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3,001 | 5.15.11.3 Network Slice Admission Control for Roaming 5.15.11.3.0 General | In the case of roaming, depending on operator's policy, a roaming agreement or an SLA between the VPLMN and the HPLMN, NSAC of roaming UEs is performed by one of the following modes of NSAC admission: - VPLMN NSAC Admission; or - VPLMN with HPLMN assistance NSAC Admission; or - HPLMN NSAC Admission. The VPLMN (AMF and ... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.15.11.3 |
3,002 | D.2 Factory automation – other use cases D.2.0 General | Factory automation encompasses all types of production that result in discrete products: cars, chocolate bars, etc. Automation that addresses the control of flows and chemical reactions is referred to as process automation (see clause D.3). Discrete automation requires communications for supervisory and open-loop contr... | 3GPP TS 22.261 | Service requirements for the 5G system | SA WG1 | 3GPP Series : 22 , Service aspects ("stage 1") | D.2 |
3,003 | 15.3.1.3 Application layer initialization | Once SCTP connectivity has been established, the NG-RAN node and the AMF shall exchange application level configuration data over NGAP with the NG Setup procedure, which is needed for these two nodes to interwork correctly on the NG interface: - The NG-RAN node provides the relevant configuration information to the AMF... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 15.3.1.3 |
3,004 | 5.4.1 UL Grant reception | In order to transmit on the UL-SCH the MAC entity must have a valid uplink grant (except for non-adaptive HARQ retransmissions) which it may receive dynamically on the PDCCH or in a Random Access Response or which may be configured semi-persistently or preallocated by RRC or provided by RRC for transmission using PUR (... | 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 | 5.4.1 |
3,005 | 4.13.6.1 EPS fallback for IMS voice | Figure 4.13.6.1-1 describes the EPS fallback procedure for IMS voice. When the UE is served by the 5G System, the UE has one or more ongoing PDU Sessions each including one or more QoS Flows. The serving PLMN AMF has sent an indication towards the UE during the Registration procedure that IMS voice over PS session is s... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.13.6.1 |
3,006 | 4.2.2.3.3 Network-initiated Deregistration | The procedure depicted in Figure 4.2.2.3.3-1 shows Network-initiated Deregistration procedure. The AMF can initiate this procedure for either explicit (e.g. by O&M intervention or if the AMF determines that no S-NSSAI can be provided in the Allowed NSSAI for the UE or the UE's registered PLMN is not allowed to operate ... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.2.2.3.3 |
3,007 | 5.2.2.2.11 Namf_Communication_CreateUEContext service operation | Service operation name: Namf_Communication_CreateUEContext Description: This service operation is used by a source AMF to create the UE context in a target AMF during handover procedures or an initial AMF to relocate the UE context to a target AMF during inter PLMN handover procedure. Input, Required: 5G-GUTI, UE conte... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.2.2.11 |
3,008 | 8.2.4 Intra-CU topological redundancy procedure | The intra-CU topological redundancy procedure enables the establishment and release of redundant paths in the IAB-topology underneath the same IAB-donor-CU. The redundant paths may use different IAB-donor-DUs. They may also have common intermediate nodes. Since topological redundancy uses NR-DC for the IAB-MT, it is on... | 3GPP TS 38.401 | NG-RAN; Architecture description | RAN3 | 3GPP Series : 38 , Radio technology beyond LTE | 8.2.4 |
3,009 | 12.3.4.2 Elements of APN overload control | For allowing the effective APN overload control, at least the following information (in addition to the other applicable information for overload control as defined in clause 12.3.5.1.2) are required to be advertised by the source node, as part of the APN level overload information: APN: The APN for which the source no... | 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 | 12.3.4.2 |
