Ambisonics: Difference between revisions
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'' | ''This page is part of the Xiph Wiki, and is aimed at people developing file formats and associated software for Ambisonics. For an general introduction to Ambisonics, please go to the ''[[Wikipedia:Ambisonics|Wikipedia page on Ambisonics]]''.'' | ||
Ambisonic files can come in a number of different formats. The main one is | '''Ambisonics''' is a surround sound system first developed in the 1970s. Its main difference from other surround techniques is that it separates transmission channels from speaker feeds, the speaker feeds being derived using a decoder situated in the living room. Decoders can be implemented in either hardware or software. Typically more speakers are used than transmission channels, and the more speakers used then the more stable the resulting soundfield. Speakers can be arranged in a number of configurations, regular polygons being the most popular. | ||
called B-Format, the other formats being derived from this. UHJ format is | |||
mono- and stereo-compatible. G-Format is a set of speaker feeds, so can be | Ambisonic files can come in a number of different formats. The main one is called B-Format, the other formats being derived from this. UHJ format is mono- and stereo-compatible. G-Format is a set of speaker feeds, so can be enjoyed in surround sound without the need for a decoder in the living room. | ||
enjoyed in surround sound without the need for a decoder in the living room. | |||
== Ambisonics and 5.1 == | == Ambisonics and 5.1 == | ||
Ambisonics and conventional 5.1 surround sound are very different. 5.1 is a set speaker feeds, the signal only being fully defined for sounds coming from a speaker. Phantom images between speakers can be created, but the technique to do so is left unspecified. Many 5.1 releases use pair-wise mixing to create phantom images. This is understandable as almost all stereo recordings are mixed using pair-wise mixing. | |||
Pair-wise mixing is also called "pan-potting", "amplitude mixing" and "intensity stereophony". It mixes signals into the feeds for a pair of speakers to create the illusion that a sound is coming from a point somewhere between the speakers. During mixing, the apparent location of each sound is determined only by the relative amplitude of that sound in the two speakers. | |||
Ambisonics is fundamentally different from 5.1. What is encoded in | Unfortunately, pair-wise mixing works poorly when the speakers are to the rear of the listener and not-at-all when they are to one side. You can demonstrate this for yourself by performing [http://members.tripod.com/martin_leese/Ambisonic/experiment.html a very simple experiment]. Pair-wise mixing did not work in the quadraphonic era and it will not work now. Such an absolute statement can be made because the way that humans localize sound has not changed. | ||
Ambisonics is not speaker feeds, but ''direction''. When mixing in | |||
Ambisonics, the positions of the speakers are unknown | Ambisonics is fundamentally different from 5.1. What is encoded in Ambisonics is not speaker feeds, but ''direction''. When mixing in Ambisonics, the positions of the speakers are unknown ''and are of no interest''. Further, when Ambisonics is decoded to speaker feeds all of the speakers cooperate to localize a sound in its correct position so, for example, when the speakers on the left push those on the right pull. The speakers all contribute to the creation of a single coherent soundfield. | ||
''and are of no interest''. Further, when Ambisonics is decoded to speaker | |||
feeds | |||
position. The speakers all contribute to the creation of a single coherent | |||
soundfield. | |||
=== Ambisonics to 5.1 === | === Ambisonics to 5.1 === | ||
Converting Ambisonics to 5.1 is straightforward, and is discussed below | Converting Ambisonics to 5.1 is straightforward, and is discussed below (see [[#G-Format|G-Format]]). | ||
(see [[#G-Format|G-Format]]). | |||
=== 5.1 to Ambisonics === | === 5.1 to Ambisonics === | ||
Converting 5.1 to Ambisonics is more difficult. It is easy to make the | Converting 5.1 to Ambisonics is more difficult. It is easy to make the five speaker feeds phantom images, called "virtual speakers". (The ".1" channel can be folded into W.) The problem with this is that even if the Ambisonic rendering is perfect, the result will only be as good as the original 5.1 played through ''real'' speakers. It will not be an improvement. Nobody has yet come up with a way for Ambisonics to improve 5.1; 5.1 is simply too broken. | ||
five speaker feeds phantom images, called "virtual speakers". (The ".1" | |||
channel can be folded into W.) The problem with this is that even if the | |||
Ambisonic rendering is perfect, the result will only be as good as the | |||
original 5.1 played through ''real'' speakers. It will not be an | |||
improvement. Nobody has yet come up with a way for Ambisonics to improve | |||
5.1; 5.1 is simply too broken. | |||
== B-Format == | == B-Format == | ||
