[asterisk-commits] mmichelson: branch 1.4 r269784 - /branches/1.4/doc/plc.txt
SVN commits to the Asterisk project
asterisk-commits at lists.digium.com
Thu Jun 10 12:30:43 CDT 2010
Author: mmichelson
Date: Thu Jun 10 12:30:40 2010
New Revision: 269784
URL: http://svnview.digium.com/svn/asterisk?view=rev&rev=269784
Log:
Add text version of PLC doc to 1.4
Added:
branches/1.4/doc/plc.txt (with props)
Added: branches/1.4/doc/plc.txt
URL: http://svnview.digium.com/svn/asterisk/branches/1.4/doc/plc.txt?view=auto&rev=269784
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--- branches/1.4/doc/plc.txt (added)
+++ branches/1.4/doc/plc.txt Thu Jun 10 12:30:40 2010
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+What is PLC?
+
+ PLC stands for Packet Loss Concealment. PLC describes any method of generating
+new audio data when packet loss is detected. In Asterisk, there are two main flavors
+of PLC, generic and native. Generic PLC is a method of generating audio data on
+signed linear audio streams. Signed linear audio, often abbreviated "slin," is required
+since it is a raw format that has no companding, compression, or other transformations
+applied. Native PLC is used by specific codec implementations, such as
+iLBC and Speex, which generates the new audio in the codec's native format. Native
+PLC happens automatically when using a codec that supports native PLC. Generic PLC
+requires specific configuration options to be used and will be the focus of this
+document.
+
+How does Asterisk detect packet loss?
+
+ Oddly, Asterisk does not detect packet loss when reading audio in. In order to
+detect packet loss, one must have a jitter buffer in use on the channel on which
+Asterisk is going to write missing audio using PLC. When a jitter buffer is in use,
+audio that is to be written to the channel is fed into the jitterbuffer. When the
+time comes to write audio to the channel, a bridge will request that the jitter
+buffer gives a frame of audio to the bridge so that the audio may be written. If
+audio is requested from the jitter buffer but the jitter buffer is unable to give
+enough audio to the bridge, then the jitter buffer will return an interpolation
+frame. This frame contains no actual audio data and indicates the number of samples
+of audio that should be inserted into the frame.
+
+A bit of background on translation
+
+ As stated in the introduction, generic PLC can only be used on slin audio.
+The majority of audio communication is not done in slin, but rather using lower
+bandwidth codecs. This means that for PLC to be used, there must be a translation
+step involving slin on the write path of a channel. This means that PLC cannot
+be used if the codecs on either side of the bridge are the same or do not require
+a translation to slin in order to translate between them. For instance, a
+ulaw <-> ulaw call will not use PLC since no translation is required. In addition,
+a ulaw <-> alaw call will also not use PLC since the translation path does not
+include any step involving slin.
+ One item of note is that slin must be present on the write path of a channel
+since that is the path where PLC is applied. Consider that Asterisk is bridging
+channels A and B. A uses ulaw for audio and B uses GSM. This translation involves
+slin, so things are shaping up well for PLC. Consider, however if Asterisk sets
+up the translation paths like so:
+
+ Fig. 1
+
+A +------------+ B
+<---ulaw<---slin<---GSM| |GSM--->
+ | Asterisk |
+ulaw--->slin--->GSM--->| |<---GSM
+ +------------+
+
+ The arrows indicate the direction of audio flow. Each channel has a write
+path (the top arrow) and a read path (the bottom arrow). In this setup, PLC
+can be used when sending audio to A, but it cannot be used when sending audio
+to B. The reason is simple, the write path to A's channel contains a slin
+step, but the write path to B contains no slin step. Such a translation setup
+is perfectly valid, and Asterisk can potentially set up such a path depending
+on circumstances. When we use PLC, however, we want slin audio to be present
+on the write paths of both A and B. A visual representation of what we want
+is the following:
+
+ Fig. 2
+
+A +------------+ B
+<---ulaw<---slin| |slin--->GSM--->
+ | Asterisk |
+ulaw--->slin--->| |<---slin<---GSM
+ +------------+
+
+ In this scenario, the write paths for both A and B begin with slin,
+and so PLC may be applied to either channel. This translation behavior has,
+in the past been doable with the transcode_via_sln option in asterisk.conf.
+Recent changes to the PLC code have also made the genericplc option in
+codecs.conf imply the transcode_via_sln option. The result is that by
+enabling genericplc in codecs.conf, the translation path set up in
+Fig. 2 should automatically be used.
+
+Additional restrictions and caveats
+
+ One restriction that has not been spelled out so far but that has been
+hinted at is the presence of a bridge. The term bridge in this sense means
+two channels exchanging audio with one another. A bridge is required because
+use of a jitter buffer is a prerequisite for using PLC, and a jitter buffer
+is only used when bridging two channels. This means that one-legged calls,
+(e.g. calls to voicemail, to an IVR, to an extension that just plays back
+audio) will not use PLC. In addition, MeetMe and ConfBridge calls will not
+use PLC.
+ It should be obvious, but it bears mentioning, that PLC cannot be used
+when using a technology's native bridging functionality. For instance, if
+two SIP channels can exchange RTP directly, then Asterisk will never be
+able to process the audio in the first place. Since translation of audio
+is a requirement for using PLC, and translation will not allow for a
+native bridge to be created, this is something that is not likely to be
+an issue, though.
+ Since a jitter buffer is a requirement in order to use PLC, it should
+be noted that simply enabling the jitter buffer via the jbenable option
+may not be enough. For instance, if bridging two SIP channels together,
+the default behavior will not be to enable jitter buffers on either channel.
+The rationale is that the jitter will be handled at the endpoints to which
+Asterisk is sending the audio. In order to ensure that a jitter buffer is
+used in all cases, one must enable the jbforce option for channel types
+on which PLC is desired.
+
+Summary
+ The following are all required for PLC to be used:
+* Enable genericplc in the plc section of codecs.conf
+* Enable (and potentially force) jitter buffers on channels
+* Two channels must be bridged together for PLC to be used
+(no Meetme or one-legged calls)
+* The audio must be translated between the two channels
+and must have slin as a step in the translation process.
+
+Protip
+
+ One of the restrictions mentioned is that PLC will only
+be used when two audio channels are bridged together. Through the
+use of Local channels, you can create a bridge even if the call
+is, for all intents and purposes, one-legged. By using a combination
+of the /n and /j suffixes for a Local channel, one can ensure
+that the Local channel is not optimized out of the talk path
+and that a jitter buffer is applied to the Local channel as well.
+Consider the following simple dialplan:
+
+[example]
+exten => 1,1,Playback(tt-weasels)
+exten => 2,1,Dial(Local/1 at example/nj)
+
+When dialing extension 1, PLC cannot be used because there
+will be only a single channel involved. When dialing extension
+2, however, Asterisk will create a bridge between the incoming
+channel and the Local channel, thus allowing PLC to be used.
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