3,010 | 7.7.1G Minimum requirements for V2X | The throughput shall be ≥ 95% of the maximum throughput of the reference measurement channels as specified in Annex A.8.2 with parameters specified in Tables 7.7.1G-1. Table 7.7.1G-1: Spurious response parameters Table 7.7.1G-2: Spurious response When UE is configured for simultaneous E-UTRA V2X sidelink and E-UTRA dow... | 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 | 7.7.1G |
3,011 | 16.12.6.3 Switching from indirect to indirect path | The gNB can select an L2 U2N Relay UE in any RRC state i.e., RRC_IDLE, RRC_INACTIVE, or RRC_CONNECTED, as a target L2 U2N Relay UE for indirect to indirect path switch. For service continuity of L2 U2N Remote UE, the following procedure is used, in case of the L2 U2N Remote UE switching from indirect path via L2 U2N Re... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.12.6.3 |
3,012 | 6.2.9A TNGF | The functionality of TNGF in the case of trusted non-3GPP access includes the following: - Terminates the N2 and N3 interfaces. - Terminates the EAP-5G signalling and behaves as authenticator when the UE attempts to register to 5GC via the TNAN. - Implements the AMF selection procedure. - Transparently relays NAS messa... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 6.2.9A |
3,013 | K.2.4 IOPS network establishment/termination | The decision by an IOPS-capable eNodeB to enter IOPS mode of operation is made in accordance with the local policies of the RAN operator. Such policies can be affected by any RAN sharing agreements that are in place. In situations when the backhaul to the Macro EPC is lost and an eNodeB can start IOPS mode of operation... | 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") | K.2.4 |
3,014 | 8.11.1.2.2 Closed-loop spatial multiplexing performance (User-Specific Reference Symbols) | 8.11.1.2.2.1 Single-layer Spatial Multiplexing For single-layer transmission on antenna ports 7 or 8 upon detection of a PDCCH with DCI format 6-1A, the requirements are specified in Table 8.11.1.2.2.1-2 with the addition of the parameters in Table 8.11.1.2.2.1-1 and the downlink physical channel setup according to Ann... | 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 | 8.11.1.2.2 |
3,015 | 6.3.8 UDM discovery and selection | The NF consumer or the SCP performs UDM discovery to discover a UDM instance that manages the user subscriptions. If the NF consumer performs discovery and selection, the NF consumers shall utilize the NRF to discover the UDM instance(s) unless UDM information is available by other means, e.g. locally configured on NF ... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 6.3.8 |
3,016 | 5.2.6.23.2 Nnef_AMInfluence_Create operation | Service operation name: Nnef_AMInfluence_Create Description: Authorize the request and store the AM influence data in the UDR, potentially translating GSPI to SUPI and External Group Identifier to Internal Group Identifier. Inputs, Required: AF Transaction Id. The AF Transaction Id refers to the request. Inputs, Option... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.6.23.2 |
3,017 | 8.4.1.2.7 Enhanced Downlink Control Channel Performance Requirement Type B - 2 Tx Antenna Port with Colliding CRS Dominant Interferer | The purpose of this test is to verify the Enhanced Downlink Control Channel Performance Requirement Type B for PDCCH/PCFICH with 2 transmit antennas for the case of dominant interferer with the colliding CRS pattern and applying interference model defined in clause B.7.1. For the parameters specified in Table 8.4.1-1 a... | 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 | 8.4.1.2.7 |
3,018 | 4.17.1 NF service Registration | NOTE 1: The term "NF service consumer" in this clause refers to the consumer of the NRF services and should not be confused with the role of the NF (consumer or producer). Figure 4.17.1-1: NF Service Registration procedure 1. NF service consumer, i. e. an NF instance sends Nnrf_NFManagement_NFRegister Request message t... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.17.1 |
3,019 | 5.6.1.8 Abnormal cases on the network side | The following abnormal cases can be identified: a) Lower layer failure. If a lower layer failure occurs before a SERVICE REJECT message has been sent to the UE or the service request procedure has been completed by the AMF, the AMF enters/stays in 5GMM-IDLE. b) Protocol error. If the SERVICE REQUEST message or the CONT... | 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 | 5.6.1.8 |
