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Move2Hear: Active Audio-Visual Source Separation

This repository contains the PyTorch implementation of our ICCV-21 paper and the associated datasets:

Move2Hear: Active Audio-Visual Source Separation
Sagnik Majumder, Ziad Al-Halah, Kristen Grauman
The University of Texas at Austin, Facebook AI Research

Project website: http://vision.cs.utexas.edu/projects/move2hear

Related repos

Active Audio-Visual Separation of Dynamic Sound Sources

Abstract

We introduce the active audio-visual source separation problem, where an agent must move intelligently in order to better isolate the sounds coming from an object of interest in its environment. The agent hears multiple audio sources simultaneously (e.g., a person speaking down the hall in a noisy household) and it must use its eyes and ears to automatically separate out the sounds originating from a target object within a limited time budget. Towards this goal, we introduce a reinforcement learning approach that trains movement policies controlling the agent's camera and microphone placement over time, guided by the improvement in predicted audio separation quality. We demonstrate our approach in scenarios motivated by both augmented reality (system is already co-located with the target object) and mobile robotics (agent begins arbitrarily far from the target object). Using state-of-the-art realistic audio-visual simulations in 3D environments, we demonstrate our model's ability to find minimal movement sequences with maximal payoff for audio source separation.

Dependencies

This code has been tested with python 3.6.12, habitat-api 0.1.4, habitat-sim 0.1.4 and torch 1.4.0. Additional python package requirements are available in requirements.txt.

First, install the required versions of habitat-api, habitat-sim and torch inside a conda environment.

Next, install the remaining dependencies either by

pip3 install -r requirements.txt

or by parsing requirements.txt to get the names and versions of individual dependencies and install them individually.

Datasets

Download the AAViSS-specific datasets from this link, extract the zip and put it under the project root. The extracted data directory should have 3 types of data

  1. audio_data: the pre-processed and pre-normalized raw monaural audio waveforms for training and evaluation
  2. passive_datasets: the dataset (audio source and receiver pair spatial attributes) for pre-training of passive separators
  3. active_datasets: the dataset (episode specification) for training of Move2Hear policies

Make a directory named sound_spaces and place it in the same directory as the one where the project root resides. Download the SoundSpaces Matterport3D binaural RIRs and metadata, and extract them into directories named sound_spaces/binaural_rirs/mp3d and sound_spaces/metadata/mp3d, respectively.

Download the Matterport3D dataset, and cache the observations relevant for the SoundSpaces simulator using this script from the SoundSpaces repository. Use resolutions of 128 x 128 for both RGB and depth sensors. Place the cached observations for all scenes (.pkl files) in sound_spaces/scene_observations_new.

For further info about the structuring of the associated datasets, refer to audio_separation/config/default.py or the task configs.

Code

Pretraining
CUDA_VISIBLE_DEVICES=0 python3 main.py --exp-config audio_separation/config/pretrain_passive.yaml --model-dir runs/passive_pretrain/PRETRAIN_DIRNAME --run-type train NUM_PROCESSES 1
Policy Training

8 GPU DDPPO training:

  1. Near-Target
CUDA_VISIBLE_DEVICES=0,1,2,3,4,5,6,7 python3 -u -m torch.distributed.launch --use_env --nproc_per_node 8 main.py --exp-config audio_separation/config/train/nearTarget.yaml --model-dir runs/train/nearTarget/NEAR_TARGET_TRAIN_DIRNAME --run-type train NUM_PROCESSES 14
  1. Far-Target
CUDA_VISIBLE_DEVICES=0,1,2,3,4,5,6,7 python3 -u -m torch.distributed.launch --use_env --nproc_per_node 8 main.py --exp-config audio_separation/config/train/farTarget.yaml --model-dir runs/train/farTarget/FAR_TARGET_TRAIN_DIRNAME --run-type train NUM_PROCESSES 14
Validation

Link checkpoints using scripts/search_for_checkpoint_thru_validation/link_ckpts_for_val.ipynb to search for best checkpoint on the basis of validation.

  1. Near-Target
CUDA_VISIBLE_DEVICES=0 python3 main.py --exp-config audio_separation/config/val/nearTarget.yaml --model-dir runs/val/nearTarget/NEAR_TARGET_VAL_DIRNAME --run-type eval NUM_PROCESSES 1
  1. Far-Target
CUDA_VISIBLE_DEVICES=0 python3 main.py --exp-config audio_separation/config/val/farTarget.yaml --model-dir runs/val/farTarget/FAR_TARGET_VAL_DIRNAME --run-type eval NUM_PROCESSES 1

Search for best checkpoint using scripts/search_for_checkpoint_thru_validation/find_bestCkpt_lowestValSTFTLoss.ipynb.

For unheard sounds, use config/val/nearTarget_unheard.yaml or config/val/farTarget_unheard.yaml, and use the corresponding validation directory.

Testing
  1. Near-Target
CUDA_VISIBLE_DEVICES=0 python3 main.py --exp-config audio_separation/config/test/nearTarget.yaml --model-dir runs/test/nearTarget/NEAR_TARGET_TEST_DIRNAME --run-type eval NUM_PROCESSES 1
  1. Far-Target
    Copy configs and best checkpoints from Near-Target and Far-Target into one single checkpoint using scripts/farTarget_eval/copy_individualCkptsNCfgs_switchPolicyEval.ipynb for switching policies during eval.
CUDA_VISIBLE_DEVICES=0 python3 main.py --exp-config audio_separation/config/test/farTarget.yaml --model-dir runs/test/farTarget/FAR_TARGET_TEST_DIRNAME --run-type eval NUM_PROCESSES 1

Compute test metric (STFT l2 loss or SI-SDR) values using scripts/separated_audio_quality/compute_separation_qualtiy.ipynb.

For unheard sounds, use config/test/nearTarget_unheard.yaml or config/test/farTarget_unheard.yaml, and use the corresponding test directory.

Pretrained models

Download pretrained model checkpoints from this link.

Citation

@InProceedings{Majumder_2021_ICCV,
    author    = {Majumder, Sagnik and Al-Halah, Ziad and Grauman, Kristen},
    title     = {Move2Hear: Active Audio-Visual Source Separation},
    booktitle = {Proceedings of the IEEE/CVF International Conference on Computer Vision (ICCV)},
    month     = {October},
    year      = {2021},
    pages     = {275-285}
}

License

This project is released under the MIT license, as found in the LICENSE file.