Intelligent Transport Systems (ITS); Communications Access for Land Mobiles (CALM); Test specifications for Access Technology Support (ISO 21218); Part 2: Test Suite Structure and Test Purposes (TSS & TP)

RTS/ITS-00263

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Status
Published
Publication Date
17-Jun-2014
Current Stage
12 - Completion
Due Date
16-Jul-2014
Completion Date
18-Jun-2014
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ETSI TS 102 760-2 V1.2.1 (2014-06) - Intelligent Transport Systems (ITS); Communications Access for Land Mobiles (CALM); Test specifications for Access Technology Support (ISO 21218); Part 2: Test Suite Structure and Test Purposes (TSS & TP)
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ETSI TS 102 760-2 V1.2.1 (2014-06)






Technical Specification
Intelligent Transport Systems (ITS);
Communications Access for Land Mobiles (CALM);
Test specifications for Access Technology Support
(ISO 21218);
Part 2: Test Suite Structure and Test Purposes (TSS & TP)

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2 ETSI TS 102 760-2 V1.2.1 (2014-06)



Reference
RTS/ITS-00263
Keywords
CALM, ITS, testing, TSS&TP
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3 ETSI TS 102 760-2 V1.2.1 (2014-06)
Contents
Intellectual Property Rights . 4
Foreword . 4
Modal verbs terminology . 4
Introduction . 4
1 Scope . 7
2 References . 7
2.1 Normative references . 7
2.2 Informative references . 7
3 Definitions and abbreviations . 8
3.1 Definitions . 8
3.2 Abbreviations . 8
4 Test suite architecture . 8
5 TP basics . 9
5.1 TP definition conventions . 9
5.2 TP identifier naming conventions . 9
6 Test purposes . 12
6.1 CI state transitions . 12
6.1.1 Valid behaviour tests . 12
6.1.2 Invalid behaviour tests . 21
6.2 MIB parameters . 22
6.2.1 Valid behaviour tests . 22
6.2.2 Invalid behaviour tests . 23
6.3 Handling of CIs . 24
6.3.1 Valid behaviour tests . 24
6.3.2 Invalid behaviour tests . 25
6.4 Handling of data plane . 26
6.4.1 Valid behaviour tests . 26
6.4.2 Invalid behaviour tests . 32
History . 33

ETSI

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4 ETSI TS 102 760-2 V1.2.1 (2014-06)
Intellectual Property Rights
IPRs essential or potentially essential to the present document may have been declared to ETSI. The information
pertaining to these essential IPRs, if any, is publicly available for ETSI members and non-members, and can be found
in ETSI SR 000 314: "Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in
respect of ETSI standards", which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web
server (http://ipr.etsi.org).
Pursuant to the ETSI IPR Policy, no investigation, including IPR searches, has been carried out by ETSI. No guarantee
can be given as to the existence of other IPRs not referenced in ETSI SR 000 314 (or the updates on the ETSI Web
server) which are, or may be, or may become, essential to the present document.
Foreword
This Technical Specification (TS) has been produced by ETSI Technical Committee Intelligent Transport Systems
(ITS).
The present document is part 2 of a multi-part deliverable covering the test specifications for ITS access technology
support (service access points and related procedures) ISO 21218 [1] as identified below:
Part 1: "Implementation Conformance Statement (ICS) proforma";
Part 2: "Test Suite Structure and Test Purposes (TSS & TP)";
Part 3: "Abstract Test Suite (ATS) and partial PIXIT proforma".
Modal verbs terminology
In the present document "shall", "shall not", "should", "should not", "may", "may not", "need", "need not", "will",
"will not", "can" and "cannot" are to be interpreted as described in clause 3.2 of the ETSI Drafting Rules (Verbal forms
for the expression of provisions).
"must" and "must not" are NOT allowed in ETSI deliverables except when used in direct citation.
Introduction
Communications for Intelligent Transport Systems (ITS) is standardized at ISO TC204 WG16 under the acronym
CALM (Communications Access for Land Mobiles). The communications architecture of ITS and cooperative ITS and
the concept of an ITS station (ITS-S) as a "Bounded Secured Managed Domain" (BSMD) are specified in
ISO 21217 [i.1]. The ITS-S architecture is based on the OSI model as illustrated in figure 1.
An implementation of a BSMD is named an "ITS station unit" (ITS-SU), or more precisely a "Bounded Secured
Managed Entity" (BSME), which may consist of one or several physical units named "ITS station communication units"
(ITS-SCU). ITS-SCUs are interconnected via the ITS station-internal network specified in ISO 21217 [i.1].
ETSI

