5.2 Access Control handling

31.1213GPPRelease 16TSUICC-terminal interfaceUniversal Subscriber Identity Module (USIM) application test specification

Tools: ARFCN - Frequency Conversion for 5G NR/LTE/UMTS/GSM

5.2.1 Access Control information handling

5.2.1.1 Definition and applicability

Access Control allows restriction of call access attempts. All User Equipment are assigned to one out of ten randomly allocated classes, and optionally (for priority uses) also to one or more special categories.

An Access Class of the special Categories is only valid in the HPLMN or HPLMN country. Otherwise, the randomly allocated class is used.

The classes are programmed on the USIM. The network controls which classes at any time may be barred.

In addition, there is a separate mechanism for control of network access for emergency call attempts.

5.2.1.2 Conformance requirement

1. The Terminal shall read the access control value as part of the USIM-Terminal initialisation procedure, and subsequently adopt this value.

Reference:

– TS 31.102 [4], clause 5.1.1.

2. If the UE is a member of at least one access class which corresponds to the permitted classes as signalled over the air interface, and the access class is applicable in the serving network, access attempts are allowed . Otherwise access attempts are not allowed.

3. If access class 10 is barred, then the UE of classes 0 – 9 and the Terminals without UICCs shall not make emergency call attempts.

4. UE of classes 11 – 15 are not allowed to make emergency call attempts if access class 10 and the relevant access class(es) between 11 and 15 are barred. Otherwise, emergency call attempts are allowed irrespective of the conditions of access class 10.

All options are shown in figure 5-1 and are referenced to the tests.

Reference:

– TS 22.011 [6], clauses 4.3 and 4.4.

5.2.1.3 Test purpose

1) To verify that the Terminal reads the access control value as part of the USIM-Terminal initialisation procedure, and subsequently adopts this value.

2) To verify that the UE controls its network access in accordance with its access control class and the conditions imposed by the serving network.

The tests verify Terminal performance for the following:

Tests (a) and (b) No UICC in Terminal.

Tests (c) to (e) UE with access class 0 to 9.

Test (f) UE with access class 11 and 15 not in HPLMN, and

UE with access class 12,13 and 14 not in HPLMN country.

Test (g) and (h) UE with access class 11 and 15 in HPLMN, and

UE with access class 12,13 and 14 in HPLMN country.

Each of the above are tested against all relevant combinations of access control and emergency call bits signalled by the network, as shown in table 5-1.

5.2.1.4 Method of test

5.2.1.4.1 Initial conditions

The USS (in case of a Terminal accessing UTRAN)/ SS (in case of a GERAN Terminal) transmits on the BCCH, with the following network parameters:

– Attach/detach: disabled.

– LAI (MCC/MNC/LAC): MCC, MNC: see table 5-1, LAC="0001".

– Access control: see table 5-1.

– RACH: see table 5-1.

The default UICC is installed in the Terminal containing IMSI and access control values as given in table 5-1 and the UE is powered on.

NOTE: Depending on the initial value of the EF_LOCI, the UE may perform a location update. This shall be accepted by the USS/SS.

5.2.1.4.2 Coding details

USIM IMSI EF_IMSI: Data Field "6F 07"

Logically: IMSI: "2460813579"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	06	21	64	80	31	75	F9	FF	FF

Logically: IMSI: "24608135×9"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	06	21	64	80	31	x5	F9	FF	FF

Access Control class EF_ACC: Data field "6F 78"

Reference:

See TS 31.102 [4].

NETWORK (USS in case of a Terminal accessing UTRAN)

Access Class Barred List in SIB 3 should be set as table 5.1a:

Reference:

TS 25.331 clause 10.3.2.1

NOTE: The first instance of the parameter corresponds to Access Class 0, the second to Access Class 1 and so on up to Access Class 15.

NETWORK (SS in case of a Terminal accessing GERAN)

RACH: As defined in TS 44.018 clause 10.5.2.29.

NOTE: TS 44.018 also apply for the Radio Resource management for UMTS (see TS 24.008, clause 10.5.2).

Octet 1 0111 1000

Octet 2 0000 1000

Octet 3 }

Octet 4 } as table 5-1b

5.2.1.4.3 Procedure

a) Using the MMI or EMMI a normal call set-up is attempted.

b) Using the MMI or EMMI an emergency call set-up is attempted.

c) The test is repeated for each set of values in table 5-1.

5.2.1.5 Acceptance criteria

After steps a) and b) the UE shall access the network, or shall make no access attempt, in accordance with table 5-1.

NOTE 1: For conformance testing, to limit testing, in tesI(c), (d) and (e) it is only necessary that one of the access classes is tested. This access class may be chosen randomly.

NOTE 2: In tables 5-1a and 5-1b the following notation is used to describe the Access Class Barred IE:

"0" = not barred, "1" =barred.

