Intelligent transport systems — Traffic and travel information(TTI) via transport protocol experts group, generation 2 (TPEG2) — Part 6: Message management container (TPEG2-MMC)

This document adds a basic toolkit definition to the ISO 21219 series specifying the Message Management Container (MMC) which is used by all TPEG applications to provide information about the handling of messages on the TPEG client side. The MMC holds administrative information allowing a decoder to handle the message appropriately. This information is not aimed at the end user. The MMC is a toolkit and not a stand-alone application but is included by TPEG applications.

Systèmes intelligents de transport — Informations sur le trafic et le tourisme via le groupe expert du protocole de transport, génération 2 (TPEG2) — Partie 6: Conteneur de gestion de message (TPEG2-MMC)

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Status
Published
Publication Date
23-Jul-2019
Current Stage
6060 - International Standard published
Due Date
29-Feb-2020
Completion Date
24-Jul-2019
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INTERNATIONAL ISO
STANDARD 21219-6
First edition
2019-07
Intelligent transport systems —
Traffic and travel information(TTI)
via transport protocol experts group,
generation 2 (TPEG2) —
Part 6:
Message management container
(TPEG2-MMC)
Systèmes intelligents de transport — Informations sur le trafic et le
tourisme via le groupe expert du protocole de transport, génération 2
(TPEG2) —
Partie 6: Conteneur de gestion de message (TPEG2-MMC)
Reference number
ISO 21219-6:2019(E)
©
ISO 2019

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ISO 21219-6:2019(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2019
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting
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Published in Switzerland
ii © ISO 2019 – All rights reserved

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ISO 21219-6:2019(E)

Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Terms, definitions and abbreviated terms . 1
3.1 Terms and definitions . 1
3.2 Abbreviated terms . 2
4 MMC components and capabilities . 2
4.1 Overview . 2
4.1.1 Structure . 2
4.1.2 Capabilities . 2
4.1.3 Monolithic Message Management . 3
4.1.4 Multipart Message Management . 4
4.2 Lifecycle and identification of a TPEG message . 6
4.3 MMCTemplate . 6
4.4 MessageManagementContainer . 8
4.5 MMCMasterMessage . 8
4.6 MMCMessagePart . 8
5 MMC Datatypes . 9
5.1 MultiPartMessageDirectory . 9
6 MMC Tables. 9
6.1 mmc001:P artType . 9
6.2 mmc002:Updat eMode . 9
Annex A (normative) Management Container, MMC,TPEG-Binary Representation .11
Annex B (normative) Management Container, MMC, TPEG-ML Representation .14
Bibliography .21
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ISO 21219-6:2019(E)

Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www .iso .org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www .iso .org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO's adherence to the
World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT) see www .iso
.org/iso/foreword .html.
This document was prepared by Technical Committee ISO/TC 204, Intelligent transport systems.
This first edition cancels and replaces ISO/TS 21219-6:2015, which has been technically revised.
A list of all parts in the ISO 21219 series can be found on the ISO website.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www .iso .org/members .html.
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ISO 21219-6:2019(E)

