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DecayFitNet @ 01daf3e
DecayFitNet @ 01daf3e
 
 
eurasip-plots
eurasip-plots
 
 
fdnToolbox @ 5f0c29b
fdnToolbox @ 5f0c29b
 
 
filters
filters
 
 
rirs
rirs
 
 
scattering
scattering
 
 
.gitignore
.gitignore
 
 
.gitmodules
.gitmodules
 
 
LICENSE
LICENSE
 
 
README.md
README.md
 
 
dataloader.py
dataloader.py
 
 
decayfit.py
decayfit.py
 
 
eq_design.py
eq_design.py
 
 
inference.m
inference.m
 
 
losses.py
losses.py
 
 
model.py
model.py
 
 
rir_analysis.py
rir_analysis.py
 
 
solver.py
solver.py
 
 
trainer.py
trainer.py
 
 
utility.py
utility.py
 
 

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diff-fdn-colorless

In this work we introduce an optimization framework to tune a set of Feedback Delay Network (FDN) parameters (feedback matrix, input gains, and output gains) to achieve a smoother and less colored reverberation.

This is the companion code to the Feedback Delay Network Optimization paper submitted for EURASIP Journal on Audio, Speech, and Music Processing, special issue on Digital Audio Effects [1].
This is an extension to our previous work, which you can find in the branch dafx23 of this repository and documented in the relative DAFx paper [2].

Main updates from the previous framework:

  • Faster training, we now concentrate solely on the frequency domain
  • Support for scattering feedback matrix optimization, for improved temporal density
  • Synthesis of real RIR using DecayFitNet to design attenuation and tone control filters
  • Support for Householder feedback matrix optimization, for reduced computational costs (not yet available in this repo)

Getting started

When cloning this repository, make sure to clone all the submodules, namely fdnToolbox and DecayFitNet, by running

git clone --recurse-submodules [email protected]:gdalsanto/diff-fdn-colorless.git

To install the required packages using conda environments open the terminal at the repo directory and run the following command

conda env create -f diff-colorless-fdn-gpu.yml

Alternatively, use the CPU compatible environement diff-colorless-fdn.yml

The optimization is coded in PyTorch. Run the solver.py file to launch training, the delay lines lengths must be given as arguments for the code to run. Check solver.py for the complete list of arguments. The initial and optimized parameters values are saved in output/..

Demo

The MATLAB demo code inference.m shows how to load the optimized FDN parameters on Sebastian Schlecht's fdnToolbox

References

Audio demos are published in: Feedback Delay Network Optimization.
The paper is now on arXiv!

[1] Dal Santo G., Prawda K., Schlecht S. J., and Välimäki V., "Feedback Delay Network Optimization." in EURASIP Journal on Audio, Speech, and Music Processing - sumbitted for reviews on 31.01.2024
[2] Dal Santo G., Prawda K., Schlecht S. J., and Välimäki V., "Differentiable Feedback Delay Network for colorless reverberation." in the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, Sept. 4-7 2023

About

Companion code of DAFx23 "Differentiable Feedback Delay Network for Colorless Reverberation"

research.spa.aalto.fi/publications/papers/dafx23-colorless-fdn/

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optimization room-impulse-response feedback-delay-networks

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