Table 5-1a

	USIM			Network		Test Results
	IMSI		RACH SIB3: Access Class Barred List	Informative: Cell Barred for:	BCCH/LAI	Normal Call	Emergency Call
		Access	AC15-AC08	Emergency Call	MCC
		Class	AC07-AC00	Normal Call	MNC
Test (a)	No UICC in	N/A	0000 0100	Yes	234	No	No
	Terminal		0000 0000	No	001


Test (b)	No UICC in	N/A	0000 0000	No	234	No	Yes
	Terminal		0000 0000	No	001

Test (c)	"2460813579"	0	0000 0100	Yes	246	No	No
			0000 0001	No, except for ACC	081

	"2460813579"	1	0000 0100	Yes	246	No	No
			0000 0010	No, except for ACC	081

	"2460813579"	2	0000 0100	Yes	246	No	No
			0000 0100	No, except for ACC	081

	"2460813579"	3	0000 0100	Yes	246	No	No
			0000 1000	No, except for ACC	081

	"2460813579"	4	0000 0100	Yes	246	No	No
			0001 0000	No, except for ACC	081

	"2460813579"	5	0000 0100	Yes	246	No	No
			0010 0000	No, except for ACC	081

	"2460813579"	6	0000 0100	Yes	246	No	No
			0100 0000	No, except for ACC	081

	"2460813579"	7	0000 0100	Yes	246	No	No
			1000 0000	No, except for ACC	081

	"2460813579"	8	0000 0101	Yes	246	No	No
			0000 0000	No, except for ACC	081

	"2460813579"	9	0000 0110	Yes	246	No	No
			0000 0000	No, except for ACC	081
Test (d)	"2460813579"	0	0000 0000	No	246	No	Yes
			0000 0001	None, except for ACC	081

	"2460813579"	1	0000 0000	No	246	No	Yes
			0000 0010	None, except for ACC	081

	"2460813579"	2	0000 0000	No	246	No	Yes
			0000 0100	None, except for ACC	081

	"2460813579"	3	0000 0000	No	246	No	Yes
			0000 1000	None, except for ACC	081

	"2460813579"	4	0000 0000	No	246	No	Yes
			0001 0000	None, except for ACC	081

	"2460813579"	5	0000 0000	No	246	No	Yes
			0010 0000	None, except for ACC	081

	"2460813579"	6	0000 0000	No	246	No	Yes
			0100 0000	None, except for ACC	081

	"2460813579"	7	0000 0000	No	246	No	Yes
			1000 0000	None, except for ACC	081

	"2460813579"	8	0000 0001	No	246	No	Yes
			0000 0000	None, except for ACC	081

	"2460813579"	9	0000 0010	No	246	No	Yes
			0000 0000	None, except for ACC	081
Test (e)	"2460813579"	0	1111 1011	No	246	Yes	Yes
			1111 1110	All, except ACC on USIM	081

	"2460813579"	1	1111 1011	No	246	Yes	Yes
			1111 1101	All, except ACC on USIM	081

	"2460813579"	2	1111 1011	No	246	Yes	Yes
			1111 1011	All, except ACC on USIM	081

	"2460813579"	3	1111 1011	No	246	Yes	Yes
			1111 0111	All, except ACC on USIM	081

	"2460813579"	4	1111 1011	No	246	Yes	Yes
			1110 1111	All, except ACC on USIM	081

	"2460813579"	5	1111 1011	No	246	Yes	Yes
			1101 1111	All, except ACC on USIM	081

	"2460813579"	6	1111 1011	No	246	Yes	Yes
			1011 1111	All, except ACC on USIM	081

	"2406813579"	7	1111 1011	No	246	Yes	Yes
			0111 1111	All, except ACC on USIM	081

	"2460813579"	8	1111 1010	No	246	Yes	Yes
			1111 1111	All, except ACC on USIM	081

	"2460813579"	9	1111 1001	No	246	Yes	Yes
			1111 1111	All, except ACC on USIM	081
Test (f)	"24608135×9"	11 & x	0000 0111	Yes	246	No	No
			1111 1111	All, except ACC greater than 11	082

	"	11 & x	0000 0011	No	246	No	Yes
			1111 1111	All, except ACC greater than 11	082

	"	11 & x	0000 0000	No	246	Yes	Yes
			0000 0000	None	082

	"24608135×9"	12 & x	0000 0111	Yes	244	No	No
			1111 1111	All, except ACC greater than 11	001

	"	12 & x	0000 0011	No	244	No	Yes
			1111 1111	All, except ACC greater than 11	001

	"	12 & x	0000 0000	No	244	Yes	Yes
			0000 0000	None	001

	"24608135×9"	13 & x	0000 0111	Yes	244	No	No
			1111 1111	All, except ACC greater than 11	001

	"	13 & x	0000 0011	No	244	No	Yes
			1111 1111	All, except ACC greater than 11	001