3,020 | 5.17.8 URSP Provisioning in EPS | When the UE registers in 5GS, the UE includes the Indication of URSP Provisioning Support in EPS in the UE Policy Container carried in Registration Request. On receiving this indication in the UE Policy Container, the PCF will provision the URSP to UE in EPS. The UE may include the indication of URSP Provisioning Suppo... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.17.8 |
3,021 | 5.3.4 Registration areas | Within the 5GS, the registration area is managed independently per access type, i.e., 3GPP access or non-3GPP access. The AMF assigns a registration area to the UE during the registration procedure. A registration area is defined as a set of tracking areas and each of these tracking areas consists of one or more cells ... | 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 | 5.3.4 |
3,022 | .1 PDN GW initiated bearer modification with bearer QoS update | The PDN GW initiated bearer modification procedure (including EPS Bearer QoS update) for a GTP based S5/S8 is depicted in figure 5.4.2.1-1. This procedure is used in cases when one or several of the EPS Bearer QoS parameters QCI, GBR, MBR or ARP are modified (including the QCI or the ARP of the default EPS bearer e.g. ... | 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") | .1 |
3,023 | 13.4.4 QoE Measurement Continuity for Mobility | For ongoing sessions, QoE measurement continuity is ensured during mobility in NR-DC, e.g., during inter-MN handover (with/without SN change) and SN change scenarios. To ensure QoE measurement continuity during SN change, the SN-initiated SN modification procedure and/or the MN-initiated SN modification procedure can b... | 3GPP TS 37.340 | Evolved Universal Terrestrial Radio Access (E-UTRA) and NR; Multi-connectivity; Overall Description; Stage-2 | RAN2 | 3GPP Series : 37 , Multiple radio access technology aspects | 13.4.4 |
3,024 | 4.2.2.3 Deregistration procedures 4.2.2.3.1 General | The Deregistration procedure allows: - the UE to inform the network that it does not want to access the 5GS any longer; and - the network to inform the UE that it does not have access to the 5GS any longer; or - the network to inform the UE that the UE's Registered PLMN is not allowed to operate at the UE location. The... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.2.2.3 |
3,025 | 5.8.16.3 Neighbor UE(s) in proximity conditions | A UE capable of NR sidelink U2U Relay UE operation and is performing U2U Relay Discovery with Model A as specified in TS 23.304[ Proximity based Services (ProSe) in the 5G System (5GS) ] [65] shall: 1> for each of potential neighbor UE(s): 2> if the SL-RSRP of the UE is available and is above sl-RSRP-Thresh-DiscConfig ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.8.16.3 |
3,026 | 5.2.2.3.1 Response to SETUP | Having entered the "call present state" the call control entity of the mobile station shall - with the exception of the cases described below - acknowledge the SETUP message by a CALL CONFIRMED message, and enter the "mobile terminating call confirmed" state. If the mobile station supports multicall, it shall include t... | 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 | 5.2.2.3.1 |
3,027 | 10.5.3.6 Reject cause | The purpose of the Reject Cause information element is to indicate the reason why a request from the mobile station is rejected by the network. The Reject Cause information element is coded as shown in figure 10.5.81/3GPP TS 24.008[ Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 ] and ta... | 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 | 10.5.3.6 |
3,028 | – MAC-CellGroupConfig | The IE MAC-CellGroupConfig is used to configure MAC parameters for a cell group, including DRX. MAC-CellGroupConfig information element -- ASN1START -- TAG-MAC-CELLGROUPCONFIG-START MAC-CellGroupConfig ::= SEQUENCE { drx-Config SetupRelease { DRX-Config } OPTIONAL, -- Need M schedulingRequestConfig SchedulingRequestCon... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,029 | 5.34.4 Usage of an UL Classifier for a PDU Session controlled by I-SMF | This clause applies only in the case of non-roaming or LBO roaming as control of UL CL/BP in VPLMN is not supported in HR case. When I-SMF is involved for a PDU Session, it is possible that the UL CL controlled by I-SMF is inserted into the data path of the PDU Session. The usage of an ULCL controlled by I-SMF in the d... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.34.4 |