B-Format is a single coherent soundfield composed of a set of related | |||
channels. The number of channels used depends on whether the | B-Format is a single coherent soundfield composed of a set of related channels. The number of channels used depends on whether the soundfield is horizontal-only or full-sphere, and on the order. These B-Format channels are transmission channels, not speaker feeds. Listening to B-Format requires a decoder in your living room. Some numbers of channels are tabulated below. | ||
is horizontal-only or full-sphere, and on the order. These B-Format | |||
channels are transmission channels, not speaker feeds. Listening to | |||
B-Format requires a decoder in your living room. Some numbers of | |||
channels are tabulated below. | |||
=== Channel correlation === | === Channel correlation === | ||
Compression techniques typically make use of channel correlation to remove redundancy from the audio data, and so improve the compression ratio. | |||
The correlation between B-Format channels depends on the content. Four-channel B-Format consists of an omni-directional component, called W, and three figure-of-eight components pointing forward, left and up, called X, Y, Z. ([http://members.tripod.com/martin_leese/Ambisonic/Harmonic.html Pictures are available].) Three-channel, horizontal-only B-Format simply omits the Z channel. This means that anything in X also appears in W. Same for Y and Z. (W is omni-directional; everything appears in W.) Also, if content comes from Front-Left then it appears equally in X and Y. Same for content from Front-Right, Back-Left, Back-Right; only the relative polarities change. So there can be a lot of correlation between B-Format channels, but it is content dependent. | |||
called | |||
[http:// | |||
One problem with B-Format is that it is big on low-frequency phase. The phase relationships between the different B-Format channels are important if the resulting soundfield is to correctly "gel". This may be a problem when B-Format channels are compressed using lossy compression. | |||
There is a file specification in use for downloadable B-Format files called the [http://members.tripod.com/martin_leese/Ambisonic/B-Format_file_format.html ".amb" specification]. | |||
B- | |||
=== Limitations of the ".amb" specification === | === Limitations of the ".amb" specification === | ||
The [http:// | The [http://members.tripod.com/martin_leese/Ambisonic/B-Format_file_format.html ".amb" specification] for downloadable B-Format files is based on the WAVE-EX format. There are currently over 200 pieces available in this format [http://www.ambisonia.com for free download]. Most of these are first-order full-sphere soundfields. (A [https://en.wikipedia.org/wiki/List_of_Ambisonic_Software list of Ambisonic software decoders] is avaialble on Wikipedia.) Some of the limitations of the specification are: | ||
for downloadable B-Format files is based on the WAVE-EX format. There are | |||
currently over | |||
[http://www. | |||
first-order full-sphere soundfields. ( | |||
[ | |||
Some of the limitations of the specification are: | |||
#It is limited to 4 GByte files (2 GBytes if somebody screwed up). | #It is limited to 4 GByte files (2 GBytes if somebody screwed up). | ||
#It is limited to third-order soundfields and below. While third-order looks like a lot (16 channels), there already | #It is limited to third-order soundfields and below. While third-order looks like a lot (16 channels), there are already research rigs that reproduce fourth-order (25 channels). | ||
#No compression (particularly lossless). | #No compression (particularly lossless). | ||
The reason that the ".amb" file specification is limited to third-order | The reason that the ".amb" file specification is limited to third-order and below is because it uses the number of channels to uniquely define the soundfield order. Unfortunately this simple and elegant scheme does not work above third-order as ambiguities creep in. (One ambiguity is illustrated in the table below.) | ||
and below is because it uses the number of channels to uniquely define the | |||
soundfield order. Unfortunately this simple and elegant scheme does not | |||
work above third-order as ambiguities creep in. (One ambiguity is | |||
illustrated in the table below.) | |||
A more general file format will have to use something else, such as | A more general file format will have to use something else, such as ''Malham notation'', or storing both the horizontal-order and height-order. There is a one-to-one correspondence between Malham notation and the pair of orders, and either can generate the number of channels. | ||
''Malham notation'', or storing both the horizontal-order and | |||
height-order. There is a one-to-one correspondence between Malham notation | |||
and the pair of orders, and either can generate the number of channels. | |||
==== Malham notation ==== | ==== Malham notation ==== | ||
