Abstract: Methods, systems, and apparatuses are disclosed for generating a spatial audio format. An input audio source may include one or more individual channels. The one or more individual channels may be designated to be played by a corresponding one or more speakers. The one or more individual channels of the audio source may be separated. The one or more individual tracks may be input into a modeling space representing a multi-dimensional space. The modeling space may include a plurality of emitters at various locations in a vector space. Each of the one or more individual channels may be panned to one or more of the plurality of emitters. The panning may be based on a normalized proximity of the one or more individual channels in the modeling space to the plurality of emitters. The one or more of the plurality of emitters may be encoded into a single multichannel file.

Abstract: Methods, systems, and apparatuses are disclosed for generating a spatial audio format. An input audio source may include one or more individual channels. The one or more individual channels may be designated to be played by a corresponding one or more speakers. The one or more individual channels of the audio source may be separated. The one or more individual tracks may be input into a modeling space representing a multi-dimensional space. The modeling space may include a plurality of emitters at various locations in a vector space. Each of the one or more individual channels may be panned to one or more of the plurality of emitters. The panning may be based on a normalized proximity of the one or more individual channels in the modeling space to the plurality of emitters. The one or more of the plurality of emitters may be encoded into a single multichannel file.

Abstract: Methods, systems, and apparatuses are disclosed for generating a spatial audio format. An input audio source may include one or more individual channels. The one or more individual channels may be designated to be played by a corresponding one or more speakers. The one or more individual channels of the audio source may be separated. The one or more individual tracks may be input into a modeling space representing a multi-dimensional space. The modeling space may include a plurality of emitters at various locations in a vector space. Each of the one or more individual channels may be panned to one or more of the plurality of emitters. The panning may be based on a normalized proximity of the one or more individual channels in the modeling space to the plurality of emitters. The one or more of the plurality of emitters may be encoded into a single multichannel file.

Abstract: Methods, systems, and apparatuses are disclosed for generating a spatial audio format. An input audio source may include one or more individual channels. The one or more individual channels may be designated to be played by a corresponding one or more speakers. The one or more individual channels of the audio source may be separated. The one or more individual tracks may be input into a modeling space representing a multi-dimensional space. The modeling space may include a plurality of emitters at various locations in a vector space. Each of the one or more individual channels may be panned to one or more of the plurality of emitters. The panning may be based on a normalized proximity of the one or more individual channels in the modeling space to the plurality of emitters. The one or more of the plurality of emitters may be encoded into a single multichannel file.

Abstract: Methods, systems, and apparatuses are disclosed for generating a spatial audio format. An input audio source may include one or more individual channels. The one or more individual channels may be designated to be played by a corresponding one or more speakers. The one or more individual channels of the audio source may be separated. The one or more individual tracks may be input into a modeling space representing a multi-dimensional space. The modeling space may include a plurality of emitters at various locations in a vector space. Each of the one or more individual channels may be panned to one or more of the plurality of emitters. The panning may be based on a normalized proximity of the one or more individual channels in the modeling space to the plurality of emitters. The one or more of the plurality of emitters may be encoded into a single multichannel file.

Abstract: An electronic inertial measurement unit (IMU) coupled to headtracking headphones. The IMU may track any movement of the user's head, such as the pitch, yaw, roll angels, acceleration, and elevation and record this information as position data. The position data may be transmitted to tools that use routing schemes contained within authoring applications to decode user orientation and create high quality interactive multichannel biphonic audio without any additional processing or filtering. If horizontal, vertical, and tilt orientating audio is required, the MI emitters may be moved around (giving them x,y,z coordinates) within a cube representing a three dimensional space to generate “M1 Cube Format” audio. For horizontal orienting audio, fewer mono bus outputs may be used to generate “M1 Cube Format” audio.

Abstract: Methods, systems, and apparatuses are disclosed for generating a spatial audio format. An input audio source may include one or more individual channels. The one or more individual channels may be designated to be played by a corresponding one or more speakers. The one or more individual channels of the audio source may be separated. The one or more individual tracks may be input into a modeling space representing a multi-dimensional space. The modeling space may include a plurality of emitters at various locations in a vector space. Each of the one or more individual channels may be panned to one or more of the plurality of emitters. The panning may be based on a normalized proximity of the one or more individual channels in the modeling space to the plurality of emitters. The one or more of the plurality of emitters may be encoded into a single multichannel file.

Abstract: A music modification system is provided and described herein, which includes: a) a computer, b) a music element library, c) at least one part-score database, d) a software code that executes a music modification system on the computer, wherein the music modification system accesses or manipulates the information in the music element library and accesses the at least one part-score database, and e) a graphical or audio user interface that is coupled to the computer. Methods of modifying a musical score or piece are described herein and include: a) providing a music element library, b) providing at least one part-score database, wherein the database comprises at least one music score, at least one music pieces, at least one music part or a combination thereof, c) providing an executable music modification system, and d) utilizing the music modification system and the music element library to modify at least part of the at least one part-score database.

Abstract: A music modification system is provided and described herein, which includes: a) a computer, b) a music element library, c) at least one part-score database, d) a software code that executes a music modification system on the computer, wherein the music modification system accesses or manipulates the information in the music element library and accesses the at least one part-score database, and e) a graphical or audio user interface that is coupled to the computer. Methods of modifying a musical score or piece are described herein and include: a) providing a music element library, b) providing at least one part-score database, wherein the database comprises at least one music score, at least one music pieces, at least one music part or a combination thereof, c) providing an executable music modification system, and d) utilizing the music modification system and the music element library to modify at least part of the at least one part-score database.