3,030 | 8.7 Sustained downlink data rate provided by lower layers | The purpose of the test is to verify that the Layer 1 and Layer 2 correctly process in a sustained manner the received packets corresponding to the maximum number of DL-SCH transport block bits received within a TTI for the UE category indicated. The sustained downlink data rate shall be verified in terms of the succes... | 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 | 8.7 |
3,031 | 7.5.1H Minimum requirements for LTE based 5G terrestrial broadcast | The UE shall fulfil the minimum requirement specified in Table 7.5.1H-1 for all values of an adjacent channel interferer up to –22 dBm. However it is not possible to directly measure the ACS, instead the lower and upper range of test parameters are chosen in Table 7.5.1H-2 and Table 7.5.1H-3 where the throughput shall ... | 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 | 7.5.1H |
3,032 | – SIB5 | SIB5 contains information relevant only for inter-RAT cell re-selection i.e. information about E-UTRA frequencies and E-UTRAs neighbouring cells relevant for cell re-selection. The IE includes cell re-selection parameters common for a frequency. SIB5 information element -- ASN1START -- TAG-SIB5-START SIB5 ::= SEQUENCE ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,033 | 6.3.2 SMF discovery and selection | The SMF selection functionality is supported by the AMF and SCP and is used to allocate an SMF that shall manage the PDU Session. The SMF selection procedures are described in clause 4.3.2.2.3 of TS 23.502[ Procedures for the 5G System (5GS) ] [3]. The SMF discovery and selection functionality follows the principles s... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 6.3.2 |
3,034 | 5.7.10.5 RA information determination | The UE shall, for the last successfully completed or last failed random-access procedure, set the content in ra-InformationCommon as follows: 1> set the absoluteFrequencyPointA to indicate the absolute frequency of the reference resource block associated to the random-access resources used in the random-access procedur... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.7.10.5 |
3,035 | 9.2.7.1 Frame structure type 3 wth FDD Pcell | The following requirements apply to UE Category ≥1. For the parameters specified in Table 9.2.7.1-1, Table 9.2.7.1-2and using the downlink physical channels specified in tables C.3.2-1 and C.3.2-2, two sets of CQI reports are obtained for LAA Scell, The first one is obtained by reports whose reference resource is in 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 | 9.2.7.1 |
3,036 | 8.3.2.4.4 Minimum requirement with Different Cell ID and non-Colliding CRS (with single NZP CSI-RS resource and CRS assistance information is configured) | The requirements are specified in Table 8.3.2.4.4-3, with the additional parameters in Table 8.3.2.4.4-1 and Table 8.3.2.4.4-2. 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 three transmission points have di... | 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 | 8.3.2.4.4 |
3,037 | 5.5.4.9 Event B2 (PCell becomes worse than threshold1 and inter RAT neighbour becomes better than threshold2) | The UE shall: 1> consider the entering condition for this event to be satisfied when both condition B2-1 and condition B2-2, as specified below, are fulfilled; 1> consider the leaving condition for this event to be satisfied when condition B2-3 or condition B2-4, i.e. at least one of the two, as specified below, is ful... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.5.4.9 |
3,038 | 8.21.3 RAI field | The coding of RAI (Routing Area Identity) is depicted in Figure 8.21.3-1. Only zero or one RAI field shall be present in ULI IE. Figure 8.21.3-1: RAI field The Location Area Code (LAC) consists of 2 octets. Bit 8 of Octet c+3 is the most significant bit and bit 1 of Octet c+4 the least significant bit. The coding of th... | 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 | 8.21.3 |