Malham notation specifies the order of a B-Format soundfield using a | Malham notation specifies the order of a B-Format soundfield using a string of characters, each character being either '''f''' (for full-sphere) or '''h''' (for horizontal). The first character in the string specifies the type of the first-order components, the second character the type of the second-order components, etc. | ||
string of characters, each character being either '''f''' (for full-sphere) | |||
or '''h''' (for horizontal). The first character in the string specifies | |||
the type of the first-order components, the second character the type of | |||
the second-order components, etc. | |||
{| class="wikitable" style="text-align:center" | {| class="wikitable" style="text-align:center" | ||
|- | |- | ||
!<span style="font-size:80%">Horizontal<br>order</span> | !<span style="font-size:80%">Horizontal<br>order</span> | ||
Line 159: | Line 61: | ||
| 1|| 1||full-sphere||'''f'''|| 4||WXYZ | | 1|| 1||full-sphere||'''f'''|| 4||WXYZ | ||
|- | |- | ||
| 2|| 0||horizontal||'''hh'''|| 5|| | | 2|| 0||horizontal||'''hh'''|| 5||WXYUV | ||
|- | |- | ||
| 2|| 1||mixed-order||'''fh'''|| 6|| | | 2|| 1||mixed-order||'''fh'''|| 6||WXYZUV | ||
|- | |- | ||
| 2|| 2||full-sphere||'''ff'''|| 9||WXYZRSTUV | | 2|| 2||full-sphere||'''ff'''|| 9||WXYZRSTUV | ||
|- | |- | ||
| 3|| 0||horizontal||'''hhh'''|| 7|| | | 3|| 0||horizontal||'''hhh'''|| 7||WXYUVPQ | ||
|- | |- | ||
| 3|| 1||mixed-order||'''fhh'''|| 8|| | | 3|| 1||mixed-order||'''fhh'''|| 8||WXYZUVPQ | ||
|- | |- | ||
| 3|| 2||mixed-order||'''ffh'''|| 11||WXYZRSTUVPQ | | 3|| 2||mixed-order||'''ffh'''|| 11||WXYZRSTUVPQ | ||
Line 177: | Line 79: | ||
=== Default channel conversions from B-Format === | === Default channel conversions from B-Format === | ||
Converting a B-Format file to a mono file is straightforward. Use Mono = | Converting a B-Format file to a mono file is straightforward. Use Mono = W*sqrt(2). | ||
W*sqrt(2). | |||
Converting a B-Format file to a stereo file is more difficult. The "proper" | Converting a B-Format file to a stereo file is more difficult. The "proper" way to do this is to convert the W,X,Y channels to two-channel UHJ. Unfortunately this requires the use of wide-band 90-degree phase shifters. In the digital domain these are usually implemented as convolution filters. | ||
way to do this is to convert the W,X,Y channels to two-channel UHJ. | |||
Unfortunately this requires the use of wide-band 90-degree phase shifters. | |||
In the digital domain these are usually implemented as convolution filters. | |||
Assuming 90-degree phase shifters are unavailable then the problem is one of | Assuming 90-degree phase shifters are unavailable then the problem is one of choice. Starting from B-Format, it is possible to synthesize ''any'' mic response pointing in ''any'' direction. Hence, it is possible to synthesize ''all'' coincident stereo mic techniques. Two popular stereo techniques are ''Blumlein Mid-Side'' and ''Blumlein Crossed Pair''. | ||
choice. | |||
response pointing in ''any'' direction. Hence, it is possible to synthesize | |||
''all'' coincident stereo mic techniques. Two popular stereo techniques are | |||
''Blumlein Mid-Side'' and '' | |||
==== Blumlein Mid-Side ==== | ==== Blumlein Mid-Side ==== | ||
Line 198: | Line 92: | ||
</pre> | </pre> | ||
==== Blumlein Crossed | ==== Blumlein Crossed Pair ==== | ||
<pre> | <pre> | ||
Left = (X + Y)/sqrt(2) /* (Left, Right) are just the (Y, X) */ | Left = (X + Y)/sqrt(2) /* (Left, Right) are just the (Y, X) */ | ||
Line 204: | Line 98: | ||
</pre> | </pre> | ||
Which conversion to stereo is better depends on the material and how it was | Which conversion to stereo is better depends on the material and how it was recorded. A good suggestion is to not specify a ''particular'' default channel conversion; instead, simply specify that there must be one. If one has to be specified then Blumlein Crossed Pair is the simpler. | ||
recorded. A good suggestion is to not specify a ''particular'' default | |||
channel conversion; instead, simply specify that there must be one. If one | |||
has to be specified then Blumlein Crossed | |||
== UHJ format == | == UHJ format == | ||
B-Format is the main format for Ambisonic files. However, B-Format is not mono- or stereo-compatible. This is why the UHJ hierarchical system was developed. Depending on the number of channels available, the UHJ system can carry more or less information, but at all times it is fully mono- and stereo-compatible. Up to four channels (Left, Right, T, Q) may be used. The T-channel can also be band-limited but, as this "2½-channel UHJ" was only ever used for FM radio transmission, it will not be discussed further. | |||
and | |||
To listen to UHJ files in surround requires a decoder in your living room. Also, UHJ is restricted to first-order soundfields, either horizontal (two- and three-channel UHJ) or full-sphere (four-channel UHJ). | |||
