Network Working Group I. Johansson
Internet-Draft Ericsson AB
Intended status: Standards Track K. Jung
Expires: April 21, 2010 Samsung Electronics Co., Ltd.
Oct 18, 2009
Negotiation of Generic Image Attributes in SDP
draft-ietf-mmusic-image-attributes-03
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Abstract
This document proposes a new generic session setup attribute to make
it possible to negotiate different image attributes such as image
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size. A possible use case is to make it possible for a low-end hand-
held terminal to display video without the need to rescale the image,
something that may consume large amounts of memory and processing
power. The draft also helps to maintain an optimal bitrate for video
as only the image size that is desired by the receiver is
transmitted.
Requirements Language
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC 2119 [RFC2119].
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Conventions, Definitions and Acronyms . . . . . . . . . . . . 4
3. Defintion of Attribute . . . . . . . . . . . . . . . . . . . . 4
3.1. Requirements . . . . . . . . . . . . . . . . . . . . . . . 5
3.2. Attribute syntax . . . . . . . . . . . . . . . . . . . . . 5
3.2.1. Overall view of syntax . . . . . . . . . . . . . . . . 5
3.2.2. Syntax description . . . . . . . . . . . . . . . . . . 9
3.3. Considerations . . . . . . . . . . . . . . . . . . . . . . 10
3.3.1. No imageattr in 1st offer . . . . . . . . . . . . . . 10
3.3.2. Asymmetry . . . . . . . . . . . . . . . . . . . . . . 11
3.3.3. sendonly and recvonly . . . . . . . . . . . . . . . . 11
3.3.4. Sample aspect ratio . . . . . . . . . . . . . . . . . 11
3.3.5. SDPCapNeg support . . . . . . . . . . . . . . . . . . 12
3.3.6. Interaction with codec parameters . . . . . . . . . . 12
3.3.7. Change of display in middle of session . . . . . . . . 14
3.3.8. Use with layered codecs . . . . . . . . . . . . . . . 14
3.3.9. Addition of parameters . . . . . . . . . . . . . . . . 14
4. Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.1. Example 1 . . . . . . . . . . . . . . . . . . . . . . . . 15
4.2. Example 2 . . . . . . . . . . . . . . . . . . . . . . . . 16
4.3. Example 3 . . . . . . . . . . . . . . . . . . . . . . . . 16
4.4. Example 4 . . . . . . . . . . . . . . . . . . . . . . . . 17
5. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 18
6. Security Considerations . . . . . . . . . . . . . . . . . . . 18
7. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 18
8. Changes . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
9. References . . . . . . . . . . . . . . . . . . . . . . . . . . 19
9.1. Informative References . . . . . . . . . . . . . . . . . . 19
9.2. Normative References . . . . . . . . . . . . . . . . . . . 20
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 20
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1. Introduction
This document proposes a new attribute to make it possible to
negotiate different image attributes such as image size. The term
image size is defined here as it may differ from the physical screen
size of for instance a hand-held terminal. As an example it may be
beneficial to display a video image on a part of the physical screen
and leave space on the screen for other features such as menus and
other info.
There are a number of benefits with a possibility to negotiate the
image size:
o Less image distortion: Rescaling of images introduces additional
distortion, something that can be avoided (at least on the
receiver side) if the image size can be negotiated.
o Reduced complexity: Image rescaling can be quite computation
intensive. For low end devices this can be a problem.
o Optimal quality for the given bitrate: The sender does not need to
encode an entire CIF (352x288) image if only an image size of
288x256 is displayed on the receiver screen. This gives
alternatively a saving in bitrate.
o Memory requirement: The receiver device will know the size of the
image and can then allocate memory accordingly.
o Optimal aspect ratio: The indication of the supported image sizes
and aspect ratio allows the receiver to select the most
appropriate combination based on its rescaling capabilities and
the desired rendering. For example, if a sender proposes three
resolutions in its SDP offer, 100x200, 200x100 and 100x100 with
sar=1.0 (1:1) etc. then the receiver can select the option that
fits the receiver screen best.
In cases where rescaling is not implemented (for example, rescaling
is not mandatory to implement in H.264), the indication of the image
attributes may still provide an optimal use of bandwidth because the
attribute will anyway give the encoder a better indication about what
image size is preferred and will thus help to avoid wasting bandwidth
by encoding with an unnecessarily large resolution.
