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1,501 | 19.4.2.2.1 Structure | The Access Point Name FQDN (APN-FQDN) is derived from an APN as follows. The APN consists of an APN Network Identifier (APN-NI) and an APN Operator Identifier (APN-OI), which are as defined in clause 9.1.1 and 9.1.2 of the present document. If an APN is constructed using the default APN-OI, the APN-FQDN shall be obtain... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 19.4.2.2.1 |
1,502 | 6.7.1.1 Initial NAS security context establishment | Each AMF shall be configured via network management with lists of algorithms which are allowed for usage. There shall be one list for NAS integrity algorithms, and one for NAS ciphering algorithms. These lists shall be ordered according to a priority decided by the operator. To establish the NAS security context, the A... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 6.7.1.1 |
1,503 | 13.4.1.1.3 Access token requests in deployments with several NRFs | As described in clause 6.2.6.1 of TS 23.501[ System architecture for the 5G System (5GS) ] [1], an operator network can deploy multiple NRFs, for example due to network slicing or network segmentation. An NF Service Consumer shall send its access token requests to the NRF where it is registered as OAuth 2.0 client. Th... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 13.4.1.1.3 |
1,504 | 8.7 Interworking without N26 interface in single-registration mode | When the UE supports single-registration mode and network supports interworking procedure without N26 interface: - For mobility from 5GC to EPC, if the UE has a current EPS NAS security context, the UE shall start using the EPS security context as defined in TS 33.401[ 3GPP System Architecture Evolution (SAE); Security... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 8.7 |
1,505 | – ReferenceTimeInfo | The IE ReferenceTimeInfo contains timing information for 5G internal system clock used for, e.g., time stamping, see TS 23.501[ System architecture for the 5G System (5GS) ] [32], clause 5.27.1.2. ReferenceTimeInfo information element -- ASN1START -- TAG-REFERENCETIMEINFO-START ReferenceTimeInfo-r16 ::= SEQUENCE { tim... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
1,506 | 13.3.8.3 Verification of Client credentials assertion | The verification of the CCA shall be performed by the receiving node, i.e., NRF or NF Service Producer in the following way: It validates the signature of the JWS as described in RFC 7515 [45]. It validates the timestamp (iat) and/or the expiration time (exp) as specified in RFC 7519 [44]. If the receiving node is the ... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 13.3.8.3 |
1,507 | 2.2A Subscription Permanent Identifier (SUPI) | The SUPI is a globally unique 5G Subscription Permanent Identifier allocated to each subscriber in the 5G System. It is defined in clause 5.9.2 of 3GPP TS 23.501[ System architecture for the 5G System (5GS) ] [119]. The SUPI is defined as: - a SUPI type: in this release of the specification, it may indicate an IMSI, a... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 2.2A |
1,508 | 8.3.1.3.3 Minimum requirement with Different Cell ID and Colliding CRS (with single NZP CSI-RS resource) | The requirements are specified in Table 8.3.1.3.3-2, with the additional parameters in Table 8.3.1.3.3-1. The purpose of this test is to verify the UE capability of supporting non quasi-colocated antenna ports when the UE receives DCI format 2D in a scenario where the two transmission points have different Cell ID and ... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 8.3.1.3.3 |
1,509 | 9.2.1.7 FDD (Modulation and TBS index Table 2 and 4-bit CQI Table 2 are used) | The following requirements apply to UE Category 11-12 and DL Category ≥11. For the parameters specified in Table 9.2.1.7-1, and using the downlink physical channels specified in tables C.3.2-1 and C.3.2-2, the reported CQI value according to RC.1A FDD in Table A.4-1 shall be in the range of ±1 of the reported median mo... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 9.2.1.7 |
1,510 | – SystemInformation | The SystemInformation message is used to convey one or more System Information Blocks or Positioning System Information Blocks. All the SIBs or posSIBs included are transmitted with the same periodicity. Signalling radio bearer: N/A RLC-SAP: TM Logical channels: BCCH Direction: Network to UE SystemInformation message -... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
1,511 | 5.11 Handling of unknown, unforeseen and erroneous protocol data | When a MAC entity receives a MAC PDU for the MAC entity's C-RNTI or Semi-Persistent Scheduling C-RNTI, or by the configured downlink assignment, containing reserved or invalid values, the MAC entity shall: - discard the received PDU. When a MAC entity receives a MAC PDU on MCH containing reserved values, or on DL-SCH c... | 3GPP TS 36.321 | Evolved Universal Terrestrial Radio Access (E-UTRA); Medium Access Control (MAC) protocol specification | RAN2 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 5.11 |
1,512 | 6.2.4A.2 A-MPR for CA_NS_02 for CA_1C | If the UE is configured to CA_1C and it receives IE CA_NS_02 the allowed maximum output power reduction applied to transmission on the PCC and the SCC for contiguously aggregated signals is specified in Table 6.2.4A.2-1. Table 6.2.4A.2-1: Contiguous allocation A-MPR for CA_NS_02 If the UE is configured to CA_1C and it ... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 6.2.4A.2 |
1,513 | 16.12.5.2 Radio Link Failure | The L2 U2N Remote UE in RRC_CONNECTED suspends Uu RLM (as described in clause 9.2.7) when connected to the gNB via a L2 U2N Relay UE. The L2 U2N Relay UE declares Uu Radio Link Failure (RLF) following the same criteria as described in clause 9.2.7. After Uu RLF is declared, the L2 U2N Relay UE takes the following actio... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.12.5.2 |