	"	13 & x	0000 0000	No	244	Yes	Yes
			0000 0000	None	001

	"24608135×9"	14 & x	0000 0111	Yes	244	No	No
			1111 1111	All, except ACC greater than 11	001

	"	14 & x	0000 0011	No	244	No	Yes
			1111 1111	All, except ACC greater than 11	001

	"	14 & x	0000 0000	No	244	Yes	Yes
			0000 0000	None	001

	"24608135×9"	15 & x	0000 0111	Yes	246	No	No
			1111 1111	All, except ACC greater than 11	082

	"	15 & x	0000 0011	No	246	No	Yes
			1111 1111	All, except ACC greater than 11	082

	"	15 & x	0000 0000	No	246	Yes	Yes
	Set "x" to an arbitrary value in the range 0 to 9		0000 0000	None	082
Test (g)	"2460813579"	11 & x	0000 1111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	081

	"	11 & x	0000 1011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	081

	"2460813579"	12 & x	0001 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	082

	"	12 & x	0001 0011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	082

	"2460813579"	13 & x	0010 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	082

	"	13 & x	0010 0011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	082


	"2460813579"	14 & x	0100 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	082

	"	14 & x	0100 0011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	082


	"2460813579"	15 & x	1000 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	081

	"	15 & x	1000 0011	No	246	No	Yes
	Set "x" to an arbitrary value in the range 0 to 9		1111 1111	All normal ACC and ACC on USIM	081
Test (h)	"2460813579"	11 & x	1111 0011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	081

	"	11 & x	1111 0111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	081

	"2460813579"	12 & x	1110 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"	12 & x	1110 1111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"2460813579"	13 & x	1101 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"	13 & x	1101 1111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"2460813579"	14 & x	1011 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"	14 & x	1011 1111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"2460813579"	15 & x	0111 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	081

	"	15 & x	0111 1111	Yes	246	Yes	Yes
	Set "x" to an arbitrary value in the range 0 to 9		1111 1111	All, except "special" ACC on USIM	081

Table 5-1b

	USIM			Network		Test Results
	IMSI		RACH	Informative: Cell Barred for:	BCCH/LAI	Normal Call	Emergency Call
		Access	Octet 3	Emergency Call	MCC
		Class	Octet 4	Normal Call	MNC
Test (a)	No UICC in	N/A	0000 0100	Yes	234	No	No
	Terminal		0000 0000	No	001


Test (b)	No UICC in	N/A	0000 0000	No	234	No	Yes
	Terminal		0000 0000	No	001


Test (c)	"2460813579"	0	0000 0100	Yes	246	No	No
			0000 0001	No, except for ACC	081

	"2460813579"	1	0000 0100	Yes	246	No	No
			0000 0010	No, except for ACC	081

	"2460813579"	2	0000 0100	Yes	246	No	No
			0000 0100	No, except for ACC	081

	"2460813579"	3	0000 0100	Yes	246	No	No
			0000 1000	No, except for ACC	081

	"2460813579"	4	0000 0100	Yes	246	No	No
			0001 0000	No, except for ACC	081

	"2460813579"	5	0000 0100	Yes	246	No	No
			0010 0000	No, except for ACC	081

	"2460813579"	6	0000 0100	Yes	246	No	No
			0100 0000	No, except for ACC	081

	"2460813579"	7	0000 0100	Yes	246	No	No
			1000 0000	No, except for ACC	081

	"2460813579"	8	0000 0101	Yes	246	No	No
			0000 0000	No, except for ACC	081

	"2460813579"	9	0000 0110	Yes	246	No	No
			0000 0000	No, except for ACC	081
Test (d)	"2460813579"	0	0000 0000	No	246	No	Yes
			0000 0001	None, except for ACC	081

	"2460813579"	1	0000 0000	No	246	No	Yes
			0000 0010	None, except for ACC	081

	"2460813579"	2	0000 0000	No	246	No	Yes
			0000 0100	None, except for ACC	081

	"2460813579"	3	0000 0000	No	246	No	Yes
			0000 1000	None, except for ACC	081

	"2460813579"	4	0000 0000	No	246	No	Yes
			0001 0000	None, except for ACC	081

	"2460813579"	5	0000 0000	No	246	No	Yes
			0010 0000	None, except for ACC	081

	"2460813579"	6	0000 0000	No	246	No	Yes
			0100 0000	None, except for ACC	081

	"2460813579"	7	0000 0000	No	246	No	Yes
			1000 0000	None, except for ACC	081

	"2460813579"	8	0000 0001	No	246	No	Yes
			0000 0000	None, except for ACC	081

	"2460813579"	9	0000 0010	No	246	No	Yes
			0000 0000	None, except for ACC	081
Test (e)	"2460813579"	0	1111 1011	No	246	Yes	Yes
			1111 1110	All, except ACC on USIM	081