3,039 | – PTRS-UplinkConfig | The IE PTRS-UplinkConfig is used to configure uplink Phase-Tracking-Reference-Signals (PTRS). PTRS-UplinkConfig information element -- ASN1START -- TAG-PTRS-UPLINKCONFIG-START PTRS-UplinkConfig ::= SEQUENCE { transformPrecoderDisabled SEQUENCE { frequencyDensity SEQUENCE (SIZE (2)) OF INTEGER (1..276) OPTIONAL, -- Need... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,040 | 7.9.5 PGW Restart Notification | The direction of this message shall be from SGW to MME/S4-SGSN (see Table 6.1-1). If both the SGW and the MME/S4-SGSN support the PRN feature (see clause 8.83), a PGW Restart Notification shall be sent when the SGW detects that the peer PGW has restarted, and a PGW Restart Notification may be sent when the SGW detects ... | 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 | 7.9.5 |
3,041 | 6.3.11 Handling of Reliable Data Service | If the UE supports Reliable Data Service (see 3GPP TS 24.250[ Protocol for Reliable Data Service; Stage 3 ] [51]), the UE may request data transfer using Reliable Data Service for a PDN connection in the Extended protocol configuration options IE during attach and UE-requested PDN connectivity procedures (see clause 5... | 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 | 6.3.11 |
3,042 | 4.13.8.4 Coverage availability information provisioning to the MME | The MME may use satellite coverage availability information to support satellite access by UEs with discontinuous coverage operation. Satellite coverage availability information may be provisioned to the MME by O&M. NOTE: In this release of the specification there is no support for provisioning of satellite coverage av... | 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") | 4.13.8.4 |
3,043 | 5.21.2.1 AMF Addition/Update | The 5G System should support establishment of association between AMF and 5G-AN node. A new AMF can be added to an AMF set and association between AMF and GUAMI can be created and/or updated as follows: - AMF shall be able to dynamically update the NRF with the new or updated GUAMI(s) to provide mapping between GUAMI(s... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.21.2.1 |
3,044 | 13a Interworking with IMS 13a.1 General | Interworking with the IP Multimedia Core Network Subsystem (IMS) puts additional requirements on the GGSN/P-GW. When the MS/UE connects to the IP Multimedia Core Network Subsystem (IMS), specific parameters in Session Management messages may be handled. The IMS specific parameters are: IMS signalling flag, P-CSCF addre... | 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 | 13a |
3,045 | 8.6.2 Mapping of an EPS security context to a 5G security context | The derivation of a mapped 5G security context from an EPS security is done as described below. - The KAMF' key, taken as the KAMF, shall be derived from the KASME using the EPS NAS Uplink COUNT of the TAU message included in the Registration Request message in idle mode mobility or the NH value in handovers as describ... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 8.6.2 |
3,046 | 9.3.2.1.1 FDD | For the parameters specified in Table 9.3.2.1.1-1 and Table 9.3.2.1.1-3, and using the downlink physical channels specified in Annex C.3.2, the minimum requirements are specified in Table 9.3.2.1.1-2 and Table 9.3.2.1.1-4 and by the following a) a CQI index not in the set {median CQI -1, median CQI, median CQI +1} shal... | 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 | 9.3.2.1.1 |
3,047 | 8.2.1.2.5 Enhanced Performance Requirement Type B - 2 Tx Antenna Ports with TM2 interference model | The requirements are specified in Table 8.2.1.2.5-2, with the addition of parameters in Table 8.2.1.2.5-1 and the downlink physical channel setup according to Annex C.3.2. The purpose is to verify the performance of transmit diversity (SFBC) with 2 transmit antennas when the PDSCH transmission in the serving cell is in... | 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 | 8.2.1.2.5 |
3,048 | – SL-BWP-PoolConfigCommon | The IE SL-BWP-PoolConfigCommon is used to configure the cell-specific NR sidelink communication resource pool. SL-BWP-PoolConfigCommon information element -- ASN1START -- TAG-SL-BWP-POOLCONFIGCOMMON-START SL-BWP-PoolConfigCommon-r16 ::= SEQUENCE { sl-RxPool-r16 SEQUENCE (SIZE (1..maxNrofRXPool-r16)) OF SL-ResourcePool-... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,049 | 5.5.2 Connection Management | This clause applies to Non-3GPP access network corresponding to the Untrusted Non-3GPP access network, to the Trusted Non-3GPP access network and to the W-5GAN. The UE mentioned in this clause corresponds to the 5G-RG in the case of W-5GAN and to the W-AGF in the case of FN-RG. In the case of N5CW devices access 5GC vi... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.5.2 |