1,514 | 6.1.3.2.2.2 Handling of network rejection due to SM cause #26 | If the SM cause value is #26 "insufficient resources" and the Back-off timer value IE is included, the MS shall ignore the Re-attempt indicator IE provided by the network, if any, and take different actions depending on the timer value received for timer T3396 in the Back-off timer value IE (if the MS is configured for... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 6.1.3.2.2.2 |
1,515 | 15.3.4 Xn-C TNL address discovery | If the NG-RAN node is aware of the RAN node ID of the candidate NG-RAN node (e.g. via the ANR function) but not of a TNL address suitable for SCTP connectivity, then the NG-RAN node can utilize the 5GC (an AMF it is connected to) to determine the TNL address as follows: - The NG-RAN node sends the UPLINK RAN CONFIGURAT... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 15.3.4 |
1,516 | 4.1.3.1.1 Main states | 4.1.3.1.1.1 GMM-NULL The GPRS capability is disabled in the MS. No GPRS mobility management function shall be performed in this state. 4.1.3.1.1.2 GMM-DEREGISTERED The GPRS capability has been enabled in the MS, but no GMM context has been established. In this state, the MS may establish a GMM context by starting the G... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 4.1.3.1.1 |
1,517 | – SL-BWP-PRS-PoolConfig | The IE SL-BWP-PRS-PoolConfig is used to configure UE specific NR sidelink PRS dedicated resource pool. SL-BWP-PRSPoolConfig information element -- ASN1START -- TAG-SL-BWP-PRS-POOLCONFIG-START SL-BWP-PRS-PoolConfig-r18 ::= SEQUENCE { sl-PRS-RxPool-r18 SEQUENCE (SIZE (1..maxNrofRXPool-r16)) OF SL-PRS-ResourcePool-r18 OPT... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
1,518 | 5.3.2.2.3 RM-REGISTERED state | In the RM-REGISTERED state, the UE is registered with the network. In the RM-REGISTERED state, the UE can receive services that require registration with the network. In the RM-REGISTERED state, the UE shall: - perform Mobility Registration Update procedure if the current TAI of the serving cell (see TS 37.340[ Evolved... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.3.2.2.3 |
1,519 | 4.4.2.2 Establishment of a mapped 5G NAS security context during inter-system change from S1 mode to N1 mode in 5GMM-CONNECTED mode | In order for the UE operating in single-registration mode in a network supporting N26 interface to derive a mapped 5G NAS security context for an inter-system change from S1 mode to N1 mode in 5GMM-CONNECTED mode, the AMF shall construct a mapped 5G NAS security context from the EPS security context received from the s... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 4.4.2.2 |
1,520 | 5.10.2.2 Initiation | If configured to receive MBS multicast services in RRC_INACTIVE, a UE applies the multicast MCCH information acquisition procedure for PTM configuration update and upon reselection to a new cell providing SIB24. A UE that is receiving MBS multicast data in RRC_INACTIVE shall apply the multicast MCCH information acquisi... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.10.2.2 |
1,521 | 10.3.2.3 FPBI class B | This class is reserved for more complex private installation such as multi-cell PABXs. bit No 19 1 +-------------------------------------+ |0 1| | +-------------------+ Type| CNN + FPN + RPN | FPBI 19 bits <-------------------------------------> Figure 16: Structure of FPBI class B The FPBI class B is composed of the f... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 10.3.2.3 |
1,522 | – CarrierAggregationVariant | The IE CarrierAggregationVariant informs the network about supported "placement" of the SpCell in an NR cell group. CarrierAggregationVariant information element -- ASN1START -- TAG-CARRIERAGGREGATIONVARIANT-START CarrierAggregationVariant ::= SEQUENCE { fr1fdd-FR1TDD-CA-SpCellOnFR1FDD ENUMERATED {supported} OPTIONAL, ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
1,523 | 4.3.6.1 MM information procedure initiation by the network | The MM information procedure consists only of the MM INFORMATION message sent from the network to the mobile station. During an RR connection, the network shall send none, one, or more MM INFORMATION messages to the mobile station. If more than one MM INFORMATION message is sent, the messages need not have the same con... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 4.3.6.1 |
1,524 | 7.4.1A Minimum requirements for CA | For inter-band carrier aggregation with one component carrier per operating band and the uplink assigned to one E-UTRA band the maximum input level is defined with the uplink active on the band(s) other than the band whose downlink is being tested. For E-UTRA CA configurations including an operating band without uplink... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 7.4.1A |
1,525 | – RemoteUEInformationSidelink | The RemoteUEInformationSidelink message is used to request SIB(s) or provide paging related information as specified in clause 5.8.9.8.1. Signalling radio bearer: SL-SRB3 RLC-SAP: AM Logical channel: SCCH Direction: L2 U2N Remote UE to L2 U2N Relay UE RemoteUEInformationSidelink message -- ASN1START -- TAG-REMOTEUEINFO... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
1,526 | 4.12a.6 UE or network Requested PDU Session Modification via Trusted non-3GPP access | The UE or network requested PDU Session Modification procedure via trusted non-3GPP access is the same procedure as the one specified in clause 4.12.6 for untrusted non-3GPP access, with the following modifications: - The N3IWF in Figure 4.12.6-1 should be substituted with a TNGF and the Untrusted non-3GPP access shoul... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.12a.6 |