	"2460813579"	1	1111 1011	No	246	Yes	Yes
			1111 1101	All, except ACC on USIM	081

	"2460813579"	2	1111 1011	No	246	Yes	Yes
			1111 1011	All, except ACC on USIM	081

	"2460813579"	3	1111 1011	No	246	Yes	Yes
			1111 0111	All, except ACC on USIM	081

	"2460813579"	4	1111 1011	No	246	Yes	Yes
			1110 1111	All, except ACC on USIM	081

	"2460813579"	5	1111 1011	No	246	Yes	Yes
			1101 1111	All, except ACC on USIM	081

	"2460813579"	6	1111 1011	No	246	Yes	Yes
			1011 1111	All, except ACC on USIM	081

	"2406813579"	7	1111 1011	No	246	Yes	Yes
			0111 1111	All, except ACC on USIM	081

	"2460813579"	8	1111 1010	No	246	Yes	Yes
			1111 1111	All, except ACC on USIM	081

	"2460813579"	9	1111 1001	No	246	Yes	Yes
			1111 1111	All, except ACC on USIM	081
Test (f)	"24608135×9"	11 & x	0000 0111	Yes	246	No	No
			1111 1111	All, except ACC greater than 11	082

	"	11 & x	0000 0011	No	246	No	Yes
			1111 1111	All, except ACC greater than 11	082

	"	11 & x	0000 0000	No	246	Yes	Yes
			0000 0000	None	082

	"24608135×9"	12 & x	0000 0111	Yes	244	No	No
			1111 1111	All, except ACC greater than 11	001

	"	12 & x	0000 0011	No	244	No	Yes
			1111 1111	All, except ACC greater than 11	001

	"	12 & x	0000 0000	No	244	Yes	Yes
			0000 0000	None	001

	"24608135×9"	13 & x	0000 0111	Yes	244	No	No
			1111 1111	All, except ACC greater than 11	001

	"	13 & x	0000 0011	No	244	No	Yes
			1111 1111	All, except ACC greater than 11	001

	"	13 & x	0000 0000	No	244	Yes	Yes
			0000 0000	None	001

	"24608135×9"	14 & x	0000 0111	Yes	244	No	No
			1111 1111	All, except ACC greater than 11	001

	"	14 & x	0000 0011	No	244	No	Yes
			1111 1111	All, except ACC greater than 11	001

	"	14 & x	0000 0000	No	244	Yes	Yes
			0000 0000	None	001

	"24608135×9"	15 & x	0000 0111	Yes	246	No	No
			1111 1111	All, except ACC greater than 11	082

	"	15 & x	0000 0011	No	246	No	Yes
			1111 1111	All, except ACC greater than 11	082

	"	15 & x	0000 0000	No	246	Yes	Yes
	Set "x" to an arbitrary value in the range 0 to 9		0000 0000	None	082
Test (g)	"2460813579"	11 & x	0000 1111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	081

	"	11 & x	0000 1011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	081

	"2460813579"	12 & x	0001 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	082

	"	12 & x	0001 0011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	082

	"2460813579"	13 & x	0010 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	082

	"	13 & x	0010 0011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	082


	"2460813579"	14 & x	0100 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	082

	"	14 & x	0100 0011	No	246	No	Yes
			1111 1111	All normal ACC and ACC on USIM	082


	"2460813579"	15 & x	1000 0111	Yes	246	No	No
			1111 1111	All normal ACC and ACC on USIM	081

	"	15 & x	1000 0011	No	246	No	Yes
	Set "x" to an arbitrary value in the range 0 to 9		1111 1111	All normal ACC and ACC on USIM	081
Test (h)	"2460813579"	11 & x	1111 0011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	081

	"	11 & x	1111 0111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	081

	"2460813579"	12 & x	1110 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"	12 & x	1110 1111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"2460813579"	13 & x	1101 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"	13 & x	1101 1111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"2460813579"	14 & x	1011 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"	14 & x	1011 1111	Yes	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	082

	"2460813579"	15 & x	0111 1011	No	246	Yes	Yes
			1111 1111	All, except "special" ACC on USIM	081

	"	15 & x	0111 1111	Yes	246	Yes	Yes
	Set "x" to an arbitrary value in the range 0 to 9		1111 1111	All, except "special" ACC on USIM	081

NOTE: UE adopts Access Class 0-9, based on IMSI, see TS 22.011 [6].

Access Class in USIM, See TS 31.102 [4], EF ACC, "6F 78".

ECs: Emergency Calls.

EC Bit: In case of GERAN:

Bit 3 of Octet 3 of RACH Control Parameters, See TS 44.018 Clause 10.5.2.29.

In case of UTRAN

Access Class 10 defined in TS 22.011 clause 4.4.

AC Bit: See Access Class Barred List defined in TS 25.331 clause 10.3.2.1.