Several hundred two-channel UHJ LPs and CDs have been released. Three- | Converting B-Format channels to UHJ channels, and vice versa, requires the use of wide-band 90-degree phase shifters. In the digital domain these are usually implemented as convolution filters. Conversion between four-channel B-Format (W, X, Y, Z) and four-channel UHJ (Left, Right, T, Q) can be accomplished without loss of information. The same with three-channel to three-channel (W, X, Y) <=> (Left, Right, T). It is possible to recover three-channel B-Format (W, X, Y) from two-channel UHJ (Left, Right), but not without loss. It is also important for the Ambisonic decoder to be aware that the B-Format channels were recovered from two-channel UHJ (because of the need to apply different shelf filters). | ||
and four-channel UHJ recordings have never been commercially released. | |||
Several hundred [http://surrounddiscography.com/ two-channel UHJ LPs and CDs] have been released. Three- and four-channel UHJ recordings have never been commercially released. | |||
=== UHJ encoding and decoding equations === | === UHJ encoding and decoding equations === | ||
Line 264: | Line 137: | ||
where j is a +90 degree phase shift | where j is a +90 degree phase shift | ||
</pre> | </pre> | ||
Note that two-channel UHJ requires the player to use different shelf filters than for B-Format (or for three- and four-channel UHJ). | |||
For three- and four-channel UHJ: | For three- and four-channel UHJ: | ||
Line 279: | Line 153: | ||
There is a file specification for downloadable two-channel UHJ files | There is a file specification for downloadable two-channel UHJ files | ||
called the | called the [http://members.tripod.com/martin_leese/Ambisonic/UHJ_file_format.html ".uhj" specification], but it is not currently in use. | ||
[http:// | |||
=== Limitations of the ".uhj" specification === | === Limitations of the ".uhj" specification === | ||
The [http:// | The [http://members.tripod.com/martin_leese/Ambisonic/UHJ_file_format.html ".uhj" specification] for downloadable two-channel UHJ files is based on the WAVE or WAVE-EX format. A UHJ chunk is added to the file to indicate it is UHJ. As unrecognized chunks are always skipped, use of this chunk maintains stereo compatibility. Some of the limitations of the specification are: | ||
for downloadable two-channel UHJ files is based on the WAVE or WAVE-EX | |||
format. A UHJ chunk is added to the file to indicate it is UHJ. As | |||
unrecognized chunks are always skipped, use of this chunk maintains stereo | |||
compatibility. Some of the limitations of the specification are: | |||
#It is limited to 4 GByte files (2 GBytes if somebody screwed up). | #It is limited to 4 GByte files (2 GBytes if somebody screwed up). | ||
Line 293: | Line 162: | ||
#No compression. | #No compression. | ||
The ".uhj" spcecification is only defined for two-channel UHJ to maintain | The ".uhj" spcecification is only defined for two-channel UHJ to maintain stereo compatibility. While it would be possible to add the UHJ chunk to three- and four-channel WAVE-EX files, the recommendations from Microsoft for playing such files is that the audio device should render the extra channels to output ports not in use. This can happen even when the extra channels are masked off. (Put simply, in WAVE-EX files the channel mask does ''not'' mask channels.) Because of this, three- and four-channel WAVE-EX files can not be made stereo compatible. | ||
stereo compatibility. While it would be possible to add the UHJ chunk to | |||
three- and four-channel WAVE-EX files, the recommendations from Microsoft | |||
for playing such files is that the audio device should render the extra | |||
channels to output ports not in use. This can happen even when the extra | |||
channels are masked off. Because of this, three- and four-channel WAVE-EX | |||
files can not be made stereo compatible. | |||
In the | In the Xiph world, it should be possible to use default channel conversions to ensure that three- and four-channel UHJ files remain stereo compatible. | ||
to ensure that three- and four-channel UHJ files remain stereo compatible. | |||
=== Default channel conversions from UHJ === | === Default channel conversions from UHJ === | ||
Converting a UHJ file to a mono file is straightforward. | Converting a UHJ file to a mono file is straightforward. Use Mono = | ||
(Left + Right)/2. | (Left + Right) / sqrt(2). | ||
Converting a UHJ file to a stereo file is even easier. | Converting a UHJ file to a stereo file is even easier. Use Left = Left, Right = Right, and discard T and Q if present. | ||
== G-Format == | == G-Format == | ||
A | A G-Format file is any common multi-channel surround file containing an Ambisonic soundfield pre-decoded to its speaker feeds. This allows listeners who do not own an Ambisonic decoder to enjoy Ambisonics. | ||
Ambisonics, all speakers cooperate to | The sound engineer creates a set of speaker feeds for a particular number and arrangement of speakers. This is typically four speakers arranged in a square. Other speaker arrangements are also possible | ||
direction; there are no "surround speakers" as such. The easiest way to | |||