For implementers that are considering rescaling issues, it is worth
notice note that there are several benefits to doing it on the sender
side:
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o Rescaling on the sender/encoder side is likely to be easier to do
as the camera related software/hardware already contains the
necessary functionality for zooming/cropping/trimming/sharpening
the video signal. Moreover, rescaling is generally done in RGB or
YUV domain and should not depend on the codecs used.
o The encoder may be able to encode in a number of formats but may
not know which format to choose as it, without the image
attribute, does not know the receivers performance or preference.
o The quality drop due to digital domain rescaling using
interpolation is likely to be lower if it is done before the video
encoding rather than after the decoding esp. when low bitrate
video coding is used.
o If low-complexity rescaling operations such as cropping only must
be performed after all, the benefit with having this functionality
on the sender side is that it is then possible to present a
miniature "what you send" image on the display to help the user to
target the camera correctly.
Several of the existing standards ([H.263], [H.264] and [MPEG-4])
have support for different resolutions at different framerates. The
purpose of this document is to provide for a generic mechanism and is
targeted mainly at the negotiation of the image size but to make it
more general the attribute is named "imageattr".
The draft is limited to unicast scenarios in general and more
specific poit-to-point communication. The attribute may be used in
centralized conferencing scenarios as well but due to the abundance
of configuration options it may then be difficult to come up with a
configuration that fits all parties.
2. Conventions, Definitions and Acronyms
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC 2119.
3. Defintion of Attribute
This section defines the SDP image attribute "imageattr" that can be
used in an SDP Offer/Answer exchange to indicate various image
attribute parameters. In this document, we define the following
image attribute parameters: image resolution, sample aspect ratio
(sar), allowed range in picture aspect ratio and the preference of a
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given parameter set over another. The attribute is however
extensible and guidelines for defining extensions are provided in
Section 3.3.9.
3.1. Requirements
The image attribute MUST meet the following requirements:
REQ-1: Support the indication of one or more set(s) of image
attributes that the SDP endpoint wish to receive or send. An
image attribute set MUST include a specific image size.
REQ-2: Support setup/negotiation of image attributes, meaning that
each side in the Offer/Answer SHOULD be able to negotiate the
image attributes if prefers to send and receive.
REQ-3: Interoperate with codec specific parameters such as sprop-
parameter-sets in H.264 or config in MPEG4.
REQ-4: Make the attribute generic with as little codec specific
details/tricks as possible in order to be codec agnostic.
Besides the above mentioned requirements, the requirement below MAY
be applicable.
OPT-1: The image attribute SHOULD support the description of image-
related attributes for various types of media, including video,
pictures, images, etc.
3.2. Attribute syntax
In this section the syntax of the image attribute is described. The
image attribute is a media attribute. The section is split up in two
parts, the first gives an overall view of the syntax while the second
describes how the syntax is used.
3.2.1. Overall view of syntax
The syntax for the image attribute is in ABNF [RFC4234]:
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----
image-attr = "imageattr:" PT 1*2( 1*WSP ( "send" / "recv" )
1*WSP attr-list )
PT = 1*DIGIT / "*"
attr-list = ( set *(1*WSP set) ) / "*"
; see below for a definition of set.
----
o Maximum one occurrence of the "send" keyword and corresponding
attr-list is allowed per image attribute.
o Maximum one occurrence of the "recv" keyword and corresponding
attr-list is allowed per image attribute.
o PT is the payload type number, it can be set to * to indicate that
the attribute applies to all payload types in the media
description.
o For sendonly or recvonly streams one of the directions MAY be
omitted. See Section 3.3.3, moreover the order of the send and
recv directions is not important.
The syntax for the set is given by:
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----
set= "[" "x=" range "," "y=" range [ ",sar=" range ]
[ ",par=" range ] [ ",q=" value ] "]"
x is the horizontal image size range
y is the vertical image size range
sar (sample aspect ratio) is the sample aspect ratio associated
with the set (optional and MAY be ignored)
par (picture aspect ratio) is the allowed ratios between the
displays x and y physical size (optional)
q (optional with range [0.0..1.0], default value 0.5)
is the preference for the given set, a higher value means higher
preference from the sender point of view
range is expressed in a few different formats
1) range= value
a single value
2) range= "[" value1 ":" [ step ":" ] value2 "]"
values between value1 and value2 inclusive,
if step is omitted a stepsize of 1 is implied
3) range= "[" value 1*( "," value ) "]"
any value from the list of values
4) range= "[" value1 "-" value2 "]"
any real value between value1 and value2 inclusive
value is a positive integer or real value
step is a positive integer or real value
If step is left out in the syntax a stepsize of 1 is implied
Real values are only applicable for the
sar, par and q parameters
Note the use of brackets [..] if more that one value
is specified.
