/FC-DenseNet

Fully Convolutional DenseNets for semantic segmentation.

Primary LanguagePython

Introduction

This repo contains the code to train and evaluate FC-DenseNets as described in The One Hundred Layers Tiramisu: Fully Convolutional DenseNets for Semantic Segmentation. We investigate the use of Densely Connected Convolutional Networks for semantic segmentation, and report state of the art results on datasets such as CamVid.

Installation

You need to install :

Data

The data-loader we used for the experiments will be released later. If you do want to train models now, you need to create a function load_data which returns 3 iterators (for training, validation and test). When applying next(), the iterator returns two values X, Y where X is the batch of input images (shape= (batch_size, n_classes, n_rows, n_cols), dtype=float32) and Y the batch of target segmentation maps (shape=(batch_size, n_rows, n_cols), dtype=int32) where each pixel in Y is an int indicating the class of the pixel.

The iterator must also have the following methods (so they are not python iterators) : get_n_classes (returns the number of classes), get_n_samples (returns the number of examples in the set), get_n_batches (returns the number of batches necessary to see the entire set) and get_void_labels (returns a list containing the classes associated to void). It might be easier to change directly the files train.py and test.py.

Run experiments

The architecture of the model is defined in FC-DenseNet.py. To train a model, you need to prepare a configuration file (folder config) where all the parameters needed for creating and training your model are precised. DenseNets contain lot of connections making graph optimization difficult for Theano. We strongly recommend to use the flags described further.

To train the FC-DenseNet103 model, use the command : THEANO_FLAGS='device=cuda,optimizer=fast_compile,optimizer_including=fusion' python train.py -c config/FC-DenseNet103.py -e experiment_name. All the logs of the experiments are stored in the folder experiment_name.

On a Titan X 12GB, for the model FC-DenseNet103 (see folder config), compilation takes around 400 sec and 1 epoch 120 sec for training and 40 sec for validation.

Use a pretrained model

We publish the weights of our model FC-DenseNet103. Metrics claimed in the paper (jaccard and accuracy) can be verified running THEANO_FLAGS='device=cuda,optimizer=fast_compile,optimizer_including=fusion' python test.py