accomplish this is to use identical speakers. Unfortunately, many home | In Ambisonics, all speakers cooperate to localize sounds in any particular direction; there are no "surround speakers" as such. Because of this, best results when playing G-Format recordings (and Ambisonics in general) are obtained when the speakers are matched. The easiest way to accomplish this is to use identical speakers. Unfortunately, many home theater systems include a center-front speaker which is different from the other speakers. | ||
other speakers | |||
An easy way to cope with this is adopted on G-Format recordings commercially released on DVD-A by [http://www.wyastone.co.uk/all-labels/nimbus/dvd-audio.html Nimbus Records]. They use four speakers in a square, the center-front speaker being unused. | |||
=== Recovering B-Format from G-Format === | |||
files is | It is sometimes possible to recover the original B-Format channels from the G-Format speaker feeds. The recovered B-Format channels can then be fed to a decoder in the listener's living room, and so accommodate a speaker arrangement different from the one used when the G-Format file was produced. Each B-Format channel is recovered using a weighted combination of the speaker feeds in the G-Format file. The conversion coefficients required for the B-Format recovery depend on the particular speaker arrangement chosen by the sound engineer. (Obviously, if a B-Format version of the file also exists then it can be fed to the decoder directly without the need for G-Format.) | ||
File formats for G-Format include all multi-channel formats that contain speaker feeds. However, these will not contain information to allow the B-Format channels to be automatically recovered. A [http://members.tripod.com/martin_leese/Ambisonic/G-Format_chunk.html ".amg" file format] (based on WAVE-EX) for downloadable G-Format files, which will allow the B-Format channels to be automatically recovered, has been proposed. Such file formats have the advantage of storing the conversion coefficients at the time the G-Format file is created. This is the only time the required information is readily available. | |||
=== Default channel conversions from G-Format === | === Default channel conversions from G-Format === | ||
Converting a G-Format file to a mono or stereo file is straightforward. | Converting a G-Format file to a mono or stereo file is straightforward. First, recover the B-Format channels using the conversion coefficients contained in the file. Second, follow the advice given above for [[#Default channel conversions from B-Format|Default channel conversions from B-Format]]. | ||
First, recover the B-Format channels using the conversion coefficients | |||
contained in the file. Second, follow the advice given above for | An alternative approach is to encode directly into the file the coefficients for producing the stereo mix. An appropriate [http://members.tripod.com/martin_leese/Audio/StereoMix_chunk.html chunk for WAVE-EX files] has been proposed. This could be [http://members.tripod.com/martin_leese/Audio/stereo_mix_proposal.html extended to other multi-channel file formats]. | ||
[[#Default channel conversions from B-Format|Default channel conversions from B-Format]]. | |||
== Resources on Ambisonics == | == Resources on Ambisonics == | ||
*There is a set of [http://en.wikipedia.org/wiki/Ambisonics Wikipedia articles on Ambisonics]. | *There is a set of [http://en.wikipedia.org/wiki/Ambisonics Wikipedia articles on Ambisonics]. | ||
*Of particular relevance is the [http:// | *Of particular relevance is the [http://members.tripod.com/martin_leese/Ambisonic/B-Format_file_format.html ".amb" specification] in use for downloadable B-Format files. However the ".amb" spec has some limitations which it would be useful to overcome. | ||
*There is also the [http:// | *There is also the [http://members.tripod.com/martin_leese/Ambisonic/UHJ_file_format.html ".uhj" specification] for downloadable two-channel UHJ files, but it is not currently in use. The ".uhj" spec also has some limitations which it would be useful to overcome. | ||
*[http://members.tripod.com/martin_leese/Ambisonic/ This website] has many pages on Ambisonics (including at the bottom links to other Ambisonic websites). | *[http://members.tripod.com/martin_leese/Ambisonic/ This website] has many pages on Ambisonics (including at the bottom links to other Ambisonic websites). | ||
*[http://www.ambisonic.net/ Ambisonic.Net website] includes a detailed series of descriptive and practical articles on current and past Ambisonic techniques with links to tools, other sites and additional material. | *[http://www.ambisonic.net/ Ambisonic.Net website] includes a detailed series of descriptive and practical articles on current and past Ambisonic techniques with links to tools, other sites and additional material. | ||
*[http://ambisonic.info/info/ricardo.html Richard Lee's page on Ambisonics] contains articles on shelf filters and the design of Ambisonic decoders. | |||
[[Category:Developers stuff]] |
Latest revision as of 04:32, 3 November 2017
This page is part of the Xiph Wiki, and is aimed at people developing file formats and associated software for Ambisonics. For an general introduction to Ambisonics, please go to the Wikipedia page on Ambisonics.