----
Some further guidelines for the use of the attribute is given below:
o The image attribute is bound to a specific media by means of the
payload type number. A wild card (*) can be specified for the
payload type number to indicate that it applies to all payload
types in the media description. Several image attributes can be
defined for instance for different video codec alternatives
conditioned that the payload type number differs.
o The preference for each set is 0.5 by default, setting the
optional q parameter to another value makes it possible to set
different preferences for the sets. A higher value gives a higher
preference for the given set.
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o The sar parameter specifies the sample aspect ratio associated to
the given range of x and y values. The sar parameter is defined
as dx/dy where dx and dy is the size of the pixels. Square pixels
gives a sar=1.0. The parameter sar MAY be expressed as a range.
If this parameter is not present a default sar value of 1.0 is
assumed.
The interpretation of sar differs between the send and the receive
directions.
* In the send direction it defines a specific sample aspect
ration associated to a given x and y image size (range).
* In the recv direction sar expresses that the receiver of the
given media prefers to receive a given x and y resolution with
a given sample aspect ratio.
See Section 3.3.4 for a more detailed discussion.
The sar parameter will likely not solve all the issues that are
related to different sample aspect ratios but it can help to solve
them and reduce aspect ratio distortion.
o The par (width/height = x/y ratio) parameter indicates a range of
allowed ratios between x and y physical size (picture aspect
ratio). This is used to limit the number of x and y image size
combinations, par is given as
----
par=[ratio_min-ratio_max]
----
Where ratio_min and ratio_max are the min and max allowed picture
aspect ratios.
If sar and the display sample aspect ration is the same (or close)
the relation between the x and y pixel resolution and the physical
size of the image is straightforward. If however sar differs from
the sample aspect ratio of the receiver display this must be taken
into consideration when the x and y pixel resolution alternatives
are sorted out.
o The offerer MUST be able to support the image attributes that it
offers.
o The answerer MAY choose to keep imageattr but is not required to
do so. If the attribute is kept in the SDP answer:
* The answerer MUST for its receive direction only include one or
more valid entries taken from the offer. In other words, the
answerer MUST for its receive direction only pick one or more
valid entries from the multidimensional solution space spanned
by the offer.
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* The answerer MAY for its send direction modify the attribute in
the sense that new entries other than those presented in the
offer are added. It must however be noted that this may lead
to an extra offer/answer exchange of the added parameters are
not supported by the offerer.
3.2.2. Syntax description
In the description of the syntax we here assume that Alice wish to
setup a session with Bob and that Alice takes the first initiative.
The syntactical white-space delimiters (1*WSP) and double-quotes are
removed to make reading easier.
In the offer Alice provides with information for both the send and
receive (recv) directions using syntax version 1. For the send
direction Alice provides with a list that the answerer can select
from. For the receive direction Alice may either specify a desired
image size range right away or a * to instruct Bob to fill with a
list of image size that Bob can support to send. Using the overall
high level syntax the image attribute may then look like
----
a=imageattr:PT send attr-list recv attr-list
----
or
----
a=imageattr:PT send attr-list recv *
----
In the first alternative the recv direction may be a full list of
desired image size formats. It may however (and most likely) just be
a list with one alternative for the preferred x and y resolution.
If Bob supports an x and y resolution in the given x and y range the
answer from Bob will look like:
----
a=imageattr:PT send attr-list recv attr-list
----
And the offer answer negotiation is done. Worth notice here is that
the attr-list will likely be pruned in the answer. While it may
contain many different alternatives in the offer it may in the end
contain just one or two alternatives in the end.
If Bob does not support any x and y resolution in the given x and y
range in attr-list or a * was given for the recv direction then he
MUST either:
o Provide with another list of options (attr-list). The answer from
Bob may then look like:
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----
a=imageattr:PT recv attr-list send attr-list
----
In this case the offer/answer negotiation is not quite done. To
complete the offer/answer Alice sends another offer that looks
like:
----
a=imageattr:PT send attr-list recv attr-list
----
Bob MAY send back an answer to complete the 2nd offer/answer but
this is not necessary.
o Remove the corresponding part completely in which case the answer
from bob would look like:
----
a=imageattr:PT recv attr-list
----
Again it is worth notice that the attr-list for each direction is
likely pruned depending on preferred and supported options.