3,050 | 5.15.11 Network Slice Admission Control 5.15.11.0 General | The Network Slice Admission Control Function (NSACF) monitors and controls the number of registered UEs per network slice and/or the number of PDU Sessions per network slice for the network slices that are subject to Network Slice Admission Control (NSAC). The NSACF is configured with the maximum number of UEs and/or t... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.15.11 |
3,051 | 4.13.2.2 Number of successful WLAN additions to the LWA WLAN mobility set | a) This measurement provides the number of successful WLAN additions to the LWA WLAN mobility set. b) CC c) On receipt of RRCConnectionReconfigurationComplete message by the eNB, corresponding to the transmitted RRCConnectionReconfiguration message which includes the wlan-ToAddList in the lwa-MobilityConfig of lwa-Conf... | 3GPP TS 32.425 | Telecommunication management; Performance Management (PM); Performance measurements Evolved Universal Terrestrial Radio Access Network (E-UTRAN) | SA WG5 | 3GPP Series : 32 , OAM&P and Charging | 4.13.2.2 |
3,052 | 5.4.5.2.2 UE-initiated NAS transport procedure initiation | In the connected mode, the UE initiates the NAS transport procedure by sending the UL NAS TRANSPORT message to the AMF, as shown in figure 5.4.5.2.2.1. In case a) in subclause 5.4.5.2.1, the UE shall: - include the PDU session information (PDU session ID, old PDU session ID, S-NSSAI, mapped S-NSSAI (if available in roa... | 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 | 5.4.5.2.2 |
3,053 | 10.5.5.32 Extended DRX parameters | The purpose of the Extended DRX parameters information element is to indicate that the MS wants to use eDRX and for the network to indicate the Paging Time Window length value and the extended DRX cycle value to be used for eDRX. The Extended DRX parameters is a type 4 information element with a minimum length of 3 oct... | 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 | 10.5.5.32 |
3,054 | 5.2.6.8.2 Nnef_ChargeableParty_Create service operation | Service operation name: Nnef_ChargeableParty Create Description: The consumer requests to become the chargeable party for a data session for a UE. Inputs, Required: AF Identifier, UE address (i.e. IP address or MAC address), Flow description information as described in clause 6.1.3.6 of TS 23.503[ Policy and charging c... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.6.8.2 |
3,055 | 19.4.2.7 Target RNC-ID for U-TRAN | In the special case of a UTRAN target RNC a possible SGSN that can control that RNC can be identified by RNC-ID. This identifier can be used for SRNS relocation with a U-TRAN target RNC. A subdomain name for use by core network nodes based on RNC-ID shall be derived from the MNC and MCC by adding the label "rnc" to the... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 19.4.2.7 |
3,056 | 5.4.3.3 Paging Priority | Paging Priority is a feature that allows the AMF to include an indication in the Paging Message sent to NG-RAN that the UE be paged with priority. The decision by the AMF whether to include Paging Priority in the Paging Message is based on the ARP value in the message received from the SMF for an IP packet waiting to b... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.4.3.3 |
3,057 | 6.3.5E.3 Aggregate power control tolerance | Aggregate power control tolerance is the ability of a UE to maintain its power in non-contiguous transmission in response to 0 dB TPC commands with respect to the first UE transmission, when the power control parameters specified in TS 36.213[ Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedur... | 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 | 6.3.5E.3 |
3,058 | 6.10.2.1 SN Addition or modification | When the MN is executing the Secondary Node Addition procedure (i.e. initial offload of one or more radio bearers to the SN), or the Secondary Node Modification procedure (as in clauses 10.2.2 and 10.3.2 in TS 37.340[ Evolved Universal Terrestrial Radio Access (E-UTRA) and NR; Multi-connectivity; Overall Description; S... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 6.10.2.1 |