HPLMN: Country means that the MCC of the VPLMN is the same as the MCC of the HPLMN.

Figure 5-1: Access control information

5.2.2 Access Control information handling for E-UTRAN/EPC

5.2.2.1 Definition and applicability

Access Control allows restriction of EPS bearer context activation access attempts. All User Equipments are assigned to one out of ten randomly allocated classes, and optionally (for priority uses) also to one or more special categories.

An Access Class of the special categories is only valid in the HPLMN or HPLMN country. Otherwise, the randomly allocated class is used.

The classes are programmed on the USIM. The network controls which classes at any time may be barred.

Emergency call handling is FFS.

5.2.2.2 Conformance requirement

1. The Terminal shall read the access control value as part of the USIM-Terminal initialisation procedure, and subsequently adopt this value.

Reference:

– TS 31.102 [4], clause 5.1.1.

2. If the UE is a member of at least one access class which corresponds to the permitted classes as signalled over the air interface, and the access class is applicable in the serving network,access attempts are allowed . Otherwise access attempts are not allowed.

All options are shown in figure 5-2 and are referenced to the tests.

Reference:

– TS 22.011 [6], clauses 4.3 and 4.4,

– TS 24.301 [26], clause 5.5.1.2.6,

5.2.2.3 Test purpose

1) To verify that the Terminal reads the access control value as part of the USIM-Terminal initialisation procedure, and subsequently adopts this value.

2) To verify that the UE controls its network access in accordance with its access control class and the conditions imposed by the serving network.

The tests verify Terminal performance for the following:

Tests (a) to (b) UE with access class 0 to 9.

Test (c) UE with access class 11 and 15 not in HPLMN, and

UE with access class 12,13 and 14 not in HPLMN country.

Test (d) and (e) UE with access class 11 and 15 in HPLMN, and

UE with access class 12,13 and 14 in HPLMN country.

Each of the above are tested against all relevant combinations of access control bits signalled by the network, as shown in table 5-2.

5.2.2.4 Method of test

5.2.2.4.1 Initial conditions

The E-USS transmits on the BCCH, with the following network parameters:

– TAI (MCC/MNC/TAC): MCC, MNC: see table 5-2, TAC="0001".

– Access control: see table 5-2.

The default UICC is installed in the Terminal containing IMSI and access control values as given in table 5-2 and the UE is powered on.

NOTE: Depending on the initial value of the EF_EPSLOCI, the UE may perform a location update. This shall be accepted by the E-USS.

5.2.2.4.2 Coding details

EF_IMSI: Data Field "6F 07"

Logically: IMSI: "2460813579"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	06	21	64	80	31	75	F9	FF	FF

Logically: IMSI: "24608135×9"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	06	21	64	80	31	x5	F9	FF	FF

Access Control class EF_ACC: Data field "6F 78"

Reference:

– See TS 31.102 [4].

NETWORK (E-USS)

ac-BarringInfo in SystemInformationBlockType2 should be set as in table 5-2:

Reference

– TS 36.331 clause 6.3.1

5.2.2.4.3 Procedure

a) The terminal is switched on and performs registration if access is allowed for signalling according to table 5-2.

b) Using the MMI or EMMI a normal EPS bearer context setup is attempted if required by the test.

c) The test is repeated for each set of values in table 5-2.

5.2.2.5 Acceptance criteria

After step a) the UE shall access the network, or shall make no access attempt, in accordance with table 5-2.

In case in tables 5-2 the cell is indicated as

barred = yes, in these sub-sequences, the UE shall not establish a connection

barred = no, the UE shall establish a connection.

NOTE 1: For conformance testing, to limit testing, in tests (a), (b) and (c) it is only necessary that one of the access classes is tested. This access class may be chosen randomly.

Table 5-2

	USIM			Network
	IMSI	Access class:	SIBType2: ac-BarringInfo	Cell barred for ATTACH and Default EPS bearer context activation:	MCC MNC for BCCH/LAI	Cell barred for second (non-default) EPS bearer context setup:
Test (a)	"2460813579"	0	SIBType2_A01		246	Yes
				No	081

	"2460813579"	1	SIBType2_A01		246	Yes
				No	081

	"2460813579"	2	SIBType2_A01		246	Yes
				No	081

	"2460813579"	3	SIBType2_A01		246	Yes
				No	081

	"2460813579"	4	SIBType2_A01		246	Yes
				No	081

	"2460813579"	5	SIBType2_A01		246	Yes
				No	081

	"2460813579"	6	SIBType2_A01		246	Yes
				No	081

	"2460813579"	7	SIBType2_A01		246	Yes
				No	081

	"2460813579"	8	SIBType2_A01		246	Yes
				No	081

	"2460813579"	9	SIBType2_A01		246	Yes
				No	081
Test (b)	"2460813579"	0	SIBType2_B01		246	No
				No	081