1,527 | 5.5.3.1.1 Sequence generation for basic SRS | The sounding reference signal sequence is defined by clause 5.5.1, where is the sequence-group number defined in clause 5.5.1.3, is the base sequence number defined in clause 5.5.1.4, and . The cyclic shift of the sounding reference signal is given as , where is configured separately for periodic and each configuration... | 3GPP TS 36.211 | Evolved Universal Terrestrial Radio Access (E-UTRA); Physical channels and modulation | RAN1 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 5.5.3.1.1 |
1,528 | 4.25 Support of MUSIM features | A network and a MUSIM UE may support one or more of the MUSIM features (i.e. the N1 NAS signalling connection release, the paging indication for voice services, the reject paging request, the paging restriction and the paging timing collision control). If MUSIM UE supports one or more MUSIM features, the UE indicates s... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 4.25 |
1,529 | 5.3.7.3a Actions following relay selection while T311 is running | Upon selecting a suitable L2 U2N Relay UE, the L2 U2N Remote UE shall: 1> indicate to upper layer to trigger the PC5 unicast link establishment with the selected L2 U2N Relay UE, if a new L2 U2N Relay UE is selected; 1> ensure having valid and up to date essential system information as specified in clause 5.2.2.2; 1> s... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.3.7.3a |
1,530 | B.3 Derivation of CK’CS|| IK’CS from CKPS||IKPS | This input string is used for UMTS subscribers when there is a need to derive CK’CS|| IK’CS from CKPS||IKPS during mapping the security contexts from HSPA to UTRAN/GERAN. The Key is the concatenation of CKPS||IKPS (which are 128 bits each), and the output is CK’CS||IK’CS (which are 128 bits each). - FC = 0x30 - P0 = NO... | 3GPP TS 33.102 | 3G security; Security architecture | SA WG3 | 3GPP Series : 33 , Security aspects | B.3 |
1,531 | 8.11.2.1.3 CE Mode A with TM9 interference model | The requirements are specified in Table 8.11.2.1.3-2, with the addition of parameters in Table 8.11.2.1.3-1. In Table 8.11.2.1.3-2, Cell 1 is the serving cell, and Cell 2 and Cell 3 are the aggressor cells. The downlink physical channel setup is according to Annex C.3.2 for each of Cell 1, Cell 2 and Cell 3, respective... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 8.11.2.1.3 |
1,532 | 9.11.4.13 QoS rules | The purpose of the QoS rules information element is to indicate a set of QoS rules to be used by the UE, where each QoS rule is a set of parameters as described in subclause 6.2.5.1.1.2: a) for classification and marking of uplink user traffic; and b) for identification of a QoS flow which the network is to use for a p... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 9.11.4.13 |
1,533 | 4.13.8.2 Mobility Management and UE Power Saving Optimization | For satellite access that provides discontinuous network coverage, and in case both the UE and the network support Enhanced Discontinuous Coverage, then the Mobility Management and UE Power Saving Optimization functionality may be used. If both the UE and the network indicate support for "Enhanced Discontinuous Coverag... | 3GPP TS 23.401 | General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.13.8.2 |
1,534 | 9.11.4.10 PDU address | The purpose of the PDU address information element is to assign to the UE: - an IPv4 address associated with a PDU session; - an interface identifier for the IPv6 link local address associated with the PDU session; or - an IPv4 address and an interface identifier for the IPv6 link local address, associated with the PDU... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 9.11.4.10 |
1,535 | – UE-CapabilityRequestFilterNR | The IE UE-CapabilityRequestFilterNR is used to request filtered UE capabilities. UE-CapabilityRequestFilterNR information element -- ASN1START -- TAG-UE-CAPABILITYREQUESTFILTERNR-START UE-CapabilityRequestFilterNR ::= SEQUENCE { frequencyBandListFilter FreqBandList OPTIONAL, -- Need N nonCriticalExtension UE-Capability... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
1,536 | 5.2.26.2.2 Nupf_EventExposure_Notify service operation | Service operation name: Nupf_EventExposure_Notify Description: This service operation reports the event and information to the consumer that has subscribed implicitly. Input Required: Event ID, UE address (i.e. IP address or MAC address). Notification Correlation Information. Input, Optional: UE ID, Event specific para... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.26.2.2 |
1,537 | 4.23.7.2.2 Preparation phase | Compared to the procedure in clause 4.9.1.3.2, the SMF interacting with the S-UPF, T-UPF, S-AMF and T-AMF is the I-SMF. The difference is following: - Step 3: The N14 context exchanged between S-AMF and T-AMF contains the SM Context ID at I-SMF, or SM Context ID at SMF if I-SMF is not applicable before. - Step 4: The T... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.23.7.2.2 |
1,538 | 6.2.3 Service continuity requirements | The 5G system shall enable packet loss to be minimized during inter- and/or intra- access technology changes for some or all connections associated with a UE. The 5G system shall minimize interruption time during inter- and/or intra- access technology mobility for some or all connections associated with a UE. NOTE: The... | 3GPP TS 22.261 | Service requirements for the 5G system | SA WG1 | 3GPP Series : 22 , Service aspects ("stage 1") | 6.2.3 |
1,539 | 6.2.24 DCCF | The Data Collection Coordination Function (DCCF) supports the following functionality: - Determining Data Sources that can provide data for a received data request. - Determining whether data is already being collected from a data source. - Instructing a Messaging Framework to send data to consumers or notification end... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 6.2.24 |