3,059 | 5.7.2.4 Failure to deliver ULInformationTransfer message | The UE shall: 1> if AS security is not started and radio link failure occurs before the successful delivery of ULInformationTransfer messages has been confirmed by lower layers; or 1> if PDCP re-establishment or release/addition (e.g due to key refresh upon PCell or PSCell change, or RRC connection re-establishment, or... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.7.2.4 |
3,060 | 9.5.9.7 Extended protocol configuration options | This IE is included in the message when the network wishes to transmit (protocol) data (e.g. configuration parameters, error codes or messages/events) to the MS and the extended protocol configuration options IE is supported by both the MS and the network end-to-end for the PDN connection (see subclause 6.1.3.7). This ... | 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 | 9.5.9.7 |
3,061 | 6.10.3 UE-specific reference signals associated with PDSCH | UE-specific reference signals associated with PDSCH - are transmitted on antenna port(s) , , , ,, , , or on the antenna ports indicated in Table 6.3.4.4-1, where is the number of layers used for transmission of the PDSCH; - are present and are a valid reference for PDSCH demodulation only if the PDSCH transmission is a... | 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 | 6.10.3 |
3,062 | 5.35.2 5G System enhancements to support IAB | In IAB operation, the IAB-UE interacts with the 5GC using procedures defined for UE. The IAB-node gNB-DU only interacts with the IAB-donor-CU and follows the CU/DU design defined in TS 38.401[ NG-RAN; Architecture description ] [42]. For the IAB-UE operation, the existing UE authentication methods as defined in TS 33.... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.35.2 |
3,063 | 5.2.5.4.4 Npcf_SMPolicyControl_Delete service operation | Service operation name: Npcf_SMPolicyControl_Delete Description: The NF Service Consumer can request the deletion of the SM Policy Association and of the associated resources. Inputs, Required: SM Policy Association ID. Inputs, Optional: 5G SRVCC indication. Outputs, Required: Success or Failure. Outputs, Optional: Non... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.5.4.4 |
3,064 | 14.4.1.2 Nnssaaf_NSSAA_Authenticate service operation | Service operation name: Nnssaaf_NSSAA_Authenticate Description: NF consumer requires the NSSAAF to relay Network Slice specific authentication messages towards the corresponding AAA-S handling the Network Slice specific authentication for the requested S-NSSAI (see clause 16). Input, Required: 1) In the initial NSSAA r... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 14.4.1.2 |
3,065 | 9.9.3 Reporting of Precoding Matrix Indicator (PMI) for 4Rx UE | The minimum performance requirements of PMI reporting are defined based on the precoding gain, expressed as the relative increase in throughput when the transmitter is configured according to the UE reports compared to the case when the transmitter is using random precoding, respectively. When the transmitter uses rand... | 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 | 9.9.3 |
3,066 | 6.50.2.3 Other aspects | Subject to HPLMN policy and network control, the 5G system shall be able to collect charging information related to traffic steering and/or switching of a DualSteer device’s user data across two 3GPP access networks. NOTE 1: Charging information should be collected for both 3GPP access networks; in case the two 3GPP ac... | 3GPP TS 22.261 | Service requirements for the 5G system | SA WG1 | 3GPP Series : 22 , Service aspects ("stage 1") | 6.50.2.3 |
3,067 | 16.3.4.4 PDU Session Setup Handling | When new PDU sessions need to be established, the 5GC requests the NG-RAN to allocate/ resources relative to the relevant PDU sessions by means of the PDU Session Resource Setup procedures over NG-C. One S-NSSAI is added per PDU session to be established, so NG-RAN is enabled to apply policies at PDU session level acco... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.3.4.4 |
3,068 | 6.1.2 Need codes and conditions for optional fields | The need for fields to be present in a message or an abstract type, i.e., the ASN.1 fields that are specified as OPTIONAL in the abstract notation (ASN.1), is specified by means of comment text tags attached to the OPTIONAL statement in the abstract syntax. All comment text tags are available for use in the downlink di... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 6.1.2 |