	"2460813579"	1	SIBType2_B01		246	No
				No	081

	"2460813579"	2	SIBType2_B01		246	No
				No	081

	"2460813579"	3	SIBType2_B01		246	No
				No	081

	"2460813579"	4	SIBType2_B01		246	No
				No	081

	"2460813579"	5	SIBType2_B01		246	No
				No	081

	"2460813579"	6	SIBType2_B01		246	No
				No	081

	"2460813579"	7	SIBType2_B01		246	No
				No	081

	"2460813579"	8	SIBType2_B01		246	No
				No	081

	"2460813579"	9	SIBType2_B01		246	No
				No	081
Test (c)	"24608135×9"	11 & x	SIBType2_A01	No	246	Yes
					082

	"	11 & x	SIBType2_C11_01	No	246	Yes
					082

	"	11 & x	SIBType2_C11_02	Yes	246	N/A (no registration possible as initial condition)
					082

	"24608135×9"	12 & x	SIBType2_A01		244	Yes
				No	001

	"	12 & x	SIBType2_C12_01	No	244	Yes
					001

	"	12 & x	SIBType2_C12_02	Yes	244	N/A (no registration possible as initial condition)
					001

	"24608135×9"	13 & x	SIBType2_A01	No	244	Yes
					001

	"	13 & x	SIBType2_C13_01	No	244	Yes
					001

	"	13 & x	SIBType2_C13_02	Yes	244	N/A (no registration possible as initial condition)
					001

	"24608135×9"	14 & x	SIBType2_A01	No	244	Yes
					001

	"	14 & x	SIBType2_C14_01	No	244	Yes
					001

	"	14 & x	SIBType2_C14_02	Yes	244	N/A (no registration possible as initial condition)
					001

	"24608135×9"	15 & x	SIBType2_A01	No	246	Yes
					082

	"	15 & x	SIBType2_C15_01	No	246	Yes
					082

	"	15 & x	SIBType2_C15_02	Yes	246	N/A (no registration possible as initial condition)
	Set "x" to an arbitrary value in the range 0 to 9				082
Test (d)	"2460813579"	11 & x	SIBType2_C11_01	No	246	Yes
					081

	"	11 & x	SIBType2_C11_02	Yes	246	N/A
					081

	"2460813579"	12 & x	SIBType2_C12_01	No	246	Yes
					082

	"	12 & x	SIBType2_C12_02	Yes	246	N/A
					082

	"2460813579"	13 & x	SIBType2_C13_01	No	246	Yes
					082

	"	13 & x	SIBType2_C13_02	Yes	246	N/A
					082


	"2460813579"	14 & x	SIBType2_C14_01	No	246	Yes
					082

	"	14 & x	SIBType2_C14_02	Yes	246	N/A
					082


	"2460813579"	15 & x	SIBType2_C15_01	No	246	Yes
					081

	"	15 & x	SIBType2_C15_02	Yes	246	N/A
	Set "x" to an arbitrary value in the range 0 to 9				081
Test (e)	"2460813579"	11 & x	SIBType2_C11_03	No	246	No
					081

	"2460813579"	12 & x	SIBType2_C12_03	No	246	No
					082

	"2460813579"	13 & x	SIBType2_C13_03	No	246	No
					082

	"2460813579"	14 & x	SIBType2_C14_03	No	246	No
					082

	"2460813579"	15 & x	SIBType2_C15_03	No	246	No
	Set "x" to an arbitrary value in the range 0 to 9				081

Specific message contents for Table 5-2

SystemInformationBlockType2 configuration SIBType2_A01

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘00000’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_B01

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data	Not present
}
}

SystemInformationBlockType2 configuration SIBType2_C11_01

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘10000’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C11_02

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘10000’B
}
ac-BarringForMO-Data	Not present
}
}

SystemInformationBlockType2 configuration SIBType2_C11_03

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘01111’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C12_01

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘01000’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C12_02

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘01000’B
}
ac-BarringForMO-Data	Not present
}
}

SystemInformationBlockType2 configuration SIBType2_C12_03

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘10111’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C13_01

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘00100’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C13_02

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘00100’B
}
ac-BarringForMO-Data	Not present
}
}

SystemInformationBlockType2 configuration SIBType2_C13_03

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘11011’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C14_01

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘00010’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C14_02

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘00010’B
}
ac-BarringForMO-Data	Not present
}
}

SystemInformationBlockType2 configuration SIBType2_C14_03

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘11101’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C15_01

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘00001’B
}
}
}

SystemInformationBlockType2 configuration SIBType2_C15_02

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘00001’B
}
ac-BarringForMO-Data	Not present
}
}

SystemInformationBlockType2 configuration SIBType2_C15_03

Derivation Path: 36.508, Table 4.4.3.3-1
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType2 ::= SEQUENCE {
ac-BarringInfo SEQUENCE {
ac-BarringForEmergency	FALSE
ac-BarringForMO-Signalling	Not present
ac-BarringForMO-Data SEQUENCE {
ac-BarringFactor	p00
ac-BarringTime	s512
ac-BarringForSpecialAC	‘11110’B
}
}
}

Editor’s note: the flow chart is currently for information only and has to be updated to be in line with 36.331, this is TBD.