If the 1st offer (from Alice) already defines a desired image size
for the recv direction the answerer can do one of the following:
1. Accept the image size and return it in the answer.
2. Replace with a list of options in the answer.
3. Remove the corresponding part completely. This may happen if it
is deemed that it is unlikely that the list of options is
supported. The answer will then lack a description for the send
direction and will look like:
----
a=imageattr:PT recv attr-list
----
3.3. Considerations
3.3.1. No imageattr in 1st offer
A high end device (Alice) may not see any need for the image
attribute as it most likely has the processing capacity to rescale
incoming video and may therefore not include the attribute in the
offer as it otherwise does not see any use for it. The answerer
(Bob) MAY include imageattr in the answer. This has two
implications:
o Longer session setup time due to extra offer/answer exchanges
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o There is a risk that Alice does not recognize or support imageattr
and will thus anyway ignore the attribute.
3.3.2. Asymmetry
While the image attribute supports asymmetry there are some
limitations to this. One important limitation is that the codec
being used can only support up to a given maximum resolution for a
given profile level.
As an example H.264 with profile level 1.2 does not support higher
resolution than 352x288 (CIF). The offer/answer rules essentially
gives that the same profile level must be used in both directions.
This means that for an asymmetric scenario where Alice wants an image
size of 580x360 and Bob wants 150x120 profile level 2.2 is needed in
both directions even though profile level 1 would have been enough in
one direction.
Currently, the only solution to this problem is to specify two
unidirectional media descriptions. Note however that the asymmetry
issue for the H.264 codec is solved in [RFC3984bis].
3.3.3. sendonly and recvonly
If the directional attributes a=sendonly or a=recvonly are given for
a media, there is of course no need to specify the image attribute
for both directions. Therefore one of directions in the attribute
MAY be omitted. However it may be good to do the image attribute
negotiation in both directions in case the session is updated for
media in both directions at a later stage.
3.3.4. Sample aspect ratio
The sar parameter in relation to the x and y pixel resolution
deserves some extra discussion. Consider the offer from Alice to Bob
(we set the recv direction aside for the moment):
----
a=imageattr:97 send [x=720,y=576,sar=1.1]
----
If the receiver display has square pixels the 720x576 image would
need to be rescaled to for example 792x576 or 720x524 to ensure a
correct image aspect ratio. This in practice means that rescaling
would need to be performed on the receiver side, something that is
contrary to the spirit of this draft.
To avoid this problem Alice MAY specify a range of values for the sar
parameter like:
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----
a=imageattr:97 send [x=720,y=576,sar=[0.91,1.0,1.09,1.45]]
----
Meaning that Alice can encode with any of the mentioned sample aspect
ratios, leaving to Bob to decide which one he prefers.
The response MUST NOT include the sar parameter if there is no
acceptable value given.
3.3.5. SDPCapNeg support
The image attribute can be used within the SDP Capability Negotiation
[SDPCapNeg] framework and its use is then specified using the
"a=acap" parameter. An example is
----
a=acap:1 imageattr:97 send [x=720,y=576,sar=[0.91,1.0,1.09,1.45]]
----
For use with SDP Media Capability Negotiation extension
[SDPMedCapNeg], where it is no longer possible to specify payload
type numbers, it is possible to use the parameter substitution rule,
an example of this is.
----
...
a=mcap:1 video H264/90000
a=acap:1 imageattr:%1% send [x=720,y=576,sar=[0.91,1.0,1.09,1.45]]
...
----
Where %1% maps to media capability number 1.
3.3.6. Interaction with codec parameters
As most codecs specifies some kind of indication of for example the
image size already at session setup, some measures must be taken to
avoid that the image attribute conflicts with this already existing
information.
The following subsections describes the most well known codecs and
how they define image-size related information.
3.3.6.1. H.263
The payload format for H.263 is described in [RFC4629].
H.263 defines (on the fmtp line) a list of image sizes and their
maximum frame rates (profiles) that the offerer can receive. The
answerer is not allowed to modify this list and must reject a payload
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type that contains an unsupported profile. The CUSTOM profile may be
used for image size negotiation but support for asymmetry requires
the specification of two unidirectional media descriptions using the
sendonly/recvonly attributes.