1,540 | 4.15.6.14 Procedures for AF requested QoS for a UE or group of UEs not identified by a UE address | Figure 4.15.6.14-1: Procedure for AF requested QoS for a UE or group of UEs not identified by a UE address 0. When a new PDU Session is established, based on local configuration associated with the DNN/S-NSSAI, the PCF determines if the PDU Session needs involvement of TSCTSF. If the TSCTSF is used the PCF invokes Npcf... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.15.6.14 |
1,541 | 5.2.6.28.3 Nnef_ASTI_Update operation | Service operation name: Nnef_ASTI_Update Description: The consumer requests to update the 5G access stratum time distribution configuration, for which the NEF authorizes the request and invokes the corresponding service operation with TSCTSF (clause 5.2.27.4.3). Inputs, Required: As specified in clause 5.2.27.4.3. Inpu... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.6.28.3 |
1,542 | 9.9.3.35 UE radio capability information update needed | The purpose of the UE radio capability information update needed information element is to indicate whether the MME shall delete the stored UE radio capability information, if any. The UE radio capability information update needed information element is coded as shown in figure 9.9.3.35.1and table 9.9.3.35.1. The UE ra... | 3GPP TS 24.301 | Non-Access-Stratum (NAS) protocol for Evolved Packet System (EPS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 9.9.3.35 |
1,543 | 16.1.4 CQI and MCS | For channel state reporting, a CQI table for target block error rate 10-5 is introduced. For scheduling data packets with higher reliability, 64QAM MCS tables containing entries with lower spectral efficiency are introduced for both downlink and uplink. The tables are different for CP-OFDM and DFT-s-OFDM. The MCS table... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.1.4 |
1,544 | 5.5.1.1 Calling party charging | This applies to calling party pays in charged party principals defined in TS 22.115[ Service aspects; Charging and billing ] [101]. For subscription related chargeable events the charging information shall indicate the charged party is normally the calling party. It should be possible for multiple leg calls (e.g. forw... | 3GPP TS 32.240 | Telecommunication management; Charging management; Charging architecture and principles | SA WG5 | 3GPP Series : 32 , OAM&P and Charging | 5.5.1.1 |
1,545 | 6.4.5 Security mode set-up procedure | This section describes one common procedure for both ciphering and integrity protection set-up. It is mandatory to start integrity protection of signalling messages by use of this procedure at each new signalling connection establishment between MS and VLR/SGSN. The five exceptions when it is not mandatory to start int... | 3GPP TS 33.102 | 3G security; Security architecture | SA WG3 | 3GPP Series : 33 , Security aspects | 6.4.5 |
1,546 | 6.26.2.9 Service exposure | Based on MNO policy, the 5G network shall provide suitable APIs to allow a trusted third-party to create/remove a 5G LAN-VN. Based on MNO policy, the 5G network shall provide suitable APIs to allow a trusted third-party to manage a 5G LAN-VN dedicated for the usage by the trusted third-party, including the address allo... | 3GPP TS 22.261 | Service requirements for the 5G system | SA WG1 | 3GPP Series : 22 , Service aspects ("stage 1") | 6.26.2.9 |
1,547 | 9.3.4.2.2 TDD | For the parameters specified in Table 9.3.4.2.2-1, and using the downlink physical channels specified in Annex C.3.2, the minimum requirements are specified in Table 9.3.4.2.2-2 and by the following a) the ratio of the throughput obtained when transmitting on subbands reported by the UE the corresponding TBS and that o... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 9.3.4.2.2 |
1,548 | 4.11.0a.2 Interaction with PCC | When interworking with 5GS is supported and a "SMF+PGW-C" is selected for a PDN connection, policy interactions between PDN GW and PCRF specified in TS 23.401[ General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access ] [13] are replaced by equivalent inte... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.11.0a.2 |
1,549 | D.5 Support for keeping UE in CM-CONNECTED state in overlay network when accessing services via NWu | When UE is accessing the overlay network via the underlay network as described in clause D.3, it is possible to keep the UE in CM-CONNECTED state in the overlay network: - UE maintains at least one PDU Session in underlay network, from where the N3IWF of the overlay network is reachable via the DN of the PDU Session in... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | D.5 |
1,550 | 5.4.4 Scheduling Request | The Scheduling Request (SR) is used for requesting UL-SCH resources for new transmission. When an SR is triggered, it shall be considered as pending until it is cancelled. All pending SR(s) shall be cancelled and sr-ProhibitTimer and ssr-ProhibitTimer shall be stopped when a MAC PDU is assembled and this PDU includes a... | 3GPP TS 36.321 | Evolved Universal Terrestrial Radio Access (E-UTRA); Medium Access Control (MAC) protocol specification | RAN2 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 5.4.4 |
1,551 | 7.2.1 Authentication for Untrusted non-3GPP Access | This clause specifies how a UE is authenticated to 5G network via an untrusted non-3GPP access network. It uses a vendor-specific EAP method called "EAP-5G", utilizing the "Expanded" EAP type and the existing 3GPP Vendor-Id, registered with IANA under the SMI Private Enterprise Code registry. The "EAP-5G" method is use... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 7.2.1 |
1,552 | 10.5.7.4 GPRS Timer 2 | The purpose of the GPRS timer 2 information element is to specify GPRS specific timer values, e.g. for the timer T3302 or timer T3319. The GPRS timer 2 is a type 4 information element with 3 octets length. The GPRS timer 2 information element is coded as shown in figure 10.5.147/3GPP TS 24.008[ Mobile radio interface L... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 10.5.7.4 |