NOTE: UE adopts Access Class 0-9, based on IMSI, see TS 22.011 [6].

Access Class in USIM, See TS 31.102 [4], EF ACC, "6F 78".

ECs: Emergency Calls.

EC Bit: see description in 36.331, clause 6.3.1

Access Class 10 defined in TS 22.011 clause 4.4.

AC Bit: see description in 36.331, clause 6.3.1.

HPLMN: Country means that the MCC of the VPLMN is the same as the MCC of the HPLMN.

Figure 5-2: Access control information

5.2.3 Access Control information handling for NB-IoT

5.2.3.1 Definition and applicability

Access Control allows restriction on RRC connection establishment attempts. All User Equipments are assigned to one out of ten randomly allocated classes, and optionally (for priority uses) also to one or more special categories.

An Access Class of the special categories is only valid in the HPLMN or HPLMN country. Otherwise, the randomly allocated class is used.

The classes are programmed on the USIM. The network controls which classes at any time may be barred.

5.2.3.2 Conformance requirement

1. The Terminal shall read the access control value as part of the USIM-Terminal initialisation procedure, and subsequently adopt this value.

Reference:

– TS 31.102 [4], clause 5.1.1.

2. If the UE is a member of at least one access class which corresponds to the permitted classes as signalled over the air interface, and the access class is applicable in the serving network,access attempts are allowed . Otherwise access attempts are not allowed.

Reference:

– TS 22.011 [6], clauses 4.3 and 4.4,

– TS 24.301 [26], clause 5.5.1.2.6,

5.2.3.3 Test purpose

1) To verify that the Terminal reads the access control value as part of the USIM-Terminal initialisation procedure, and subsequently adopts this value.

2) To verify that the UE controls its network access in accordance with its access control class and the conditions imposed by the serving network.

The tests verify Terminal performance for the following:

Tests (a) to (b) UE with access class 0 to 9.

Test (c) UE with access class 11 and 15 not in HPLMN, and

UE with access class 12,13 and 14 not in HPLMN country.

Test (d) and (e) UE with access class 11 and 15 in HPLMN, and

UE with access class 12,13 and 14 in HPLMN country.

Each of the above are tested against all relevant combinations of access control bits signalled by the network, as shown in table 5-3.

5.2.3.4 Method of test

5.2.3.4.1 Initial conditions

The NB-SS transmits on the BCCH, with the following network parameters:

– TAI (MCC/MNC/TAC): MCC, MNC: see table 5-3, TAC="0001".

– Access control: see table 5-3.

The default UICC is installed in the Terminal containing IMSI and access control values as given in table 5-3 and the UE is powered on.

NOTE: Depending on the initial value of the EF_EPSLOCI, the UE may perform a location update. This shall be accepted by the NB-SS.

5.2.3.4.2 Coding details

EF_IMSI: Data Field "6F 07"

Logically: IMSI: "2460813579"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	06	21	64	80	31	75	F9	FF	FF

Logically: IMSI: "24608135×9"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	06	21	64	80	31	x5	F9	FF	FF

Access Control class EF_ACC: Data field "6F 78"

Reference:

See TS 31.102 [4].

NETWORK (NB-SS)

ab-Enabled included in MasterInformationBlock-NB is set to TRUE and in SystemInformationBlockType14-NB should be set as in table 5-3.

Reference:

TS 36.331 clause 6.7.3.1.

5.2.3.4.3 Procedure

a) The terminal is switched on and performs registration if access is allowed for signalling according to table 5-3.

b) The test is repeated for each set of values in table 5-3.

5.2.3.5 Acceptance criteria

After step a) the UE shall access the network, or shall make no access attempt, in accordance with table 5-3.

In case in tables 5-3 the cell is indicated as

barred = yes, in these sub-sequences, the UE shall not establish a connection

barred = no, the UE shall establish a connection.

NOTE 1: For conformance testing, to limit testing, in tests (a), (b) and (c) it is only necessary that one of the access classes is tested. This access class may be chosen randomly.