3.3.6.2. H.264
The payload format for H.264 is described in [RFC3984] and updated in
[RFC3984bis].
H.264 defines image size related information in the fmtp line by
means of sprop-parameter-sets. According to the specification
several sprop-parameter-sets may be defined for one payload type.
The sprop-parameter-sets describe the image size (+ more) that the
offerer sends in the stream and need not be complete. This means
that this does not represent any negotiation. Moreover an answer is
not allowed to change the sprop-parameter-sets.
This configuration may be changed later inband if for instance image
sizes need to be changed or added.
3.3.6.3. MPEG-4
The payload format for MPEG-4 is described in [RFC3016].
MPEG-4 defines a config parameter on the fmtp line which is a
hexadecimal representation of the MPEG-4 visual configuration
information. This configuration does not represent any negotiation
and the answer is not allowed to change the parameter.
Currently it is not possible to change the configuration using inband
signaling.
3.3.6.4. Possible solutions
The subsections above clearly indicate that this kind of information
must be aligned well with the image attribute to avoid conflicts.
There are a number of possible solutions:
o Ignore payload format parameters: This may not work well in the
presence of bad channel conditions especially in the beginning of
a session. Moreover this is not a good option for MPEG-4.
o 2nd session-wide offer/answer round: In the 2nd offer/answer the
codec payload format specific parameters are defined based on the
outcome of the imageattr negotiation. The drawback with this is
that setup of the entire session (including audio) may be delayed
considerably, especially as the imageattr negotiation can already
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itself cost up to two offer/answer rounds. Also the conflict
between the imageattr negotiation and the payload format specific
parameters is still present after the first offer/anser round and
a fuzzy/buggy implementation may start media before the second
offer/answer is completed with unwanted results.
o 2nd session-wide offer/answer round only for video: This is
similar to the alternative above with the exception that setup
time for audio is not increased, moreover the port number for
video is set to 0 during the 1st offer answer round to avoid that
media flows.
This has the effect that video will blend in some time after the
audio is started (up to 2 seconds delay). This alternative is
likely the most clean-cut and failsafe alternative. The drawback
is, as the port number in the first offer is always zero, the
media startup will always be delayed even though it would in fact
have been possible to start media already after the first offer/
answer round.
3.3.7. Change of display in middle of session
A very likely scenario is that a user switches to another phone
during a video telephony call or plugs the cellphone into an external
monitor. In both cases it is very likely that a renegotiation is
initiated using the SIP-REFER or SIP-UPDATE methods. It is
RECOMMENDED to negotiate the image size during this renegotiation.
3.3.8. Use with layered codecs
As the image attribute is a media line attribute, its use with
layered codecs cause some concern. If the layers are transported in
different RTP streams the layers are specified on different media
descriptions and the relation is specified using the grouping
framework [GROUPING] and the depend attribute [RFC5583]. As it is
not possible to specify only one image attribute for several media
descriptions the solution is either to specify the same image
attribute for each media description, or to only specify the image
attribute for the base layer. [Ed. note, TBD].
3.3.9. Addition of parameters
The image attribute opens up for the addition of parameters in the
future. To make backwards adaptation possible; an entity that
process the attribute MUST remove parameters that are not recognized
before returning the attribute in the SDP answer. Addition of future
parameters that are not understood by the receiving endpoint may lead
to ambiguities if mutual dependencies between parameters exist,
therefore addition of parameters must be done with great care.
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4. Examples
A few examples to highlight the syntax, here is assumed where needed
that Alice initiates a session with Bob
4.1. Example 1
----
a=imageattr:97 send [x=800,y=640,sar=1.1,q=0.6] [x=480,y=320] \
recv [x=330,y=250]
----
Two image resolution alternatives are offered with 800x640 with
sar=1.1 having the highest preference
The example also indicates that Alice wish to display video with a
resolution of 330x250 on her display
In case Bob accepts the "recv [x=330,y=250]" the answer may look like
----
a=imageattr:97 recv [x=800,y=640,sar=1.1] \
send [x=330,y=250]
----
Indicating that the receiver (Bob) wish the encoder (on Alice's side)
to compensate for a sample aspect ratio of 1.1 (11:10) and desires an
image size on its screen of 800x640.
There is however a possibility that "recv [x=330,y=250]" is not
supported. If the case, Bob may completely remove this part or
replace it with a list of supported image sizes.