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5 ETSI TS 102 760-2 V1.2.1 (2014-06)

Figure 1: Simplified ITS station reference architecture
The OSI protocol layers of an ITS-S are grouped as shown in figure 1:
• The ITS-S access layer contains OSI layers 1 and 2, using the MI-interface towards the ITS-S management
entity and the SI-interface towards the ITS-S security entity, and providing the IN-interface towards the ITS-S
networking & transport layer.
• The ITS-S networking & transport layer contains OSI layers 3 and 4, using the MN-interface towards the
ITS-S management entity, the SN-interface towards the ITS-S security entity, the IN-interface towards the
ITS-S access layer, and providing the NF-interface towards the ITS-S facilities layer.
• The ITS-S facilities layer contains OSI layers 5, 6 and 7, using the MF-interface towards the ITS-S
management entity, the SF-interface towards the ITS-S security entity and the NF-interface towards the ITS-S
networking & transport layer.
There are further interfaces not presented in the simplified view of figure 1, i.e. the interfaces towards "Applications",
which will be provided in an implementation by means of the API illustrated in figure 1.
The MI-interface, the MN-interface, the MF-interface, the SI-interface, the SN-interface, the SF-interface are specified
in ISO 24102-3 [3] as service access points (SAPs). The IN-interface is described as an SAP in ISO 21218 [1].
In a distributed implementation of an ITS-S, management commands are exchanged between the ITS-SCUs by means
of the "ITS station-internal management communications protocol" (IICP) specified in ISO 24102-4 [i.3]. Such
management commands directly may carry functions of service primitives of SAPs to which they are addressed. By
this, functions of the service primitives become observable as PDUs and thus testable. Consequently the present
document indirectly provides also the foundations for testing functions of service primitives, but not the service
primitives themselves.
The functionality of "ITS station-internal management communications" may be used to provide the upper tester access
in the SUT as specified in ISO 24102-3 [3] and ETSI EG 202 798 [i.2] and in the present document.
Details of the ITS-S access layer, which are subject of the present document are illustrated in figure 2.
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6 ETSI TS 102 760-2 V1.2.1 (2014-06)

Figure 2: Illustration of the ITS-S access layer

ETSI

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7 ETSI TS 102 760-2 V1.2.1 (2014-06)
1 Scope
The present document provides the test suite structure and test purposes (TSS & TP) specification for the protocols
specified in ISO 21218 [1] in compliance with the relevant requirements, and in accordance with the relevant guidance
given in ETSI TS 102 760-1 [2] and in ETSI EG 202 798 [i.2].
NOTE: ISO 21218 [1] cannot be tested without being applied to a specific CALM-compliant communication
interface (CI). Conformance with ISO 21218 [1] thus always is restricted to the CALM-compliant CI
declared in the ICS proforma ETSI TS 102 760-1 [2].
2 References
References are either specific (identified by date of publication and/or edition number or version number) or
non-specific. For specific references, only the cited version applies. For non-specific references, the latest version of the
reference document (including any amendments) applies.
Referenced documents which are not found to be publicly available in the expected location might be found at
http://docbox.etsi.org/Reference.
NOTE: While any hyperlinks included in this clause were valid at the time of publication, ETSI cannot guarantee
their long term validity.
2.1 Normative references
The following referenced documents are necessary for the application of the present document.
[1] ISO 21218: "Intelligent Transport Systems - Communications access for land mobiles (CALM) -
Access technology support".
[2] ETSI TS 102 760-1: "Intelligent Transport Systems (ITS); Communications Access for Land
Mobiles (CALM); Test specifications for Access Technology Support (ISO 21218);
Part 1: Implementation Conformance Statement (ICS) proforma".
[3] ISO 24102-3: "Intelligent Transport Systems - Communications access for land mobiles (CALM) -
ITS station management - Part 3: Service access points".
2.2 Informative references
The following referenced documents are not necessary for the application of the present document but they assist the
user with regard to a particular subject area.
[i.1] ISO 21217:2014: "Intelligent Transport Systems - Communications access for land mobiles
(CALM) - Architecture".
[i.2] ETSI EG 202 798: "Intelligent Transport Systems (ITS); Testing; Framework for conformance and
interoperability testing".
[i.3] ISO 24102-4:2013: "Intelligent Transport Systems - Communications access for land mobiles
(CALM) - ITS station management - Part 4: Station-internal management communication".
[i.4] ETSI TS 102 760-3: "Intelligent Transport Systems (ITS); Communications Access for Land
Mobiles (CALM); Test specifications for Access Technology Support (ISO 21218);
Part 3: Abstract Test Suite (ATS) and partial PIXIT proforma".
ETSI