Introduction
History
TPEG technology was originally proposed by the European Broadcasting Union (EBU) Broadcast
Management Committee, who established the B/TPEG project group in the autumn of 1997 with a brief
to develop, as soon as possible, a new protocol for broadcasting traffic and travel-related information
in the multimedia environment. TPEG technology, its applications and service features were designed
to enable travel-related messages to be coded, decoded, filtered and understood by humans (visually
and/or audibly in the user’s language) and by agent systems. Originally, a byte-oriented data stream
format, which may be carried on almost any digital bearer with an appropriate adaptation layer,
was developed. Hierarchically structured TPEG messages from service providers to end-users were
designed to transfer information from the service provider database to an end-user’s equipment.
One year later, in December 1998, the B/TPEG group produced its first EBU specifications. Two
documents were released. Part 2 (TPEG-SSF, which became ISO/TS 18234-2) described the syntax,
semantics and framing structure, which was used for all TPEG applications. Meanwhile, Part 4 (TPEG-
RTM, which became ISO/TS 18234-4) described the first application for road traffic messages.
Subsequently, in March 1999, CEN/TC 278, in conjunction with ISO/TC 204, established a group
comprising members of the former EBU B/TPEG and this working group continued development work.
Further parts were developed to make the initial set of four parts, enabling the implementation of a
consistent service. Part 3 (TPEG-SNI, ISO/TS 18234-3) described the service and network information
application used by all service implementations to ensure appropriate referencing from one service
source to another.
Part 1 (TPEG-INV, ISO/TS 18234-1) completed the series by describing the other parts and their
relationship; it also contained the application IDs used within the other parts. Additionally, Part 5, the
public transport information application (TPEG-PTI, ISO/TS 18234-5), was developed. The so-called
TPEG-LOC location referencing method, which enabled both map-based TPEG-decoders and non-map-
based ones to deliver either map-based location referencing or human readable text information,
was issued as ISO/TS 18234-6 to be used in association with the other applications of parts of the
ISO/TS 18234 series to provide location referencing.
The ISO/TS 18234 series has become known as TPEG Generation 1.
TPEG Generation 2
When the Traveller Information Services Association (TISA), derived from former forums, was
inaugurated in December 2007, TPEG development was taken over by TISA and continued in the TPEG
applications working group.
It was about this time that the (then) new Unified Modelling Language (UML) was seen as having major
advantages for the development of new TPEG applications in communities who would not necessarily
have binary physical format skills required to extend the original TPEG TS work. It was also realized
that the XML format for TPEG described within the ISO/TS 24530 series (now superseded) had a greater
significance than previously foreseen, especially in the content-generation segment and that keeping
two physical formats in synchronism, in different standards series, would be rather difficult.
As a result, TISA set about the development of a new TPEG structure that would be UML-based. This has
subsequently become known as TPEG Generation 2.
TPEG2 is embodied in the ISO/TS 21219 series and it comprises many parts that cover introduction,
rules, toolkit and application components. TPEG2 is built around UML modelling and has a core of
rules that contain the modelling strategy covered in ISO 21219-2, ISO 21219-3 and ISO 21219-4 and
the conversion to two current physical formats: binary and XML; others could be added in the future.
TISA uses an automated tool to convert from the agreed UML model XMI file directly into an MS Word
document file, to minimize drafting errors, that forms the annex for each physical format.
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ISO 21219-6:2019(E)

