ISO/IEC 15444-3:2002/Amd 2:2003

INTERNATIONAL ISO/IEC
STANDARD 15444-3
First edition
2002-09-01
AMENDMENT 2
2003-12-01


Information technology — JPEG 2000
image coding system —
Part 3:
Motion JPEG 2000
AMENDMENT 2: Motion JPEG 2000
derived from ISO base media file format
Technologies de l'information — Système de codage d'image JPEG
2000 —
Partie 3: Motion JPEG 2000
AMENDEMENT 2: Motion JPEG 2000 dérivée du format de fichier de
média de base de l'ISO




Reference number
ISO/IEC 15444-3:2002/Amd.2:2003(E)
©
ISO/IEC 2003

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ISO/IEC 15444-3:2002/Amd.2:2003(E)
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ISO/IEC 15444-3:2002/Amd.2:2003(E)
Contents Page
Foreword. iv
Introduction . v
1 Scope. 1
2 Normative references . 1
3 Terms and definitions. 1
4 Compatibility and Technology derivation . 2
4.1 Family Members . 2
4.2 ISO Media file Inheritance and Compatibility. 2
4.3 JP2 Inheritance and Compatibility . 2
4.4 Conformance . 2
4.5 Profiles and Levels . 3
4.6 Visual Composition. 3
4.7 Box Order. 5
5 File Identification. 5
6 Required Additions. 5
6.1 Sample Description Box. 5
7 Template Fields Used . 7
Annex A (normative) File and Codestream profiles. 9
A.1 Profile Introduction . 9
A.2 Motion JPEG 2000 Simple Profile. 9
Annex B (informative) Guidelines for use of the JPEG 2000 Codec . 10
B.1 Introduction . 10
B.2 Frequency Weighting for Motion Sequences. 10
B.3 Encoder sub-sampling of components . 11
Annex C (informative) Indicating Sub-sampling Chroma Offset . 12
Annex D (informative) Field Structures for Interlace . 14
Bibliography . 17

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ISO/IEC 15444-3:2002/Amd.2:2003(E)
Foreword
ISO (the International Organization for Standardization) and IEC (the International Electrotechnical
Commission) form the specialized system for worldwide standardization. National bodies that are members of
ISO or IEC participate in the development of International Standards through technical committees
established by the respective organization to deal with particular fields of technical activity. ISO and IEC
technical committees collaborate in fields of mutual interest. Other international organizations, governmental
and non-governmental, in liaison with ISO and IEC, also take part in the work. In the field of information
technology, ISO and IEC have established a joint technical committee, ISO/IEC JTC 1.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of the joint technical committee is to prepare International Standards. Draft International
Standards adopted by the joint technical committee are circulated to national bodies for voting. Publication as
an International Standard requires approval by at least 75 % of the national bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO and IEC shall not be held responsible for identifying any or all such patent rights.
Amendment 2 to ISO/IEC 15444-3:2002 was prepared by Joint Technical Committee ISO/IEC JTC 1,
Information technology, Subcommittee SC 29, Coding of audio, picture, multimedia and hypermedia
information.
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ISO/IEC 15444-3:2002/Amd.2:2003(E)
Introduction
This document is the consequent revision of the Motion JPEG 2000 specification, based on the common text
of the MP4 and MJ2 formats, which is called the ISO Base Media File Format; it will be consolidated
subsequently into a new edition of ISO/IEC 15444-3:2002.

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ISO/IEC 15444-3:2002/Amd.2:2003(E)