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8 ETSI TS 102 760-2 V1.2.1 (2014-06)
3 Definitions and abbreviations
3.1 Definitions
For the purposes of the present document, the terms and definitions given in ISO 21218 [1], ISO 21217 [i.1],
ISO 24102-3 [3], ISO 24102-4 [i.3], ETSI TS 102 760-1 [2] and ETSI EG 202 798 [i.2] apply.
3.2 Abbreviations
For the purposes of the present document, the abbreviations given in ISO 21218 [1], ISO 21217 [i.1], ISO 24102-3 [3],
ISO 24102-4 [i.3], ETSI TS 102 760 1 [2] and ETSI EG 202 798 [i.2] apply.
4 Test suite architecture
ISO 21218 [1] cannot be tested without being applied to a specific communication interface (CI) specified in
ISO 21217 [i.1]. Thus the test architecture presented in figure 3 shows also the OSI communication layers PHY and
DLL which are below the "Communication Adaptation Layer" (CAL), both in the system under test (SUT) and in the
ITS lower layers of the ITS test system.
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Figure 3: Test architecture
The IUT is connected via three points of control and observation (PCO) with the TTCN-3 test components:
• "PCO IN-SAP", providing access to the IN-SAP of the IUT;
• "PCO MI-SAP", providing access to the MI-SAP of the IUT;
• "PCO Link", the communication link.
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9 ETSI TS 102 760-2 V1.2.1 (2014-06)
Access to the MI-SAP and IN-SAP beneficially may be provided with the "ITS station-internal management
communications protocol" (IICP) specified in ISO 24102-4 [i.3] as specified in ETSI TS 102 760-3 [i.4]. Alternative
approaches for the upper tester access specified in ETSI EG 202 798 [i.2] also are possible.
NOTE: Not using IICP to access IM-SAP and MI-SAP may cause extra cost to the applicant in order to adapt the
SUT to the test environment in a test house.
A SUT may contain several CIs. However in a given test at a given time, only a single of them together with the
functionality of ISO 21218 [1] shall constitute the IUT. Testing of a SUT containing several CIs thus requires repetition
of the tests for all CIs contained in the SUT.
Tests for a configuration with several active CIs in a single SUT are not considered in the present document.
5 TP basics
5.1 TP definition conventions
The TP definition is built according to the guidelines provided in the ITS testing framework ETSI EG 202 798 [i.2],
applying a formalized language with pre-defined keywords for the behaviour description.
5.2 TP identifier naming conventions
The identifier of the TP is built according to table 1 as recommended in the ITS testing framework ETSI
EG 202 798 [i.2].
Table 1: TP naming convention
TP///
group = Group of tests SE State event transitions
MB MIB I-Parameters
HC Handling of CIs
DP Handling of data plane
x = Type of testing BV Valid Behaviour Tests
BI Invalid Behaviour Tests
= sequential number >0 Test Purpose Number, 01 . 99

