Python toolbox and realtime code for reproducing spatial audio using Higher-Order Stereophony (HOS).
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Updated
May 22, 2024 - Python
Python toolbox and realtime code for reproducing spatial audio using Higher-Order Stereophony (HOS).
Free, open-source tools for Ambisonic 3D panning within Max for Live 10+
Faust code for ambisonic and multi-channel mixed music
Ambisonic encoding / decoding and binauralization library in C++
A collection of MATLAB functions and scripts for spatial acoustic signal processing.
An extension library for the SuperCollider programming language
A Wwise plugin to connect an ambisonic audio stream to JACK.
Spatial Audio Python Package
Higher-Order Ambisonics Codec for Spatial Audio
Spatial Audio Rendering on the web.
A cross-platform framework for developing spatial audio algorithms and software in C/C++
A collection of spatial audio related VST/LV2 plug-ins developed using JUCE and the Spatial_Audio_Framework
A parametric Ambisonic decoder for headphones, based on the Cross-Pattern Coherence (CroPaC) spatial filter
A VST/App implementation of the Higher-order Spatial Impulse Response Rendering (HO-SIRR) algorithm
A MATLAB app visualizing sound source position for ambisonic recordings
Universal Machines for Ambisonics or UMA are a series of Open Source Ambisonic Microphones. The UMA series is based on the designs of Umashankar Manthrawadi.
This experiment is an example of 3D Audio integration in a virtual world on the Web.
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