Information technology — JPEG 2000 image coding system —
Part 3:
Motion JPEG 2000
AMENDMENT 2: Motion JPEG 2000 derived from ISO base media
file format
1 Scope
This Amendment specifies the use of the wavelet-based JPEG 2000 codec for the coding and display of timed
sequences of images (motion sequences), possibly combined with audio, and composed into an overall
presentation. In this specification, a file format is defined, and guidelines for the use of the JPEG 2000 codec
for motion sequences are supplied.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO 639-2:1998, Codes for the representation of names of languages — Part 2: Alpha-3 code
ISO/IEC 14496-1:2001, Information technology — Coding of audio-visual objects — Part 1: Systems
[particularly the syntax description language (SDL), clause 14]
ISO/IEC 15444-12, Information technology — JPEG 2000 image coding system — Part 12: ISO base media
file format (technically identical to ISO/IEC 14496-12)
ITU-T Rec.T.800 | ISO/IEC 15444-1, Information technology — JPEG 2000 image coding system: Core
coding system
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
motion sequence
timed sequence of JPEG 2000 images
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ISO/IEC 15444-3:2002/Amd.2:2003(E)
4 Compatibility and Technology derivation
4.1 Family Members
This is a stand-alone specification; it defines the file format for MJ2. However, it stands as a member of a
family of specifications with common formatting.
The other family members include:
• The JPEG 2000 single image format, JP2.
• The ISO Base Media File Format, on which the MP4 format is based.
• The QuickTime file format, on which the ISO Base Media format is based.
These specifications share a common definition for the structure of a file (a sequence of objects, called boxes
here and atoms in QuickTime), and a common definition of the general structure of an object (the size and
type).
All these specifications require that readers ignore objects that are unrecognizable to them.
This specification takes precedence over those from which it inherits, in any case where there are differences
or conflicts; however no such conflicts are known to exist.
4.2 ISO Media file Inheritance and Compatibility
The Motion JPEG 2000 file format is defined as derived from the ISO Base Media file format. Notwithstanding
anything in that base specification, hint tracks are not a normative part of this specification. Sections 7
(Streaming Support) and 10 (RTP Hint Track Format), though compatible with this specification, do not form
normative parts of this specification. They may be used as a compatible, optional, extension, but are not
required for compatibility with this specification. There may be license implications in the use of this or other
compatible extensions to this format.
4.3 JP2 Inheritance and Compatibility
The still image format, JP2, defines a number of boxes. The signature box from that specification shall be
present. If the JP2 specification requires a particular position (e.g. first in the file), that positioning shall be
followed here.
It is permissible under this specification to make a file that adheres to both this specification and the JP2
specification. In that case:
1) The compatibility list shall include all the compatible brands.
2) The objects (boxes or atoms) required by the JP2 specification shall also be present.
3) The objects (boxes or atoms) optional in the JP2 specification may also be present.
A still image reader, reading a file which contains both a presentation (conformant to this specification) and a
still image, would 'see' only the still image. Likewise a motion reader would 'see' only the presentation. A
more powerful reader may display both, or offer the user a choice.
The JP2 specification includes an optional IPR (Intellectual Property Rights) box which is therefore also
optional in this specification. Among other issues this addresses unique identification and protection of content.
4.4 Conformance
Implementations of Motion JPEG 2000 decoders shall support JPEG 2000 image sequences, as well as raw
and twos-complement audio if audio output is available. They may also support compressed audio, using MP4
formats, or other track types from MPEG-4. The support of such MPEG-4 tracks is not required; however,
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ISO/IEC 15444-3:2002/Amd.2:2003(E)
readers shall not fail if they are present. If MPEG-4 composition (BIFS) is used, then the simple composition
used in this specification should also be set up in such a way that a reader not implementing BIFS will display
a suitable result.
Files conformant with this specification shall contain at least one Motion JPEG 2000 video track. They may
contain more video tracks, uncompressed audio, or compressed MP4 audio.
4.5 Profiles and Levels
There are two tools for profiling Motion JPEG 2000 files.
The first consists of the optional specification of tools and levels of the JPEG 2000 coding system
(codestream features). These are indicated in the optional sample description extension JP2 Profile Box (see
below 5).
The second tool allows a file overall to be identified as belonging to a definition which forms a proper subset of
the general specification. Such definitions might restrict such features as:
• the use of data references, and multiple files;
• the layout order of the boxes, and the data within the boxes (e.g. that data is in time order and
interleaved);
• the use of profiles of the JPEG 2000 codestream;
• the existence of other tracks, and their format (e.g. audio, MPEG-7, etc.).
The conformance to these restricted profiles is indicated in the file type box by the addition of the compatible
profiles as brands within the compatibility list. Annex A defines the available profiles in this specification.
4.6 Visual Composition
Composition of multiple image sequences in a 2D environment can be achieved by using multiple video tracks
which overlap in time. Their composition is defined by the following structures:
• The matrix in the track header specifies their positioning and scaling.
• The layer field in the track header specifies the front-to-back ordering of the tracks.
• The graphics mode and opcolor fields in the video media header are used to specify the ways in
which each track is composited onto the existing image (this compositing is performed from back to
front).
Applications requiring more complex compositing may use the BIFS system from MPEG-4, optionally. The
matrix, graphics mode, and layers should be setup so that a reader not implementing BIFS displays the
desired result. Matrix values which occur in the headers specify a transformation of video images for
presentation. The point (p,q) is transformed into (p', q') using the matrix as follows:
(p q 1) * | a b u | = (m n z)
| c d v |
| x y w |