Table 5-3

	USIM		Network
	IMSI	AC	SIBType14-NB: ac-Param	Cell barred for RRC connection establishment / resume :	MCC MNC for BCCH/LAI
Test (a)	"2460813579"	0	SIBType14-NB_A00	Yes	246 081

	"2460813579"	1	SIBType14-NB_A01	Yes	246 081

	"2460813579"	2	SIBType14-NB_A02	Yes	246 081

	"2460813579"	3	SIBType14-NB_A03	Yes	246 081

	"2460813579"	4	SIBType14-NB_A04	Yes	246 081

	"2460813579"	5	SIBType14-NB_A05	Yes	246 081

	"2460813579"	6	SIBType14-NB_A06	Yes	246 081

	"2460813579"	7	SIBType14-NB_A07	Yes	246 081

	"2460813579"	8	SIBType14-NB_A08	Yes	246 081

	"2460813579"	9	SIBType14-NB_A09	Yes	246 081

Test (b)	"2460813579"	0	SIBType14-NB_B01	No	246 081

	"2460813579"	1	SIBType14-NB_B01	No	246 081

	"2460813579"	2	SIBType14-NB_B01	No	246 081

	"2460813579"	3	SIBType14-NB_B01	No	246 081

	"2460813579"	4	SIBType14-NB_B01	No	246 081

	"2460813579"	5	SIBType14-NB_B01	No	246 081

	"2460813579"	6	SIBType14-NB_B01	No	246 081

	"2460813579"	7	SIBType14-NB_B01	No	246 081

	"2460813579"	8	SIBType14-NB_B01	No	246 081

	"2460813579"	9	SIBType14-NB_B01	No	246 081

Test (c)	"24608135×9"	11 & 2	SIBType14-NB_C11_01	Yes	246 082

	"	11 & 2	SIBType14-NB_C11_02	Yes	246 082

	"24608135×9"	12 & 5	SIBType14-NB_C12_01	Yes	244 001

	"	12 & 5	SIBType14-NB_C12_02	Yes	244 001

	"24608135×9"	13 & 4	SIBType14-NB_C13_01	Yes	244 001

	"	13 & 4	SIBType14-NB_C13_02	Yes	244 001

	"24608135×9"	14 & 9	SIBType14-NB_C14_01	Yes	244 001

	"	14 & 9	SIBType14-NB_C14_02	Yes	244 001

	"24608135×9"	15 & 0	SIBType14-NB_C15_01	Yes	246 082
	"	15 & 0	SIBType14-NB_C15_02	Yes	246 082

Test (d)	"2460813579"	11 & 2	SIBType14-NB_C11_01	Yes	246 081

	"2460813579"	12 & 5	SIBType14-NB_C12_01	Yes	246 082

	"2460813579"	13 & 4	SIBType14-NB_C13_01	Yes	246 082

	"2460813579"	14 & 9	SIBType14-NB_C14_01	Yes	246 082

	"2460813579"	15 & 0	SIBType14-NB_C15_01	Yes	246 081

Test (e)	"2460813579"	11 & 2	SIBType14-NB_C11_03	No	246 081

	"2460813579"	12 & 5	SIBType14-NB_C12_03	No	246 082

	"2460813579"	13 & 4	SIBType14-NB_C13_03	No	246 082

	"2460813579"	14 & 9	SIBType14-NB_C14_03	No	246 082

	"2460813579"	15 & 0	SIBType14-NB_C15_03	No	246 081

Specific message contents for Table 5-3

SystemInformationBlockType14-NB configuration SIBType14-NB_A00

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘1000000000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A01

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0100000000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A02

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0010000000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A03

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0001000000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A04

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000100000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A05

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000010000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A06

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000001000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A07

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000000100’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A08

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000000010’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_A09

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000000001’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_B01

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000000000’B
ab-BarringExceptionData-r13	Not present
ab-BarringForSpecialAC-r13	‘00000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C11_01

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0010000000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘10000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C11_02

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	b
ab-BarringBitmap-r13	‘0010000000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘10000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C11_03

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0010000000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘01111’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C12_01

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000010000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘01000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C12_02

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	b
ab-BarringBitmap-r13	‘0000010000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘01000’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C12_03

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000010000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘10111’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C13_01

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000100000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘00100’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C13_02

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	b
ab-BarringBitmap-r13	‘0000100000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘00100’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C13_03

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000100000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘11011’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C14_01

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000000001’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘00010’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C14_02

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	b
ab-BarringBitmap-r13	‘0000000001’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘00010’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C14_03

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘0000000001’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘11101’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C15_01

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘1000000000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘00001’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C15_02

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	b
ab-BarringBitmap-r13	‘1000000000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘00001’B
}
}
lateNonCriticalExtension	Not present
}

SystemInformationBlockType14-NB configuration SIBType14-NB_C15_03

Derivation Path: 36.508 Table 8.1.4.3.3-5
Information Element	Value/remark	Comment	Condition
SystemInformationBlockType14-NB-r13 ::= SEQUENCE {
ab-Param-r13 CHOICE {
ab-Common-r13 SEQUENCE {
ab-Category-r13	a
ab-BarringBitmap-r13	‘1000000000’B
ab-BarringExceptionData-r13	FALSE
ab-BarringForSpecialAC-r13	‘11110’B
}
}
lateNonCriticalExtension	Not present
}