1,553 | Annex D (normative): Interoperation with Gn/Gp SGSNs D.1 General Considerations | This annex specifies interworking between the EPS and 3GPP 2G and/or 3G SGSNs, which provide only Gn and Gp interfaces but no S3, S4 or S5/S8 interfaces, i.e. these Gn/Gp SGSNs provide no functionality that is introduced specifically for the EPS or for interoperation with the E-UTRAN. Interoperation scenarios for opera... | 3GPP TS 23.401 | General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | Annex |
1,554 | 6.3.1 PDU session authentication and authorization procedure 6.3.1.1 General | The purpose of the PDU session authentication and authorization procedure is to enable the DN: a) to authenticate the upper layers of the UE, when establishing the PDU session; b) to authorize the upper layers of the UE, when establishing the PDU session; c) both of the above; or d) to re-authenticate the upper layers ... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 6.3.1 |
1,555 | A.2 KAUSF derivation function | This clause applies to 5G AKA only. When deriving a KAUSF from CK, IK and the serving network name when producing authentication vectors, and when the UE computes KAUSF during 5G AKA, the following parameters shall be used to form the input S to the KDF: - FC = 0x6A; - P0 = serving network name; - L0 = length of the se... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | A.2 |
1,556 | 9.13.1.2.2 TDD | The following requirements apply to UE Category 8 and DL Category 14, 17~20, ≥22. For the parameters specified in table 9.13.1.2.2-1, and using the downlink physical channels specified in tables C.3.2-1 and C.3.2-2, the reported offset level of the wideband spatial differential CQI for codeword #1 (Table 7.2-2 in TS 36... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 9.13.1.2.2 |
1,557 | 5.5.4 Authentication and key agreement procedure for 5G ProSe UE-to-network relay and 5G ProSe UE-to-UE relay 5.5.4.1 General | The purpose of the authentication and key agreement procedure: a) for 5G ProSe UE-to-network relay, is to perform the authentication for 5G ProSe remote UE initiated by the 5G ProSe UE-to-network relay UE and to agree on the KAUSF_P and KNR_ProSe when the security for 5G ProSe communication via 5G ProSe UE-to-network r... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 5.5.4 |
1,558 | 8.96 H(e)NB Information Reporting | H(e)NB number Information Reporting is coded as depicted in Figure 8.96-1. Figure 8.96-1: H(e)NB Information Reporting The following bits within Octet 5 shall indicate: - Bit 1 – FTI: When set to "1", shall indicate to start reporting H(e)NB local IP address and UDP port number information change when the UE moves from... | 3GPP TS 29.274 | 3GPP Evolved Packet System (EPS); Evolved General Packet Radio Service (GPRS) Tunnelling Protocol for Control plane (GTPv2-C); Stage 3 | CT WG4 | 3GPP Series : 29 , Signalling protocols ("stage 3") - intra-fixed-network | 8.96 |
1,559 | 5.3.12 Extended idle-mode DRX cycle | The UE may request the use of extended idle-mode DRX cycle (eDRX) during an attach or tracking area updating procedure by including the extended DRX parameters IE (see 3GPP TS 23.682[ Architecture enhancements to facilitate communications with packet data networks and applications ] [11A] and 3GPP TS 23.401[ General P... | 3GPP TS 24.301 | Non-Access-Stratum (NAS) protocol for Evolved Packet System (EPS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 5.3.12 |
1,560 | 5.30.3.3 UE configuration, subscription aspects and storage | To use CAG, the UE, that supports CAG as indicated as part of the UE 5GMM Core Network Capability, may be pre-configured or (re)configured with the following CAG information, included in the subscription as part of the Mobility Restrictions: - an Allowed CAG list i.e. a list of CAG Identifiers the UE is allowed to acce... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.30.3.3 |
1,561 | 5.18.2 Broadcast system information for network sharing | If a shared NG-RAN is configured to indicate available networks (PLMNs and/or SNPNs) for selection by UEs, each cell in the shared radio access network shall in the broadcast system information include available core network operators in the shared network. The Broadcast System Information broadcasts a set of PLMN IDs ... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.18.2 |
1,562 | 2.3 Allocation and assignment principles | IMSI shall consist of decimal digits (0 through 9) only. The number of digits in IMSI shall not exceed 15. The allocation and assignment of Mobile Country Codes (MCCs) is administered by the ITU. The current assignment is available on ITU web site (https://www.itu.int/en/ITU-T/inr/Pages/default.aspx). The assignment of... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 2.3 |
1,563 | 4.22.10.3 UE or network requested MA PDU Session Release (home-routed roaming) | The signalling flow for a MA PDU Session Release when the UE is registered to the same VPLMN over 3GPP access and non-3GPP access and the PDU Session Anchor (PSA) is located in the HPLMN, is based on the signalling flow in Figure 4.3.4.3-1 with the following differences and clarifications: - In step 1, if the V-AMF nee... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.22.10.3 |
1,564 | 5.7.1.2 QoS Profile | A QoS Flow may either be 'GBR' or 'Non-GBR' depending on its QoS profile. The QoS profile of a QoS Flow is sent to the (R)AN and it contains QoS parameters as described below (details of QoS parameters are described in clause 5.7.2): - For each QoS Flow, the QoS profile shall include the QoS parameters: - 5G QoS Identi... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.7.1.2 |