m = ap + cq + x; n = bp + dq + y; z = up + vq + w;

p' = m/z; q' = n/z
The coordinates {p,q} are on the decompressed frame, and {p’, q’} are at the rendering output. Therefore, for
example, the matrix {2,0,0, 0,2,0, 0,0,1} exactly doubles the pixel dimension of an image. The co-ordinates
transformed by the matrix are not normalized in any way, and represent actual sample locations. Therefore
{x,y} can, for example, be considered a translation vector for the image.
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The co-ordinate origin is located at the upper left corner, and X values increase to the right, and Y values
increase downwards. {p,q} and {p’,q’} are to be taken as absolute pixel locations relative to the upper left hand
corner of the original image (after scaling to the size determined by the track header's width and height) and
the transformed (rendering) surface, respectively.
Each track is composed using its matrix as specified into an overall image; this is then transformed and
composed according to the matrix at the movie level in the MovieHeaderBox. It is application-dependent
whether the resulting image is ‘clipped’ to eliminate pixels, which have no display, to a vertical rectangular
region within a window, for example. So for example, if only one video track is displayed and it has a
translation to {20,30}, and a unity matrix is in the MovieHeaderBox, an application may choose not to display
the empty “L” shaped region between the image and the origin.
All the values in a matrix are stored as 16.16 fixed-point values, except for u, v and w, which are stored as
2.30 fixed-point values. For upwards compatibility into the MPEG-4 BIFS (scene composition) system,
matrices used here restrict (u,v,w) to be (0,0,1), for which the hex values are (0,0,0x40000000). This permits
the simple composition used here to be mapped into BIFS if a scene later requires full scene management.
The values in the matrix are stored in the order {a,b,u, c,d,v, x,y,w}.
Tracks are composed to the presentation surface from back (highest layer number) to front (lowest layer
number), against an indeterminate initial colour. There are various composition modes available; the
backmost (first-rendered) track would normally use 'copy' as the initial image is indeterminate. Subsequent
layers can then be composed on top in a variety of ways. The following table details the composition modes
available. Note that (currently) only the 'transparent' mode uses the opcolor field.
Table 1 — Graphics Composition Modes
Mode Code Description
Copy 0x0 Copy the source image over the destination
Transparent 0x24 Replace the destination pixel with the source pixel if the source pixel
isn't equal to the opcolor. (Also known as 'blue-screen').
Alpha 0x100 Replace the destination pixel with a blend of the source and destination
pixels, with the proportion controlled by the alpha channel. The alpha
channel is applied to all channels.
Pre-multiplied 0x102 Pre-multiplied with black means that the colour components of each
black alpha pixel have already been blended with a black pixel, based on their
alpha channel value. Effectively, this means that the image has already
been combined with a black background, which must be removed
before composition.
Component 0x110 One or more alpha channels are present, which are applied to
alpha individual colour channels, and the image must be composed channel-
by-channel

Images are only alpha-composed if both the graphics composition mode requests alpha composition, and the
images contain alpha channels, as declared by the Channel Definition Box inside the JP2 Header Box.
Therefore the graphics mode can be used to prevent alpha composition of an image with alpha channels, if
that is desired.
If there is a single alpha channel applied to the entire image, then the value of the graphics must be ‘Alpha’ if
that channel is a straight ‘Opacity’ channel, and must be ‘Pre-multiplied black alpha’ if that channel is a ‘Pre-
multiplied’ opacity channel. If there are one or more alpha channels in the image which are applied to
individual channels and not to the whole image,
...