TPEG2 has a three-container conceptual structure: message management (ISO 21219-6), application
(several parts) and location referencing (ISO/TS 21219-7). This structure has flexible capability and
can accommodate many differing use cases that have been proposed within the TTI sector and wider
for hierarchical message content.
TPEG2 also has many location referencing options as required by the service provider community, any
of which may be delivered by vectoring data included in the location referencing container.
The following classification provides a helpful grouping of the different TPEG2 parts according to their
intended purpose. Note that the list below may be incomplete, e.g. new TPEG2 parts may be introduced
after publication of this document.
— Toolkit parts: TPEG2-INV (ISO/TS 21219-1), TPEG2-UML (ISO 21219-2), TPEG2-UBCR (ISO 21219-3),
TPEG2-UXCR (ISO 21219-4), TPEG2-SFW (ISO 21219-5), TPEG2-MMC (ISO 21219-6), TPEG2-LRC
(ISO/TS 21219-7).
— Special applications: TPEG2-SNI (ISO/TS 21219-9), TPEG2-CAI (ISO/TS 21219-10), TPEG2-LTE
(ISO/TS 21219-24).
— Location referencing: TPEG2-OLR (ISO/TS 21219-22), TPEG2-GLR (ISO/TS 21219-21), TPEG2-TLR
(ISO 17572-2), TPEG2-DLR (ISO 17572-3).
— Applications: TPEG2-PKI (ISO/TS 21219-14), TPEG2-TEC (ISO/TS 21219-15), TPEG2-FPI
(ISO/TS 21219-16), TPEG2-TFP (ISO 21219-18), TPEG2-WEA (ISO/TS 21219-19), TPEG2-RMR
(ISO/TS 21219-23), TPEG2-EMI (ISO/TS 21219-25), TPEG2-VLI (ISO/TS 21219-26).
TPEG2 has been developed to be broadly (but not totally) backward compatible with TPEG1 to assist
in transitions from earlier implementations, while not hindering the TPEG2 innovative approach and
being able to support many new features, such as dealing with applications having both long-term,
unchanging content and highly dynamic content, such as parking information.
This document is based on the TISA specification technical/editorial version reference: SP10035.
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INTERNATIONAL STANDARD ISO 21219-6:2019(E)
Intelligent transport systems — Traffic and travel
information(TTI) via transport protocol experts group,
generation 2 (TPEG2) —
Part 6:
Message management container (TPEG2-MMC)
1 Scope
This document adds a basic toolkit definition to the ISO 21219 series specifying the Message
Management Container (MMC) which is used by all TPEG applications to provide information about the
handling of messages on the TPEG client side. The MMC holds administrative information allowing a
decoder to handle the message appropriately. This information is not aimed at the end user. The MMC is
a toolkit and not a stand-alone application but is included by TPEG applications.
2 Normative references
There are no normative references in this document.
3 Terms, definitions and abbreviated terms
3.1 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https: //www .iso .org/obp
— IEC Electropedia: available at http: //www .electropedia .org/
3.1.1
Message
unit of information that is controlled under a message ID and contains a MessageManagementContainer,
MMCMasterMessage or MMCMessagePart component
3.1.2
Monolithic Message Management
message management that allows versioning of messages by updating complete messages only
Note 1 to entry: See 4.1.3.
3.1.3
Multipart Message Management
message management that allows parts of messages being transmitted in packets independently
Note 1 to entry: See 4.1.4.
3.1.4
top level container
any component that is on the same level as the message management container
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ISO 21219-6:2019(E)

3.1.5
TPEG Server
device or entity on the sending side of the TPEG transmission chain
Note 1 to entry: May consist, e.g. of a TPEG encoder, a stream encoder, a network transmission unit.
3.1.6
TPEG Client
device or entity on the receiving side of the TPEG transmission chain
Note 1 to entry: May consist, e.g. of a broadcast receiver, a TPEG decoder unit.
3.2 Abbreviated terms
MMC Message Management Container
LRC Location Referencing Container
ADC Application Data Container
4 MMC components and capabilities
4.1 Overview
4.1.1 Structure
Figure 1 — Structure of the Message Management Container
4.1.2 Capabilities
Any TPEG message typically consists of the following top level containers (see also Figure 2 below):
— Exactly one Message Management Container (MMC);
— Optionally one or several Application Data Container(s) (ADC);
— Optionally one Location Reference Container (LRC).
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ISO 21219-6:2019(E)

The MMC contains no data dedicated for the user but only administrative information for the TPEG
decoder to handle the message appropriately.
While the ADC part is defined specifically by the related TPEG application specification, the TPEG MMC
toolkit is specified by this document for all TPEG applications. The general capabilities and features of
the MMC toolkit may be restricted or further detailed by the particular TPEG applications.
The MMC is always stereotyped as an ordered component and shall be the first component in the TPEG
Message. The other parts of the message may as well be stereotyped as “UnorderedComponent”.
Figure 2 — General structure of a TPEG message
The MMC toolkit includes two basic mechanisms for message management, the Monolithic Message
Management and Multipart Message Management, which are described in the following sub-clauses.
Both mechanisms exclude each other, i.e. for a given time there shall either be a message delivered
by Monolithic or by Multipart Message Management. Therefore, if a TPEG Client receives a monolithic
message and already has a multipart-combined message with the same messageID in its repository it
shall remove this message from its repository and shall replace it by the received monolithic message.
Conversely, a monolithic message shall be replaced by a new multipart-message as well.
4.1.3 Monolithic Message Management
The usage of monolithic message management enables the replacement of a complete TPEG message
by a more recent version of the same message. Thus, this message management method is suitable for
TPEG services where most parts of the message are changing during the message updates.
The monolithic message management applies the class ‘MessageManagementContainer’ only which
inherits all attributes from the parent class ‘MMCTemplate’ and adds no further ones. The replacement
process described above is signalled by using the same value of the attribute ‘messageID’ and an
increased value of the attribute ‘versionID’ (see Figure 3 below).
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ISO 21219-6:2019(E)