----
a=imageattr:97 recv [x=800,y=640,sar=1.1] \
send [x=[320:16:640],y=[240:16:480],par=[1.2-1.3]]
----
Alice can then select a valid image size which is closest to the one
that was originally desired (336x256) and performs a second offer/
answer
----
a=imageattr:97 send [x=800,y=640,sar=1.1] \
recv [x=336,y=256]
----
Bob replies with (actually not necessary):
----
a=imageattr:97 recv [x=800,y=640,sar=1.1] \
send [x=336,y=256]
----
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4.2. Example 2
----
a=imageattr:97 \
send [x=[480:16:800],y=[320:16:640],par=[1.2-1.3],q=0.6] \
[x=[176:8:208],y=[144:8:176],par=[1.2-1.3]] \
recv *
----
Two image resolution sets are offered with the first having a higher
preference (q=0.6). The x-axis resolution can take the values 480 to
800 in 16 pixels steps and 176 to 208 in 8 pixels steps. The par
parameter limits the set of possible x and y screen resolution
combinations such that 800x640 (ratio=1.25) is a valid combination
while 720x608 (ratio=1.18) or 800x608 (ratio=1.31) are invalid
combinations.
For the recv direction (Bob->Alice) Bob is requested to provide with
a list of supported image sizes
4.3. Example 3
In this example is defined a complete SDP offer for the video media
part
----
m=video 49154 RTP/AVP 99
a=rtpmap:99 H264/90000
a=fmtp:99 packetization-mode=0;profile-level-id=42e011; \
sprop-parameter-sets=Z0LgC5ZUCg/I,aM4BrFSAa
a=imageattr:99 \
send [x=176,y=144] [x=224,y=176] [x=272,y=224] [x=320,y=240] \
recv [x=176,y=144] [x=224,y=176] [x=272,y=224,q=0.6] [x=320,y=240]
----
In the send direction, sprop-parameter-sets is defined for a
resolution of 320x240 which is the largest image size offered in the
send direction. This means that if 320x240 is selected, no
additional offer/answer is necessary. In the receive direction four
alternative image sizes are offered with 272x224 being the preferred
choice.
The answer may look like:
----
m=video 49154 RTP/AVPF 99
a=rtpmap:99 H264/90000
a=fmtp:99 packetization-mode=0;profile-level-id=42e011; \
sprop-parameter-sets=Z0LgC5ZUCg/I,aM4BrFSAa
a=imageattr:99 send [x=320,y=240] recv [x=320,y=240]
----
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Indicating (in this example) that the image size is 320x240 in both
directions. Although the offerer preferred 272x224 for the receive
direction, the answerer might not be able to offer 272x224 or not
allow encoding and decoding of video of different image sizes
simultaneously. The answerer sets new sprop-parameter-sets,
constructed for both send and receive directions at the restricted
conditions and image size of 320x240.
4.4. Example 4
This example illustrates in more detail how compensation for
different sample aspect ratios can be negotiated with the image
attribute.
We setup a session between Alice and Bob, Alice is the offerer of the
session. The offer (from Alice) contains the image attribute below:
----
a=imageattr:97 \
send [sar=[1.0-1.3],x=400:16:800],y=[320:16:640],par=[1.2-1.3]] \
recv [sar=1.1,x=800,y=600]
----
First we consider the recv direction: The offerer (Alice) explicitly
states that she wish to receive the screen resolution 800x600,
however she also indicates that the screen on her display does not
use square pixels, the sar value=1.1 means that Bob must (preferably)
compensate for this. So.. If Bob's video camera produces square
pixels, and wish to satisfy Alice's sar requirement, the image
processing algorithm must rescale a 880x600 pixel image (880=800*1.1)
to 800x600 pixels (could be done other ways).
... and now the send direction: Alice indicates that she can (in the
image processing algorithms) rescale the image for sample aspect
ratios in the range 1.0 to 1.3. She can also provide with a number
of different image sizes (in pixels) ranging from 400x320 to 800x640.
Bob inspects the offered sar and image sizes and responds with the
modified image attribute
----
a=imageattr:97 \
recv [sar=1.15,x=464,y=384] \
send [sar=1.1,x=800,y=600]
----
Alice will, in order to satisfy Bob's request, need to rescale the
image from her video camera from 534x384 (534=464*1.15) to 464x384.
Neither part is required to rescale like this (sar MAY be ignored),
the consequence will of course be a distorted image.