Ambisonics is a surround sound system first developed in the 1970s. Its main difference from other surround techniques is that it separates transmission channels from speaker feeds, the speaker feeds being derived using a decoder situated in the living room. Decoders can be implemented in either hardware or software. Typically more speakers are used than transmission channels, and the more speakers used then the more stable the resulting soundfield. Speakers can be arranged in a number of configurations, regular polygons being the most popular.
Ambisonic files can come in a number of different formats. The main one is called B-Format, the other formats being derived from this. UHJ format is mono- and stereo-compatible. G-Format is a set of speaker feeds, so can be enjoyed in surround sound without the need for a decoder in the living room.
Ambisonics and 5.1
Ambisonics and conventional 5.1 surround sound are very different. 5.1 is a set speaker feeds, the signal only being fully defined for sounds coming from a speaker. Phantom images between speakers can be created, but the technique to do so is left unspecified. Many 5.1 releases use pair-wise mixing to create phantom images. This is understandable as almost all stereo recordings are mixed using pair-wise mixing.
Pair-wise mixing is also called "pan-potting", "amplitude mixing" and "intensity stereophony". It mixes signals into the feeds for a pair of speakers to create the illusion that a sound is coming from a point somewhere between the speakers. During mixing, the apparent location of each sound is determined only by the relative amplitude of that sound in the two speakers.
Unfortunately, pair-wise mixing works poorly when the speakers are to the rear of the listener and not-at-all when they are to one side. You can demonstrate this for yourself by performing a very simple experiment. Pair-wise mixing did not work in the quadraphonic era and it will not work now. Such an absolute statement can be made because the way that humans localize sound has not changed.
Ambisonics is fundamentally different from 5.1. What is encoded in Ambisonics is not speaker feeds, but direction. When mixing in Ambisonics, the positions of the speakers are unknown and are of no interest. Further, when Ambisonics is decoded to speaker feeds all of the speakers cooperate to localize a sound in its correct position so, for example, when the speakers on the left push those on the right pull. The speakers all contribute to the creation of a single coherent soundfield.
Ambisonics to 5.1
Converting Ambisonics to 5.1 is straightforward, and is discussed below (see G-Format).
5.1 to Ambisonics
Converting 5.1 to Ambisonics is more difficult. It is easy to make the five speaker feeds phantom images, called "virtual speakers". (The ".1" channel can be folded into W.) The problem with this is that even if the Ambisonic rendering is perfect, the result will only be as good as the original 5.1 played through real speakers. It will not be an improvement. Nobody has yet come up with a way for Ambisonics to improve 5.1; 5.1 is simply too broken.
B-Format
B-Format is a single coherent soundfield composed of a set of related channels. The number of channels used depends on whether the soundfield is horizontal-only or full-sphere, and on the order. These B-Format channels are transmission channels, not speaker feeds. Listening to B-Format requires a decoder in your living room. Some numbers of channels are tabulated below.
Channel correlation
Compression techniques typically make use of channel correlation to remove redundancy from the audio data, and so improve the compression ratio.
The correlation between B-Format channels depends on the content. Four-channel B-Format consists of an omni-directional component, called W, and three figure-of-eight components pointing forward, left and up, called X, Y, Z. (Pictures are available.) Three-channel, horizontal-only B-Format simply omits the Z channel. This means that anything in X also appears in W. Same for Y and Z. (W is omni-directional; everything appears in W.) Also, if content comes from Front-Left then it appears equally in X and Y. Same for content from Front-Right, Back-Left, Back-Right; only the relative polarities change. So there can be a lot of correlation between B-Format channels, but it is content dependent.
One problem with B-Format is that it is big on low-frequency phase. The phase relationships between the different B-Format channels are important if the resulting soundfield is to correctly "gel". This may be a problem when B-Format channels are compressed using lossy compression.
There is a file specification in use for downloadable B-Format files called the ".amb" specification.
Limitations of the ".amb" specification
The ".amb" specification for downloadable B-Format files is based on the WAVE-EX format. There are currently over 200 pieces available in this format for free download. Most of these are first-order full-sphere soundfields. (A list of Ambisonic software decoders is avaialble on Wikipedia.) Some of the limitations of the specification are:
- It is limited to 4 GByte files (2 GBytes if somebody screwed up).
- It is limited to third-order soundfields and below. While third-order looks like a lot (16 channels), there are already research rigs that reproduce fourth-order (25 channels).
- No compression (particularly lossless).
The reason that the ".amb" file specification is limited to third-order and below is because it uses the number of channels to uniquely define the soundfield order. Unfortunately this simple and elegant scheme does not work above third-order as ambiguities creep in. (One ambiguity is illustrated in the table below.)