Figure 3 — Replacement of an overall message by Monolithic Message Management
In case of a cancellation, the messageID contained in the MMC indicates the previously received message
with the same messageID to be cancelled. If the messageID and versionID is identical to a previously
transmitted message this signals that all attached application content (i.e. all ADC and LRC components
transmitted in the message) is identical with the previously sent content. In that case a receiver does
not need to do a byte-by-byte content comparison of the ADC and LRC content, but nevertheless needs
to check the MMC content as that may differ (e.g. a different expiration time).
4.1.4 Multipart Message Management
Multipart Message Management enables the partial update of messages, i.e. it may be used to replace
dedicated parts of a message version by version, while other parts remain unchanged. Thus, this
method is suitable in particular for TPEG applications where large parts of the message content are
static or quasi-static (see also 4.5 and 4.6).
The Multipart Message Management applies the classes ‘MMCMasterMessage’ and ‘MMCMessagePart’
(see 4.1.1). Additional to the attributes inherited from the parent class ‘MMCTemplate’,
the ‘MMCMasterMessage’ container includes a list with the partial messages (attribute
‘multiPartMessageDirectory’) which shall list all partial messages of the overall/combined message.
The master-message shall contain the ‘MMCMasterMessage’ container only and no ADC or LRC
information. The latter containers shall be included in the corresponding partial messages, which are
indicated by the ‘MMCMessagePart’ type MMC.
The master message and each of the related partial messages shall have the same ‘messageID’ but
shall have an independent versioning, i.e. all parts can have a different ‘versionID’ and the value of this
attribute refers to the related message part. Therefore, the TPEG Client has to store the ‘versionID’
of the most recently received version of each partial message to manage the partial updates of the
messages. In particular, the stored combined message shall be updated by a received partial message
only if the ‘versionID’ of the partial message is more recent than the stored ‘versionID’ of the same
partial message.
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ISO 21219-6:2019(E)

If the content of the multiPartMessageDirectory has been modified, i.e. the version ID of the
'MMCMasterMessage' is changed, all related partial messages sent before are not valid anymore. A
TPEG Client shall then rebuild the message completely by receiving the up-to-date partial messages.
Currently, there is one update feature (‘replaceTopLevel’) defined for partial messages which is
signalled by the ‘updateMode’ attribute of the ‘MMCMessagePart’ component. Other update modes may
be added in future versions.
4.1.4.1 Update mode ‘replaceTopLevel’
This feature may be used to replace or add components in the combined message by the components
transmitted by the partial message. The components included by the partial message shall be a sub-tree
of the overall message structure, starting with one of the ADC or LDC components as root component.
This means that the partial message will update the Application Data or Location Referencing
Containers and its related sub-components. Therefore, this feature is an enhancement of the monolithic
message management where only an overall message can be replaced/added.
If one or several of the components contained in the partial message are present in the so far stored
combined message, these components shall be replaced. If one or several of the components contained
in the partial message are not yet present in the so far stored combined message these components
shall be added to the combined message.
As only complete components are added/replaced, each of the components contained in the partial
message shall include all attributes which are intended to be part of the combined message.
If a combined message contains more than one component of the same component type at a given
position within the message structure, all these components shall be replaced by the one(s) contained in
the partial message. In particular an array of components (multiplicity [0.*] or [1.*]) shall be replaced
completely by the updating message.
Figure 4 — Example addition/replacement of top level containers by partial messages
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ISO 21219-6:2019(E)