1,565 | 9.2.2.1 FDD | The following requirements apply to UE Category ≥2. For the parameters specified in table 9.2.2.1-1, and using the downlink physical channels specified in tables C.3.2-1 and C.3.2-2, the reported offset level of the wideband spatial differential CQI for codeword #1 (Table 7.2-2 in TS 36.213[ Evolved Universal Terrestri... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 9.2.2.1 |
1,566 | 5.3.3.4 Support of a UE connected over both 3GPP and Non-3GPP access | The AMF manages two CM states for an UE: a CM state for 3GPP access and a CM state for Non-3GPP access. An N2 interface can serve the UE for either 3GPP access or for Non 3GPP access. UE connected over both 3GPP and Non-3GPP has got two N2 interfaces, one for each access. A UE may be in any combination of the CM states... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.3.3.4 |
1,567 | D.2 GTP-C interfaces not supporting Overload Control | Overload Control has been designed as a generic mechanism possibly applicable to any GTP-C based interface and any direction. However for the reasons clarified below, in the current release, Overload Control is not supported for the following GTP-C based interfaces: - S3, S10, S16 (see considerations below, to minimize... | 3GPP TS 29.274 | 3GPP Evolved Packet System (EPS); Evolved General Packet Radio Service (GPRS) Tunnelling Protocol for Control plane (GTPv2-C); Stage 3 | CT WG4 | 3GPP Series : 29 , Signalling protocols ("stage 3") - intra-fixed-network | D.2 |
1,568 | 5.7.2.1 5QI | A 5QI is a scalar that is used as a reference to 5G QoS characteristics defined in clause 5.7.4, i.e. access node-specific parameters that control QoS forwarding treatment for the QoS Flow (e.g. scheduling weights, admission thresholds, queue management thresholds, link layer protocol configuration, etc.). Standardized... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.7.2.1 |
1,569 | 5.19.1 NAS Message Redirection Procedure | When DCNs are used, these steps are used to reroute a NAS message (and thereby a UE) from one CN node to another CN node during Attach, TAU or RAU procedure. These steps are also used by the MME/SGSN or HSS initiated Dedicated Core Network Reselection procedure in clause 5.19.3. Figure 5.19.1-1: NAS Message Redirection... | 3GPP TS 23.401 | General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.19.1 |
1,570 | 8.11.1.2.3 Transmit diversity performance (Cell-Specific Reference Symbols) | 8.11.1.2.3.1 Minimum Requirement 2 Tx Antenna Port supporting narrowband transmission The requirements are specified in Table 8.11.1.2.3.1-2, with the addition of the parameters in Table 8.11.1.2.3.1-1 and Table 8.11.1.2.3.1-1a, and the downlink physical channel setup according to Annex C.3.2. The purpose is to verify ... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 8.11.1.2.3 |
1,571 | 8.79 CSG Membership Indication (CMI) | CSG Membership Indication is coded as depicted in Figure 8.79-1. Figure 8.79-1: CSG Membership Indication Table 8.79-1: void CSG Membership Indication (CMI) values are specified in Table 8.79-2. Table 8.79-2: CSG Membership indication (CMI) NOTE: Due to a specification oversight, the CMI values in the above table are r... | 3GPP TS 29.274 | 3GPP Evolved Packet System (EPS); Evolved General Packet Radio Service (GPRS) Tunnelling Protocol for Control plane (GTPv2-C); Stage 3 | CT WG4 | 3GPP Series : 29 , Signalling protocols ("stage 3") - intra-fixed-network | 8.79 |
1,572 | 6.2.3 PDU session management | The SMF is responsible for the session management functions to provide the PDU connectivity service to the UE via the 5GSM signalling between UE and SMF. The session management procedures includes: a) the UE-requested PDU session establishment procedure; b) the PDU session authentication and authorization procedure; c)... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 6.2.3 |
1,573 | 5.10 Semi-Persistent Scheduling | Except for NB-IoT, multiple UL Semi-Persistent Scheduling configurations are supported per Serving Cell. For NB-IoT, UL Semi-Persistent Scheduling configuration is only supported for BSR per Serving Cell. On one Serving Cell, multiple UL configurations can be active simultaneously only for the same TTI length. Multiple... | 3GPP TS 36.321 | Evolved Universal Terrestrial Radio Access (E-UTRA); Medium Access Control (MAC) protocol specification | RAN2 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 5.10 |
1,574 | 10.2.2.3 Key generation for Unauthenticated IMS Emergency Sessions 10.2.2.3.1 General | An unauthenticated UE does not share a complete 5G NAS security context with the network as there has been no successful primary authentication run between the UE and the AMF. When the UE and the AMF does not share the security context the only possibility for an AMF that allows unauthenticated IMS Emergency Sessions i... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 10.2.2.3 |
1,575 | 4.12.8 Mobility from a non-geographically selected AMF to a geographically selected AMF | This procedure describes the AMF change that takes place when an UE initially served via non-3GPP access by an AMF selected based on non-geographical criteria (e.g. because the UE had no 3GPP access coverage or because only non-geographically selectable N3IWF are deployed) gets 3GPP access and is now to be served by an... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.12.8 |
1,576 | 5.8.9.3 Sidelink radio link failure related actions | The UE shall: 1> upon indication from sidelink RLC entity that the maximum number of retransmissions for a specific destination has been reached; or 1> upon T400 expiry for a specific destination; or 1> upon indication from MAC entity that the maximum number of consecutive HARQ DTX for a specific destination has been r... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.8.9.3 |