5.3 Rules for behaviour description
The description of the TP is built according to the guidelines provided in the ITS testing framework ETSI
EG 202 798 [i.2].
5.4 Sources of TP definitions
All TPs are specified according to ISO 21218 [1].
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10 ETSI TS 102 760-2 V1.2.1 (2014-06)
5.5 TP proforma
ETSI EG 202 798 [i.2] proposes a TP proforma which is used in the present document. The fields of this proforma as
used in the present document are explained in table 1.
Table 1: TP proforma field description
TP Header
TP ID The TP ID is a unique identifier according to the TP naming conventions in table 1.
Test objective Short description of test purpose objective according to the requirements from the base
standard.
Reference The reference indicates the clauses of the reference standard specifications in which the
conformance requirement is expressed.
PICS selection Reference to the PICS statement involved for selection of the TP. Contains a Boolean
expression. May contain PICS acronyms specified in table 2.
This section is only used in case an optional or conditional behaviour needs to be
selected. Mandatory behaviour is not identified here.
TP Behaviour
Initial conditions The initial conditions define in which initial state the IUT has to be to apply the actual TP.
(optional) In the corresponding "Test Case" (TC), when the execution of the initial condition does
not succeed, it leads to the assignment of an Inconclusive verdict.
Expected behaviour
Definition of the events, which are parts of the TP objective, the IUT is expected to
(TP body) perform in order to conform to the base specification. In the corresponding Test
Case,"Pass" or "Fail" verdicts can be assigned there.
Final conditions Definition of the events that the IUT is expected to perform or shall not perform,
(optional) according to the base standard and following the correct execution of the actions in the
expected behaviour above. In the corresponding Test Case, the execution of the final
conditions is evaluated for the assignment of the final verdict.