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5. IANA Considerations
Following the guidelines in [RFC4566], the IANA is requested to
register one new SDP attribute:
o Contact name, email address and telephone number: Authors of
RFCXXXX
o Attribute-name: imageattr
o Type of attribute: media-level
o Subject to charset: no
This attribute defines the ability to negotiate various image
attributes such as image sizes. The attribute contains a number of
parameters which can be modified in and offer/answer exchange.
Note to RFC Editor: please replace "RFC XXXX" above with the RFC
number of this memo, and remove this note.
6. Security Considerations
This draft does not add any additional security issues other than
those already existing with currently specified offer/answer
procedures.
7. Acknowledgements
The authors would like to thank the people who has contributed with
objections and suggestions to this draft and provided with valuable
guidance in the amazing video-coding world. Special thanks go to
Clinton Priddle, Roni Even, Randell Jesup, and Dan Wing.
8. Changes
The main changes are:
From WG -02 to WG -03
* Partial update based on review comments from Jean-Francois Mule
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From WG -01 to WG -02
* Added extra example that highlights the negotiation of sar
From WG -00 to WG -01
* Added info about future addition of parameters and backwards
compatibility
* Added IANA considerations
From individual -02 to WG -00
* Cleanup of syntax, ABNF form
* Additional example
From -01 to -02
* Cleanup of the sar and par parameters to make them match the
established conventions
* Requirement specification added
* New bidirectional syntax
* Interoperability considerations with well known video codecs
discussed
9. References
9.1. Informative References
[GROUPING]
IETF, "The SDP Grouping Framework, http://tools.ietf.org/
html/draft-ietf-mmusic-rfc3388bis-03".
[H.264] ITU-T, "ITU-T Recommendation H.264,
http://www.itu.int/rec/T-REC-H.264-200711-I/en".
[RFC3016] Kikuchi, Y., Nomura, T., Fukunaga, S., Matsui, Y., and H.
Kimata, "RTP Payload Format for MPEG-4 Audio/Visual
Streams", RFC 3016, November 2000.
[RFC3264] Rosenberg, J. and H. Schulzrinne, "An Offer/Answer Model
with Session Description Protocol (SDP)", RFC 3264,
June 2002.
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[RFC3984] Wenger, S., Hannuksela, M., Stockhammer, T., Westerlund,
M., and D. Singer, "RTP Payload Format for H.264 Video",
RFC 3984, February 2005.
[RFC3984bis]
IETF, "RTP Payload Format for H.264 Video, http://
tools.ietf.org/wg/avt/draft-ietf-avt-rtp-rfc3984bis/".
[RFC4234] Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax
Specifications: ABNF", RFC 4234, October 2005.
[RFC4566] Handley, M., Jacobson, V., and C. Perkins, "SDP: Session
Description Protocol", RFC 4566, July 2006.
[RFC4587] Even, R., "RTP Payload Format for H.261 Video Streams",
RFC 4587, August 2006.
[RFC4629] Ott, H., Bormann, C., Sullivan, G., Wenger, S., and R.
Even, "RTP Payload Format for ITU-T Rec", RFC 4629,
January 2007.
[RFC5583] Schierl, T. and S. Wenger, "Signaling Media Decoding
Dependency in the Session Description Protocol (SDP)",
RFC 5583, July 2009.
[S4-080144]
3GPP, "Signaling of Image Size: Combining Flexibility and
Low Cost, http://www.3gpp.org/ftp/tsg_sa/WG4_CODEC/
TSGS4_48/Docs/S4-080144.zip".
[SDPCapNeg]
IETF, "SDP Capability Negotiation, http://tools.ietf.org/
wg/mmusic/draft-ietf-mmusic-sdp-capability-negotiation".
[SDPMedCapNeg]
IETF, "SDP media capabilities Negotiation, http://
tools.ietf.org/wg/mmusic/
draft-ietf-mmusic-sdp-media-capabilities".
9.2. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
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Authors' Addresses
Ingemar Johansson
Ericsson AB
Laboratoriegrand 11
SE-971 28 Lulea_
SWEDEN
Phone: +46 73 0783289
Email: ingemar.s.johansson@ericsson.com
Kyunghun Jung
Samsung Electronics Co., Ltd.
Dong Suwon P.O. Box 105
416, Maetan-3Dong, Yeongtong-gu
Suwon-city, Gyeonggi-do
Korea 442-600
Phone: +82 10 9909 4743
Email: kyunghun.jung@samsung.com
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