fs446's Stars
spatialaudio/digital-signal-processing-lecture
Digital Signal Processing - Theory and Computational Examples
spatialaudio/signals-and-systems-lecture
Continuous- and Discrete-Time Signals and Systems - Theory and Computational Examples
kronihias/ambix
cross-platform Ambisonic VST, LV2 plug-ins with variable order for use in Digital Audio Workstations like Reaper or Ardour or as Jack standalone applications
sfstoolbox/sfs-matlab
SFS Toolbox for Matlab/Octave
kronihias/mcfx
multichannel cross plattform audio plug-in suite
sfstoolbox/sfs-python
SFS Toolbox for Python
spatialaudio/selected-topics-in-audio-signal-processing-exercises
Exercises for the lecture "Selected Topics in Audio Signal Processing"
leomccormack/HO-SIRR
A MATLAB implementation of the Higher-order Spatial Impulse Response Rendering (HO-SIRR) algorithm; an alternative approach for reproducing Ambisonic RIRs over loudspeakers
spatialaudio/communication-acoustics-exercises
Exercises for the lecture "Communication Acoustics"
spatialaudio/data-driven-audio-signal-processing-lecture
Supplementary materials to the lecture data driven audio signal processing
sfstoolbox/theory
Theory of sound field synthesis
AaltoAcousticsLab/aalto-papers
A list of publications that have accompanying open-source code
spatialaudio/selected-topics-in-audio-signal-processing-lecture
Supplementary material for the masters course "Selected Topics in Audio Signal Processing"
sfstoolbox/book
Ahrens, J.: Analytic Methods of Sound Field Synthesis.
fzotter/Ambisonic-Jupyter-Notebook
Notes on spatial audio using Ambisonics and how they work mathematically
gfirtha/gfirtha_phd_thesis
A Generalized Wave Field Synthesis Framework with Application for Moving Virtual Sources
spatialaudio/improved_driving_functions_for_rectangular_loudspeaker_arrays
Scripts for the paper "Improved Driving Functions for Rectangular Loudspeaker Arrays Driven by Sound Field Synthesis" presented at the annual meeting of the Germany acoustical society, 2016, Aachen, Germany.
gfirtha/IEEE_unified_WFS
Supplementary material for the article G. Firtha, P. Fiala, F. Schultz and S. Spors. Improved Referencing Schemes for 2.5D Wave Field Synthesis Driving Functions in IEEE/ACM Transaction on Audio, Speech and Language Processing
spatialaudio/audibility-constant-phase
Audibility of Constant Phase Shifts in Audio Signals
gfirtha/i3da2023_firtha_hahn_schultz_fiala
mgeier/digital-signal-processing-lecture
Lecture notes for the masters course Digital Signal Processing