor_mode": "min"
	},

	"visualization":{
		"tensorboardX": true,
		"log_dir": "/workspace/checkpoints/"
	}
}

Add addional configurations if you need.

Using config files

Modify the configurations in .json config files, then run:

python train.py --config config.json

Resuming from checkpoints

You can resume from a previously saved checkpoint by:

python train.py --resume path/to/checkpoint

Using Multiple GPU

You can enable multi-GPU training by setting n_gpu argument of the config file to larger number. If configured to use smaller number of gpu than available, first n devices will be used by default. Specify indices of available GPUs by cuda environmental variable.

python train.py --device 2,3 -c config.json

This is equivalent to

CUDA_VISIBLE_DEVICES=2,3 python train.py -c config.py

Customization

Custom CLI options

Changing values of config file is a clean, safe and easy way of tuning hyperparameters. However, sometimes it is better to have command line options if some values need to be changed too often or quickly.

This template uses the configurations stored in the json file by default, but by registering custom options as follows you can change some of them using CLI flags.

# simple class-like object having 3 attributes, `flags`, `type`, `target`.
CustomArgs = collections.namedtuple('CustomArgs', 'flags type target')
options = [
    CustomArgs(['--lr', '--learning_rate'], type=float, target=('optimizer', 'args', 'lr')),
    CustomArgs(['--bs', '--batch_size'], type=int, target=('data_loader', 'args', 'batch_size'))
    # options added here can be modified by command line flags.
]

target argument should be sequence of keys, which are used to access that option in the config dict. In this example, target for the learning rate option is ('optimizer', 'args', 'lr') because config['optimizer']['args']['lr'] points to the learning rate. python train.py -c config.json --bs 256 runs training with options given in config.json except for the batch size which is increased to 256 by command line options.

Data Loader

  • Writing your own data loader
  1. Inherit BaseDataLoader

    BaseDataLoader is a subclass of torch.utils.data.DataLoader, you can use either of them.

    BaseDataLoader handles:

    • Generating next batch
    • Data shuffling
    • Generating validation data loader by calling BaseDataLoader.split_validation()
  • DataLoader Usage

    BaseDataLoader is an iterator, to iterate through batches:

    for batch_idx, (x_batch, y_batch) in data_loader:
        pass
  • Example

    Please refer to data_loader/data_loaders.py for an MNIST data loading example.

Trainer

  • Writing your own trainer
  1. Inherit BaseTrainer

    BaseTrainer handles:

    • Training process logging
    • Checkpoint saving
    • Checkpoint resuming
    • Reconfigurable performance monitoring for saving current best model, and early stop training.
      • If config monitor is set to max val_accuracy, which means then the trainer will save a checkpoint model_best.pth when validation accuracy of epoch replaces current maximum.
      • If config early_stop is set, training will be automatically terminated when model performance does not improve for given number of epochs. This feature can be turned off by passing 0 to the early_stop option, or just deleting the line of config.
  2. Implementing abstract methods

    You need to implement _train_epoch() for your training process, if you need validation then you can implement _valid_epoch() as in trainer/trainer.py

  • Example

    Please refer to trainer/trainer.py for MNIST training.

  • Iteration-based training

    Trainer.__init__ takes an optional argument, len_epoch which controls number of batches(steps) in each epoch.

Model

  • Writing your own model
  1. Inherit BaseModel

    BaseModel handles:

    • Inherited from torch.nn.Module
    • __str__: Modify native print function to prints the number of trainable parameters.
  2. Implementing abstract methods

    Implement the foward pass method forward()

  • Example

    Please refer to model/model.py for a LeNet example.

Loss

Custom loss functions can be implemented in 'model/loss.py'. Use them by changing the name given in "loss" in config file, to corresponding name.

Metrics

Metric functions are located in 'model/metric.py'.

You can monitor multiple metrics by providing a list in the configuration file, e.g.:

"metrics": ["accuracy", "top_k_acc"],

Additional logging

If you have additional information to be logged, in _train_epoch() of your trainer class, merge them with log as shown below before returning:

additional_log = {"gradient_norm": g, "sensitivity": s}
log.update(additional_log)
return log

Testing

You can test trained model by running test.py passing path to the trained checkpoint by --resume argument.

Validation data

To split validation data from a data loader, call BaseDataLoader.split_validation(), then it will return a data loader for validation of size specified in your config file. The validation_split can be a ratio of validation set per total data(0.0 <= float < 1.0), or the number of samples (0 <= int < n_total_samples).

Note: the split_validation() method will modify the original data loader Note: split_validation() will return None if "validation_split" is set to 0

Checkpoints

You can specify the name of the training session in config files:

"name": "MNIST_LeNet",

The checkpoints will be saved in save_dir/name/timestamp/checkpoint_epoch_n, with timestamp in mmdd_HHMMSS format.

A copy of config file will be saved in the same folder.

Note: checkpoints contain:

{
  'arch': arch,
  'epoch': epoch,
  'state_dict': self.model.state_dict(),
  'optimizer': self.optimizer.state_dict(),
  'monitor_best': self.mnt_best,
  'config': self.config
}

Tensorboard Visualization

This template supports Tensorboard visualization by using either torch.utils.tensorboard or TensorboardX.

  1. Install

    If you are using pytorch 1.1 or higher, install tensorboard by 'pip install tensorboard>=1.14.0'.

    Otherwise, you should install tensorboardx. Follow installation guide in TensorboardX.

  2. Run training

    Make sure that tensorboard option in the config file is turned on.

     "tensorboard" : true
    
  3. Open Tensorboard server

    Type tensorboard --logdir saved/log/ at the project root, then server will open at http://localhost:6006

By default, values of loss and metrics specified in config file, input images, and histogram of model parameters will be logged. If you need more visualizations, use add_scalar('tag', data), add_image('tag', image), etc in the trainer._train_epoch method. add_something() methods in this template are basically wrappers for those of tensorboardX.SummaryWriter and torch.utils.tensorboard.SummaryWriter modules.

Note: You don't have to specify current steps, since WriterTensorboard class defined at logger/visualization.py will track current steps.

Contribution

Feel free to contribute any kind of function or enhancement, here the coding style follows PEP8

Code should pass the Flake8 check before committing.

TODOs

  • Multiple optimizers
  • Support more tensorboard functions
  • Using fixed random seed
  • Support pytorch native tensorboard
  • tensorboardX logger support
  • Configurable logging layout, checkpoint naming
  • Iteration-based training (instead of epoch-based)
  • Adding command line option for fine-tuning

License

This project is licensed under the MIT License. See LICENSE for more details

Acknowledgements

This project is inspired by the project pytorch-template,Human-Segmentation-PyTorch and pytorch_segmentation

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