The following initial conditions shall apply for all TPs, if not defined differently in a specific TP:
• The Link-ID of all CIs not being in the CI state "not_existent" and of all existent VCIs shall be known to the
ITS test system, see figure 3.
• The MIB of the CI / VCI shall contain default values except for the I-Parameters ISO 21218 [1] listed below.
- "MinimumUserPriority" shall be set to zero if not requested differently.
Additional initial conditions may apply for specific TPs.
According to ISO 24102-3 [3], the service primitives COMMAND.confirm and REQUEST.confirm shall be present in
case of an error and may be omitted otherwise. The optional presence of confirm service primitives with ErrStatus
indicating success are not explicitly included in the TPs, but will have to be considered in the abstract test suite, i.e. in
part 3 [i.4] of this multi-part deliverable.
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11 ETSI TS 102 760-2 V1.2.1 (2014-06)
5.6 PICS mnemonics
The PICS mnemonics presented in table 2 are used in the TP proforma.
Table 2: PICS mnemonics
Mnemonic PICS item Explanation
PICS_ACT ETSI TS 102 760-1 [2] C.11/4
PICS_BCVCI ETSI TS 102 760-1 [2] C.8/1 IUTis supporting BC-VCI transmitter
PICS_CIAC1 ETSI TS 102 760-1 [2] C.6/1 IUT is of CI access class CIAC-1 (no user
authentication required, usage of CI is free
of charge)
PICS_CIAC2 ETSI TS 102 760-1 [2] C.6/2 IUT is of CI access class CIAC-2 (access
credentials required, usage of CI is subject
of a service charge)
PICS_CIAC3 ETSI TS 102 760-1 [2] C.6/3 IUT is of CI access class CIAC-3 (access
credentials required, usage of CI is free of
charge)
PICS_CIC_il1 ETSI TS 102 760-1 [2] C.5/6 IUT is of CI class CIC-il1 (non-deterministic
ITS station-internal network interface)
PICS_CIC_il2 ETSI TS 102 760-1 [2] C.5/7 IUT is of CI class CIC-il2 (deterministic ITS
station-internal network interface)
PICS_CIC_l1 ETSI TS 102 760-1 [2] C.5/1 IUT is of CI class CIC-l1 (multiple
simultaneous peer stations transceiver)
PICS_CIC_l2 ETSI TS 102 760-1 [2] C.5/2 IUT is of CI class CIC-l2 (single peer
station transceiver)
PICS_CIC_l3 ETSI TS 102 760-1 [2] C.5/3 IUT is of CI class CIC-l3 (groupcast
transmitter)
PICS_CIC_l4 ETSI TS 102 760-1 [2] C.5/4 IUT is of CI class CIC-l4 (broadcast
receiver only)
PICS_CIC_l5 ETSI TS 102 760-1 [2] C.5/5 IUT is of CI class CIC-l5 (CEN / Japanese
DSRC)
PICS_CONN ETSI TS 102 760-1 [2] C.11/7 IUT is supporting the connection procedure
PICS_CRCIP_I ETSI TS 102 760-1 [2] C.11/10 IUT is supporting the Cross-CI prioritization
- interferer procedure
PICS_CRCIP_V ETSI TS 102 760-1 [2] C.11/9 IUT is supporting the Cross-CI prioritization
- victim procedure
PICS_DISCONN ETSI TS 102 760-1 [2] C.11/8 IUT is supporting the disconnection
procedure
PICS_DYNREG ETSI TS 102 760-1 [2] C.1/1 Dynamic registration using the
standardized registration procedure
PICS_INACT ETSI TS 102 760-1 [2] C.11/3 IUT is supporting the inactivation procedure
PICS_INUDS ETSI TS 102 760-1 [2] C.12/2 IUT is supporting the IN-UNITDATA-
STATUS service
PICS_IPNO ETSI TS 102 760-1 [2] C.24 any selected IUT is supporting notification-only I-
I-Parameter Parameters
PICS_IPRO ETSI TS 102 760-1 [2] C.21 and C.22 any IUT is supporting read-only I-Parameters
selected I-Parameter
PICS_IPRW ETSI TS 102 760-1 [2] C.19 and C.20 any IUT is supporting read/write I-Parameters
selected I-Parameter
PICS_IPWO ETSI TS 102 760-1 [2] C.23 any selected IUT is supporting write-only I-Parameters
I-Parameter
PICS_MAC48 ETSI TS 102 760-1 [2] C.4/1 IUT uses 48 bit MAC addresses
PICS_MCVCI ETSI TS 102 760-1 [2] C.8/2 IUT is supporting MC-VCI transmitter
PICS_REJECT ETSI TS 102 760-1 [2] C.11/20 IUT is supporting rejection of DL-
UNITDATA.requests with user priority less
than given in parameter
"MinimumUserPriority"
PICS_RES ETSI TS 102 760-1 [2] C.11/6 IUT is supporting the resuming procedure
PICS_RIM ETSI TS 102 760-1 [2] C.11/12 IUT is supporting the Regulatory
Information Management procedure
PICS_SNAP ETSI TS 102 760-1 [2] C.13/1 IUT is supporting SNAP
PICS_SUSP ETSI TS 102 760-1 [2] C.11//5 IUT is supporting the suspension
procedure
PICS_UCVCI ETSI TS 102 760-1 [2] C.8/3 IUT is supporting UC-VCI (transmitter and
receiver)
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12 ETSI TS 102 760-2 V1.2.1 (2014-06)
Mnemonic PICS item Explanation
PICS_WAKEUP ETSI TS 102 760-1 [2] C.15/4 IUT is supporting the WakeUp command
PICS_IN_UNITDATA_STATUS ETSI TS 102 760-1 [2] C.12/2 IUT is supporting the IN-UNITDATA-
STATUS service primitive
PICS_MONITOR ETSI TS 102 760-1 [2] C.15/11 IUT is supporting the MONITOR command

6 Test purposes
6.1 CI state transitions
6.1.1 Valid behaviour tests
TP ID
SE/BV/01
Test objective
IUT with CI supporting 48-bit MAC addresses registers correctly at the management entity
Reference ISO 21218 [1], clause 6.4.2
PICS Selection PICS_DYNREG AND PICS_MAC48
Initial conditions
with {
the IUT being in the CI state "not-existent"
}
Expected behaviour
ensure that {
when {
the IUT starts operation
}
then {
the IUT registers properly at the ITS-S management
}
}
Final conditions
ensure that {
when {
the IUT presented the state "registered" to the ITS-S management
}
then {
the IUT has a LocalCIID representing the 48 bit MAC address of the IUT
}
}

