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SoundNet

Code for paper "SoundNet: Learning Sound Representations from Unlabeled Video" by Yusuf Aytar, Carl Vondrick, Antonio Torralba. NIPS 2016

We learn rich natural sound representations by capitalizing on large amounts of unlabeled sound data collected in the wild. We leverage the natural synchronization between vision and sound to learn an acoustic representation using two-million unlabeled videos. We propose a student-teacher training procedure which transfers discriminative visual knowledge from well established visual models (e.g. ImageNet and PlacesCNN) into the sound modality using unlabeled video as a bridge.

Visualization of learned conv1 filters:

Requirements

  • torch7
  • torch7 audio (and sox)
  • torch7 hdf5 (only for feature extraction)
  • probably a GPU

Pretrained Model

We provide pre-trained models that are trained over 2,000,000 unlabeled videos. You can download the 8 layer and 5 layer models here. We recommend the 8 layer network.

Recognize Categories

You can use SoundNet to recognize sounds or as features (see next section). To recognize objects and scenes, you can use our provided script. First, create a text file where each line lists an audio file you wish to process. We use MP3 files, but most audio formats should be supported. Then, extract predictions into HDF5 files like so:

$ list=data.txt th extract_predictions.lua

where data.txt is this text file. It will write HDF5 files to the location of the input files with the scores of each category. To map the dimension index back to the category name, use the files categories/categories_places2.txt for scenes and categories/categories_imagenet.txt for objects.

The script will also output the top scoring object and scene category. E

Feature Extraction

Using our network, you can extract good features for natural sounds. You can use our provided script to extract features. First, create a text file where each line lists an audio file you wish to process. We use MP3 files, but most audio formats should be supported. Then, extract features into HDF5 files like so:

$ list=data.txt th extract_feat.lua

where data.txt is this text file. It will write HDF5 files to the location of the input files with the features. You can then do anything you wish with these features.

By default, it will extract the conv7 layer. You can extract other layers like so:

$ list=data.txt layer=24 th extract_feat.lua

The model will predict a matrix of size TIME x DIM where DIM is the feature dimensionality and TIME is relative to the length of the sound file. If you wish a fixed length vector, you can average-pool or max-pool over time.

Advanced

If you want to write your own feature extraction code, it is very easy in Torch:

sound = audio.load('file.mp3'):select(2,1):clone():mul(2^-23):view(1,1-1,1):cuda()

net = torch.load('soundnet8_final.t7')
net:forward(sound)
features = net.modules[24].output:float()

Finetuning

If you want to fine-tune SoundNet on your own dataset, you can use main_finetune.lua. Create a text file that lists your MP3 files and their corresponding categories as integers. Each line lists one file in the format: filename [space] integer. For example:

/path/to/file1.mp3 1
/path/to/file2.mp3 5
/path/to/file3.mp3 2

The integer at the end of the text file specifies the category. Note they should start counting at 1 (not zero).

Then, you can finetune SoundNet with the command:

finetune=models/soundnet8_final.t7 data_list=dataset.txt data_root=/ nClasses=5 name=mynet1 th main_finetune.lua

where the data_list variable points to your text file you created above, and nClasses specifies the number of categories you have.

Note you may have to modify main_finetune.lua depending on your needs. This is meant to just get you started. In particular, you may need to adjust the fineSize and loadSize, which specify how many samples from the waveform to use.

Training

The code for training is in main_train.lua, which will train the 8 layer SoundNet model. You can also use main_train_small.lua to train the 5 layer SoundNet model. To start training, just do:

$ CUDA_VISIBLE_DEVICES=0 th main_train.lua

The code for loading the data is in data/donkey_audio.lua. The training code will launch several threads. Each thread reads a different subset of the dataset. It will read MP3 files into a raw waveform. For the labels, it reads a large binary file that stores the class probabilities computed from ImageNet and Places networks.

Data

We plan to release 2 million MP3s and their corresponding class probabilities soon. Stay tuned.

References

If you use SoundNet in your research, please cite our paper:

SoundNet: Learning Sound Representations from Unlabeled Video 
Yusuf Aytar, Carl Vondrick, Antonio Torralba
NIPS 2016

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SoundNet: Learning Sound Representations from Unlabeled Video. NIPS 2016

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