A more general file format will have to use something else, such as Malham notation, or storing both the horizontal-order and height-order. There is a one-to-one correspondence between Malham notation and the pair of orders, and either can generate the number of channels.
Malham notation
Malham notation specifies the order of a B-Format soundfield using a string of characters, each character being either f (for full-sphere) or h (for horizontal). The first character in the string specifies the type of the first-order components, the second character the type of the second-order components, etc.
Horizontal order |
Height order |
Soundfield_type | Malham notation |
Number of_channels |
Channels |
---|---|---|---|---|---|
1 | 0 | horizontal | h | 3 | WXY |
1 | 1 | full-sphere | f | 4 | WXYZ |
2 | 0 | horizontal | hh | 5 | WXYUV |
2 | 1 | mixed-order | fh | 6 | WXYZUV |
2 | 2 | full-sphere | ff | 9 | WXYZRSTUV |
3 | 0 | horizontal | hhh | 7 | WXYUVPQ |
3 | 1 | mixed-order | fhh | 8 | WXYZUVPQ |
3 | 2 | mixed-order | ffh | 11 | WXYZRSTUVPQ |
3 | 3 | full-sphere | fff | 16 | WXYZRSTUVKLMNOPQ |
4 | 0 | horizontal | hhhh | 9 | extra channels unlabled |
Default channel conversions from B-Format
Converting a B-Format file to a mono file is straightforward. Use Mono = W*sqrt(2).
Converting a B-Format file to a stereo file is more difficult. The "proper" way to do this is to convert the W,X,Y channels to two-channel UHJ. Unfortunately this requires the use of wide-band 90-degree phase shifters. In the digital domain these are usually implemented as convolution filters.
Assuming 90-degree phase shifters are unavailable then the problem is one of choice. Starting from B-Format, it is possible to synthesize any mic response pointing in any direction. Hence, it is possible to synthesize all coincident stereo mic techniques. Two popular stereo techniques are Blumlein Mid-Side and Blumlein Crossed Pair.
Blumlein Mid-Side
Mid = (W*sqrt(2)) + X /*This is a cardioid response pointing forward*/ Left = Mid + Y Right = Mid - Y
Blumlein Crossed Pair
Left = (X + Y)/sqrt(2) /* (Left, Right) are just the (Y, X) */ Right = (X - Y)/sqrt(2) /* responses rotated by -45 degrees */
Which conversion to stereo is better depends on the material and how it was recorded. A good suggestion is to not specify a particular default channel conversion; instead, simply specify that there must be one. If one has to be specified then Blumlein Crossed Pair is the simpler.
UHJ format
B-Format is the main format for Ambisonic files. However, B-Format is not mono- or stereo-compatible. This is why the UHJ hierarchical system was developed. Depending on the number of channels available, the UHJ system can carry more or less information, but at all times it is fully mono- and stereo-compatible. Up to four channels (Left, Right, T, Q) may be used. The T-channel can also be band-limited but, as this "2½-channel UHJ" was only ever used for FM radio transmission, it will not be discussed further.
To listen to UHJ files in surround requires a decoder in your living room. Also, UHJ is restricted to first-order soundfields, either horizontal (two- and three-channel UHJ) or full-sphere (four-channel UHJ).
Converting B-Format channels to UHJ channels, and vice versa, requires the use of wide-band 90-degree phase shifters. In the digital domain these are usually implemented as convolution filters. Conversion between four-channel B-Format (W, X, Y, Z) and four-channel UHJ (Left, Right, T, Q) can be accomplished without loss of information. The same with three-channel to three-channel (W, X, Y) <=> (Left, Right, T). It is possible to recover three-channel B-Format (W, X, Y) from two-channel UHJ (Left, Right), but not without loss. It is also important for the Ambisonic decoder to be aware that the B-Format channels were recovered from two-channel UHJ (because of the need to apply different shelf filters).
Several hundred two-channel UHJ LPs and CDs have been released. Three- and four-channel UHJ recordings have never been commercially released.
UHJ encoding and decoding equations
Encoding
S = 0.9396926*W + 0.1855740*X D = j(-0.3420201*W + 0.5098604*X) + 0.6554516*Y Left = (S + D)/2.0 Right = (S - D)/2.0 T = j(-0.1432*W + 0.6512*X) - 0.7071*Y Q = 0.9772*Z where j is a +90 degree phase shift
Decoding
For two-channel UHJ:
S = (Left + Right)/2.0 D = (Left - Right)/2.0 W = 0.982*S + j*0.164*D X = 0.419*S - j*0.828*D Y = 0.763*D + j*0.385*S where j is a +90 degree phase shift
Note that two-channel UHJ requires the player to use different shelf filters than for B-Format (or for three- and four-channel UHJ).