1,577 | 8.23.2 Migration of mobile IAB-MT via NG handover | The mobile IAB-MT can be migrated from a source RRC-terminating IAB-donor-CU to a target RRC-terminating IAB-donor-CU using the NG handover procedure. During this migration, the mobile IAB-DU co-located with the mobile IAB-MT is connected to an F1-terminating IAB-donor-CU, which may be the same as the source RRC-termin... | 3GPP TS 38.401 | NG-RAN; Architecture description | RAN3 | 3GPP Series : 38 , Radio technology beyond LTE | 8.23.2 |
1,578 | 6.3.1A.2 Service-level authentication and authorization procedure initiation | In order to initiate the service-level authentication and authorization procedure, the SMF shall create a SERVICE-LEVEL AUTHENTICATION COMMAND message. The SMF shall set the PTI IE of the SERVICE-LEVEL AUTHENTICATION COMMAND message to "No procedure transaction identity assigned". The SMF shall set the service-level-AA... | 3GPP TS 24.501 | Non-Access-Stratum (NAS) protocol for 5G System (5GS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 6.3.1A.2 |
1,579 | 4 Elementary procedures for Mobility Management 4.1 General | This clause describes the procedures used for mobility management for non-GPRS services and for GPRS-services at the radio interface (Reference Point Um and Uu). The main function of the Mobility Management sublayer is to support the mobility of user terminals, such as informing the network of its present location and ... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 4 |
1,580 | 4.16.8.2 Initial Spending Limit Retrieval | This clause describes the signalling flow for the PCF to retrieve the status of the policy counters available at the CHF and to subscribe to spending limit reporting (i.e. to notifications of policy counter status changes) by the CHF. If the PCF provides the list of policy counter identifier(s), the CHF returns the pol... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.16.8.2 |
1,581 | 5.7.1.4 QoS Rules | The UE performs the classification and marking of UL User plane traffic, i.e. the association of UL traffic to QoS Flows, based on QoS rules. These QoS rules may be explicitly provided to the UE (i.e. explicitly signalled QoS rules using the PDU Session Establishment/Modification procedure), pre-configured in the UE or... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.7.1.4 |
1,582 | 4.2 Behaviour of the MS in MM Idle state, GMM-DEREGISTERED state and GMM-REGISTERED state | In this subclause, the detailed behaviour of the MS in the main states MM IDLE, GMM-DEREGISTERED and GMM-REGISTERED is described. Subclauses 4.2.1 to 4.2.3 refer to the state MM IDLE, whereas subclauses 4.2.4 and 4.2.5 refer to the states GMM-DEREGISTERED and GMM-REGISTERED, respectively. The MM IDLE state is entered w... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 4.2 |
1,583 | 5.6.1.4.1 UE is not using EPS services with control plane CIoT EPS optimization | If EMM-REGISTERED without PDN connection is supported by the UE and the MME and the MME has no active EPS bearer contexts for the UE, for cases a, b, c and o in clause 5.6.1.1, upon receipt of the SERVICE REQUEST message or the EXTENDED SERVICE REQUEST message for packet services, after completion of the EMM common pro... | 3GPP TS 24.301 | Non-Access-Stratum (NAS) protocol for Evolved Packet System (EPS); Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 5.6.1.4.1 |
1,584 | 6.2.5D Configured transmitted power for ProSe | When UE is configured for E-UTRA ProSe sidelink transmissions non-concurrent with E-UTRA uplink transmissions for E-UTRA ProSe operating bands specified in Table 5.5D-1, the configured maximum output power PCMAX,c and power boundary requirement specified in subclause 6.2.5 shall apply to UE supporting ProSe, where - MP... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 6.2.5D |
1,585 | 5.27.2.4 TSCAI determination based on TSC Assistance Container | The SMF determines the TSCAI (defined in Table 5.27.2-1) for the QoS Flow based on the TSC Assistance Container of the PCC rule bound to the QoS Flow. This clause is applicable irrespective of whether the TSC Assistance Container is determined by the TSN AF or by the TSCTSF. The Burst Arrival Time and Periodicity compo... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.27.2.4 |
1,586 | 5.3.4B.2 Mobile Originated Data Transport in Control Plane CIoT EPS Optimisation with P-GW connectivity | Figure 5.3.4B.2-1: MO Data transport in NAS PDU 0. The UE is ECM-IDLE. 1. The UE establishes a RRC connection or sends the RRCEarlyDataRequest message as defined in TS 36.300[ Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage... | 3GPP TS 23.401 | General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.3.4B.2 |
1,587 | 6 Security procedures between UE and 5G network functions 6.0 General | When the UE is capable of connecting to 5GC and EPC and connected to an ng-eNB which is connected to both EPC and 5GC, the UE has the ability to select which core network to connect to as described in clause 4.8.4 in TS24.501[35]. If the UE selects the EPC, the UE shall use security procedure as in TS33.401[10]. Otherw... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 6 |
1,588 | 20.2A MBMS heartbeat | The MBMS heartbeat procedure enables the BM-SC and MBMS GW to detect an SGmb path failure or the restart of the peer MBMS node, as specified in 3GPP TS 23.007[ Restoration procedures ] [104]. The use of this procedure shall be negotiated between the BM-SC and MBMS GW upon contacting the peer node for the first time. N... | 3GPP TS 29.061 | Interworking between the Public Land Mobile Network (PLMN) supporting packet based services and Packet Data Networks (PDN) | CT WG3 | 3GPP Series : 29 , Signalling protocols ("stage 3") - intra-fixed-network | 20.2A |
1,589 | 5.2.2.2.2 SI change indication and PWS notification | A modification period is used, i.e. updated SI message (other than SI message for ETWS, CMAS, positioning assistance data, and some NTN-specific information as specified in the field descriptions ) is broadcasted in the modification period following the one where SI change indication is transmitted. The modification pe... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.2.2.2.2 |