4.2 Lifecycle and identification of a TPEG message
TPEG messages or partial messages have the following life-cycle stages which are signalled by the value
of the attribute ‘versionID’ (see also attribute definition in 4.3):
— First transmission: The value of ‘versionID’ should be 0.
— Message Updates: When the content of a message is updated, i.e. the ADC and/or LRC parts are
changing, the versionID value shall be incremented for each new version. This increment should
be 1. If the value exceeds 255 it shall be set to a value <255 (wrap around); This value should be 0. In
the case of wrap around, the TPEG Server shall ensure that the last usage of the messageExpiryTime
for a message with that versionID has expired, before the wrap around appears.
— Cancellation: When a message is not valid anymore the TPEG Server may send a cancellation
message with the corresponding ‘messageID’ value of the message. A cancellation shall result in an
incremented versionID with respect to the message it cancels as a cancellation indicates a change in
content. The usage of the message cancellation shall be detailed by the particular TPEG application
specifications.
— Message expiration: If the current time has progressed beyond the messageExpiryTime of the last
received version of the message, the message shall be considered as invalid and not be presented to
the user anymore. Message expiration shall be supported both by the client and the server side.
The ‘messageID’ shall be unique within a dedicated TPEG Service Component. The latter is identified
worldwide uniquely by its Application and Content Identification (ACID) which is formed by the TPEG
ServiceID, the Content Identification (COID) and Application Identification (AID) as described in the SNI
specification (see ISO/TS 18234-3).
A TPEG Client shall not rely on the uniqueness of the messageID and versionID once a message is
expired. A TPEG Client shall not rely on the versionID to be incremented by 1 as, e.g. message updates
may be lost during transmission.
4.3 MMCTemplate
The abstract component MMCTemplate provides basic attributes for the child components
MessageManagementContainer, MMCMasterMessage and MMCMessagePart (see the following
subclauses). Applications shall not reference the MMCTemplate component, but one or several of the
derived components instead.
Name Type Multiplicity Description
messageID IntUnLoMB 1 Unique identifier for a message relating
to a particular event transmitted in a
particular TPEG service component.
versionID IntUnTi 1 Serial number that distinguishes suc-
cessive versions of one message in case
of message updates. The versionID
numbers shall be used incrementally,
enabling to track the update progress
of a message from first transmission,
through updates to cancellation. Wrap
around is applied, i.e. the versionID fol-
lowing 255 shall be set to a value <255.
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ISO 21219-6:2019(E)

Name Type Multiplicity Description
The versionID shall change every
time the content of a message change.
Changes of the message management
container only shall not cause a change
of the versionID. If for example only the
message expiry time in the message
management container is changed, the
versionID remains unchanged.
To avoid ambiguous situations when a
wraparound occurs, the following two
rules apply:
— Not more than one version of a
message shall be on air in a service
component at the same time within a
service with identical service ID.
— The message expiry time shall be
set in an appropriate way.
If a message with the same messageID,
but a lower version number is received,
a wraparound has occurred if the ex-
piry time of the last received message
is later.
messageExpiryTime DateTime 1 If the current time is later than the
messageExpiryTime, the message
shall be considered as invalid and the
TPEG Client device shall therefore not
present it to the user anymore. When
the validity of the message contents
for the user is to be maintained, the
TPEG Server shall send the message,
or a newer version thereof before the
message expires. Expiry times are
transmission specific and may differ
dependent on the particular transmis-
sion conditions.
cancelFlag Boolean 1 This flag shall be set (true), if a message,
identified by its messageID, is no longer
valid and has to be removed in the client
device. The message body of messages
with a set cancelFlag shall be empty.
messageGenerationTime DateTime 0.1 Date and time when the message was
inserted into the delivery channel. Mes-
sage generation time provides a system
diagnostic tool to determine delays
in the transmission chain. End-user
devices should ignore this value.
Priority typ007: Priority 0.1 Messages with higher priority should
be decoded or processed prior to other
messages if resources in the client
device are limited. This is a relative
indicator only; it is not directly related
to the priority of the content. For
example, a new message might have a
higher priority than another one with
sim
...

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