For three- and four-channel UHJ:
S = (Left + Right)/2.0 D = (Left - Right)/2.0 W = 0.982*S + j*0.197(0.828*D + 0.768*T) X = 0.419*S - j(0.828*D + 0.768*T) Y = 0.796*D - 0.676*T + j*0.187*S Z = 1.023*Q where j is a +90 degree phase shift
There is a file specification for downloadable two-channel UHJ files called the ".uhj" specification, but it is not currently in use.
Limitations of the ".uhj" specification
The ".uhj" specification for downloadable two-channel UHJ files is based on the WAVE or WAVE-EX format. A UHJ chunk is added to the file to indicate it is UHJ. As unrecognized chunks are always skipped, use of this chunk maintains stereo compatibility. Some of the limitations of the specification are:
- It is limited to 4 GByte files (2 GBytes if somebody screwed up).
- It is limited to two-channel UHJ files. Three- and four-channel UHJ are not accommodated.
- No compression.
The ".uhj" spcecification is only defined for two-channel UHJ to maintain stereo compatibility. While it would be possible to add the UHJ chunk to three- and four-channel WAVE-EX files, the recommendations from Microsoft for playing such files is that the audio device should render the extra channels to output ports not in use. This can happen even when the extra channels are masked off. (Put simply, in WAVE-EX files the channel mask does not mask channels.) Because of this, three- and four-channel WAVE-EX files can not be made stereo compatible.
In the Xiph world, it should be possible to use default channel conversions to ensure that three- and four-channel UHJ files remain stereo compatible.
Default channel conversions from UHJ
Converting a UHJ file to a mono file is straightforward. Use Mono = (Left + Right) / sqrt(2).
Converting a UHJ file to a stereo file is even easier. Use Left = Left, Right = Right, and discard T and Q if present.
G-Format
A G-Format file is any common multi-channel surround file containing an Ambisonic soundfield pre-decoded to its speaker feeds. This allows listeners who do not own an Ambisonic decoder to enjoy Ambisonics.
The sound engineer creates a set of speaker feeds for a particular number and arrangement of speakers. This is typically four speakers arranged in a square. Other speaker arrangements are also possible
In Ambisonics, all speakers cooperate to localize sounds in any particular direction; there are no "surround speakers" as such. Because of this, best results when playing G-Format recordings (and Ambisonics in general) are obtained when the speakers are matched. The easiest way to accomplish this is to use identical speakers. Unfortunately, many home theater systems include a center-front speaker which is different from the other speakers.
An easy way to cope with this is adopted on G-Format recordings commercially released on DVD-A by Nimbus Records. They use four speakers in a square, the center-front speaker being unused.
Recovering B-Format from G-Format
It is sometimes possible to recover the original B-Format channels from the G-Format speaker feeds. The recovered B-Format channels can then be fed to a decoder in the listener's living room, and so accommodate a speaker arrangement different from the one used when the G-Format file was produced. Each B-Format channel is recovered using a weighted combination of the speaker feeds in the G-Format file. The conversion coefficients required for the B-Format recovery depend on the particular speaker arrangement chosen by the sound engineer. (Obviously, if a B-Format version of the file also exists then it can be fed to the decoder directly without the need for G-Format.)
File formats for G-Format include all multi-channel formats that contain speaker feeds. However, these will not contain information to allow the B-Format channels to be automatically recovered. A ".amg" file format (based on WAVE-EX) for downloadable G-Format files, which will allow the B-Format channels to be automatically recovered, has been proposed. Such file formats have the advantage of storing the conversion coefficients at the time the G-Format file is created. This is the only time the required information is readily available.
Default channel conversions from G-Format
Converting a G-Format file to a mono or stereo file is straightforward. First, recover the B-Format channels using the conversion coefficients contained in the file. Second, follow the advice given above for Default channel conversions from B-Format.
An alternative approach is to encode directly into the file the coefficients for producing the stereo mix. An appropriate chunk for WAVE-EX files has been proposed. This could be extended to other multi-channel file formats.
Resources on Ambisonics
- There is a set of Wikipedia articles on Ambisonics.
- Of particular relevance is the ".amb" specification in use for downloadable B-Format files. However the ".amb" spec has some limitations which it would be useful to overcome.
- There is also the ".uhj" specification for downloadable two-channel UHJ files, but it is not currently in use. The ".uhj" spec also has some limitations which it would be useful to overcome.
- This website has many pages on Ambisonics (including at the bottom links to other Ambisonic websites).
- Ambisonic.Net website includes a detailed series of descriptive and practical articles on current and past Ambisonic techniques with links to tools, other sites and additional material.
- Richard Lee's page on Ambisonics contains articles on shelf filters and the design of Ambisonic decoders.