1,590 | 6.31.1 Description | A mobile network can fail to provide service in the event of a disaster (for example a fire.) The requirements listed in this clause provide the 5GS with the capability to mitigate interruption of service. UEs can obtain service in the event of a disaster, if there are PLMN operators prepared to offer service. The mini... | 3GPP TS 22.261 | Service requirements for the 5G system | SA WG1 | 3GPP Series : 22 , Service aspects ("stage 1") | 6.31.1 |
1,591 | 5.5.7.5 Sequencing of subsequent start DTMF requests by the mobile station | If the network is generating DTMF tones it shall ensure that the minimum length of tone and the minimum gap between two subsequent tones (according to ETSI ES 201 235-2 [12a]) is achieved. NOTE 1: In ETSI ES 201 235-2 [12a] the minimum duration of a DTMF tone is 65ms. NOTE 2: In ETSI ES 201 235-2 [12a] the minimum gap ... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 5.5.7.5 |
1,592 | 9.3.7.2 TDD | For the parameters specified in Table 9.3.7.2-1, and using the downlink physical channels specified in Annex C.3.2, the minimum requirements are specified in Table 9.3.7.2-2 and by the following. a) the ratio of the throughput obtained when transmitting based on UE PUSCH 3-2 reported wideband CQI and subband PMI and th... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 9.3.7.2 |
1,593 | 12.3.7 Updating the PGW with overload control information of the target MME/S4-SGSN | During inter-MME/S4-SGSN mobility without SGW change scenarios, the SGW shall forward the MME/S4-SGSN's overload control information over the S5/S8 interface only if the Modify Bearer Request message needs to be sent over the S5/S8 for another reason, e.g. if the ULI, CGI, Serving Network, needs to be reported to the P... | 3GPP TS 29.274 | 3GPP Evolved Packet System (EPS); Evolved General Packet Radio Service (GPRS) Tunnelling Protocol for Control plane (GTPv2-C); Stage 3 | CT WG4 | 3GPP Series : 29 , Signalling protocols ("stage 3") - intra-fixed-network | 12.3.7 |
1,594 | 5.3.5.16 L2 U2N or U2U Remote UE configuration | The network configures the L2 U2N or U2U Remote UE with relay operation related configurations, e.g. SRAP configuration. The L2 U2N Remote UE shall: 1> if sl-L2RemoteUE-Config is set to setup or received from RRCSetup message: 2> if the sl-L2RemoteUE-Config contains the sl-SRAP-ConfigRemote: 3> if no SRAP entity has be... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.3.5.16 |
1,595 | 4.15.7 Network status reporting | This clause contains the detailed description and the procedures for the network status reporting capability. An AF may request for being notified about the network status, in a specific geographical area or for a specific UE. The following methods are supported: - The AF requests to be informed, one-time, about the ne... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.15.7 |
1,596 | 4.3.25.2 Considerations for Roaming | In the case of roaming, if the HPLMN of the visiting UE does not support DCNs, i.e. doesn't provide the UE Usage Type, the serving MME/SGSN may select the DCN that serves the UE using operator specific policies based on other subscription or UE provided information. In the case of roaming, if the HPLMN provides the UE ... | 3GPP TS 23.401 | General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.3.25.2 |
1,597 | 6.9.2.2 Services and Service Continuity | A 5G system shall be able to support all types of traffic e.g. voice, data, IoT small data, multimedia, MCX for indirect network connection mode. The 5G system shall be able to support QoS for a user traffic session between the remote UE and the network using 3GPP access technology. The 5G system shall be able to provi... | 3GPP TS 22.261 | Service requirements for the 5G system | SA WG1 | 3GPP Series : 22 , Service aspects ("stage 1") | 6.9.2.2 |
1,598 | 12.2.5.1.2 Parameters | 12.2.5.1.2.1 Load Control Sequence Number The Load Control Sequence number contains a value that indicates the sequence number associated with the LCI IE. This sequence number shall be used to differentiate any two LCI IEs generated at two different instances by the same GTP-C entity. The Load Control Sequence Number s... | 3GPP TS 29.274 | 3GPP Evolved Packet System (EPS); Evolved General Packet Radio Service (GPRS) Tunnelling Protocol for Control plane (GTPv2-C); Stage 3 | CT WG4 | 3GPP Series : 29 , Signalling protocols ("stage 3") - intra-fixed-network | 12.2.5.1.2 |
1,599 | 4.2.4.3 Substate when back to state GMM-DEREGISTERED from another GMM state | When returning to state GMM-DEREGISTERED, the MS shall select a cell as specified in 3GPP TS 43.022[ None ] [82] and 3GPP TS 25.304[ None ] [98]. The substate depends on the result of the cell selection procedure, the outcome of the previously performed GMM specific procedures, on the GPRS update status of the MS, on... | 3GPP TS 24.008 | Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 | CT WG1 | 3GPP Series : 24 , Signalling protocols ("stage 3") - user equipment to network | 4.2.4.3 |
1,600 | 8.13.1.3.1 Minimum Requirement Single-Layer Spatial Multiplexing 2 Tx Antenna Port with TM4 interference model (Cell-Specific Reference Symbols) | The purpose of these tests is to verify the closed loop rank-one performance with wideband precoding with two transmit antennas when the PDSCH transmission in the serving cell is interfered by PDSCH of one dominant interfering cell applying transmission mode 4 interference model defined in clause B.5.3. In Table 8.13.1... | 3GPP TS 36.101 | Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception | RAN4 | 3GPP Series : 36 , LTE (Evolved UTRA), LTE-Advanced, LTE-Advanced Pro radio technology | 8.13.1.3.1 |
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