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13 ETSI TS 102 760-2 V1.2.1 (2014-06)
TP ID SE/BV/02
Test objective IUT with CI not supporting 48-bit MAC addresses registers correctly at the management entity
Reference ISO 21218 [1], clause 6.4.2
PICS Selection PICS_DYNREG AND NOT PICS_MAC48
Initial conditions
with {
the IUT being in the CI state "not-existent"
}
Expected behaviour
ensure that {
when {
the IUT starts operation
}
then {
the IUT registers properly at the ITS-S management
}
}
Final conditions
ensure that {
when {
the IUT presented the state "registered" to the ITS-S management
}
then {
the IUT has a LocalCIID created from ITS-SCU-ID and MedID
}
}

TP ID SE/BV/03
Test objective IUT repeats registration as long as management entity does not confirm it
Reference ISO 21218 [1], clause 6.4.2
PICS Selection
PICS_DYNREG
Initial conditions
with {
the IUT being in the CI state "not-existent
}
Expected behaviour
ensure that {
when {
the IUT starts operation
}
then {
the IUT repeats continuously the registration procedure as long as the ITS-S management does not confirm with
MI-COMMAND "RegCmd".
}
}

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14 ETSI TS 102 760-2 V1.2.1 (2014-06)
TP ID SE/BV/04
Test objective IUT with CI class "CIC-l2" automatically creates a UC-VCI and reaches the CI state "active"
Reference ISO 21218 [1], clause 7.3.1
PICS Selection PICS_CIC_l2
Initial conditions
with {
the IUT being in the CI state "registered"
}
Expected behaviour
ensure that {
when {
the IUT has finished the registration procedure
}
then {
the IUT creates a UC-VCI
}
}
Final conditions
ensure that {
when {
the IUT created a UC-VCI
}
then {
the IUT is in the state "active"
}
}

TP ID SE/BV/05
Test objective IUT with CI class "CIC-l3" automatically creates a BC-VCI and reaches the CI state "active"
Reference ISO 21218 [1], clause 7.3.1
PICS Selection
PICS_CIC_l3
Initial conditions
with {
the IUT being in the CI state "registered", and MAC multicast groups are not known to the IUT
}
Expected behaviour
ensure that {
when {
the IUT has finished the registration procedure
}
then {
the IUT creates a BC-VCI
}
}
Final conditions
ensure that {
when {
the IUT created a BC-VCI
}
then {
the IUT is in the state "active"
}
}

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15 ETSI TS 102 760-2 V1.2.1 (2014-06)
TP ID SE/BV/06
Test objective IUT with CI class "CIC-l4" automatically creates a RX-VCI and reaches the CI state "active"
Reference ISO 21218 [1], clause 7.3.1
PICS Selection PICS_CIC_l4
Initial conditions
with {
the IUT being in the CI state "registered"
}
Expected behaviour
ensure that {
when {
the IUT has finished the registration procedure
}
then {
the IUT creates a RX-VCI
}
}
Final conditions
ensure that {
when {
the IUT created a RX-VCI
}
then {
the IUT is in the state "active"
}
}

TP ID SE/BV/07
Test objective IUT with CI class "CIC-l1"or "CIC-il1" automatically creates a UC-VCI and a BC-VCI and
reaches the CI state "active"
Reference ISO 21218 [1], clause 7.3.1
PICS Selection PICS_CIC_l1 OR PICS_CIC_il1
Initial conditions
with {
the IUT being in the CI state "registered", and MAC multicast groups are not known to the IUT
}
Expected behaviour
ensure that {
when {
the IUT has finished the registration procedure
}
then {
the IUT creates a UC-VCI and a BC-VCI
}
}
Final conditions
ensure that {
when {
the IUT created a UC-VCI and a BC-VCI
}
then {
the IUT is in the state "active"
}
}

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16 ETSI TS 102 760-2 V1.2.1 (2014-06)
TP ID SE/BV/08
Test objective IUT with CI class "CIC-l3" automatically creates a BC-VCI and known MC-VCIs and reaches
the CI state "active"
Reference ISO 21218 [1], clause 7.3.1
PICS Selection PICS_CIC_l3 AND PICS_MCV
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Questions, Comments and Discussion

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