3,069 | .1 Modify Bearer Command | The Modify Bearer Command shall be sent on the S11 interface by the MME to the SGW and on the S5/S8 interface by the SGW to the PGW as part of the HSS Initiated Subscribed QoS Modification procedure, or when the SQCI flag or the PSCI flag is set to the Context Response message. It shall also be sent on the S4 interface... | 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 | .1 |
3,070 | 13.6 Anonymous User Identity | The Anonymous User Identity shall take the form of a SIP URI (see IETF RFC 3261 [26]). A SIP URI for an Anonymous User Identity shall take the form "sip:user@domain". The user part shall be the string "anonymous" and the domain part shall be the string "anonymous.invalid". The full SIP URI for Anonymous User Identity i... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 13.6 |
3,071 | 8.10.4.2.2 TDD | The parameters specified in Table 8.10.4.2.2-1 are valid for all TDD TM9 localized ePDCCH tests unless otherwise stated. Table 8.10.4.2.2-1: Test Parameters for Localized EPDCCH with TM9 and 4Rx For the parameters specified in Table 8.10.4.2.2-1 the average probability of a missed downlink scheduling grant (Pm-dsg) sha... | 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 | 8.10.4.2.2 |
3,072 | 9.2.9 Timing Advance | In RRC_CONNECTED, the gNB is responsible for maintaining the timing advance to keep the L1 synchronised. Serving cells having UL to which the same timing advance applies and using the same timing reference cell are grouped in a TAG. Each TAG contains at least one serving cell with configured uplink, and the mapping of ... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 9.2.9 |
3,073 | 5.15.15.2 UE Configuration of network-controlled Slice Usage Policy | The UE during the Registration procedure may indicate in UE MM Core Network Capability that it supports UE configuration of network-controlled Slice Usage Policy. If so, the AMF determines Slice Usage Policy for one (or more) Network Slice(s) for the UE and configures the UE with this information together with Configur... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.15.15.2 |
3,074 | 5.1.2.5 UE - PDN GW user plane with 3G access via the S4 interface | NOTE: Please refer to TS 23.402[ Architecture enhancements for non-3GPP accesses ] [2] for the corresponding stack for PMIP based S5/S8. Legend: - GPRS Tunnelling Protocol for the user plane (GTP-U): This protocol tunnels user data between UTRAN and the SGSN, between SGSN and S-GW as well as between the S-GW and the P... | 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") | 5.1.2.5 |
3,075 | 10.2.6A.2 Mapping to resource elements | For an NB-IoT carrier which is configured for NPRS transmission, the reference signal sequence shall be mapped to complex-valued modulation symbols used as reference signal for antenna port in slot according to, for Type 1 NPRS: or for Type 2 NPRS: according to higher layer configuration, where - when the higher layer ... | 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 | 10.2.6A.2 |
3,076 | 4.11.0a.2a Interaction with PCC for URSP delivery via EPS 4.11.0a.2a.0 General | This clause captures the enhancement to the interaction with PCC to support URSP delivery via EPS. To Support URSP provisioning in EPS, the SMF+PGW-C receives the Indication of URSP Provisioning Support from the UE as defined in TS 23.501[ System architecture for the 5G System (5GS) ] [2]. If the SMF+PGW-C also suppor... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.11.0a.2a |
3,077 | A.6 Guidelines regarding use of need codes | The following rule provides guidance for determining need codes for optional downlink fields: - if the field needs to be stored by the UE (i.e. maintained) when absent: - use Need M (=Maintain); - else, if the field needs to be released by the UE when absent: - use Need R (=Release); - else, if UE shall take no action ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | A.6 |
3,078 | – SIB3 | SIB3 contains neighbouring cell related information relevant only for intra-frequency cell re-selection. The IE includes cells with specific re-selection parameters as well as exclude-listed cells. SIB3 information element -- ASN1START -- TAG-SIB3-START SIB3 ::= SEQUENCE { intraFreqNeighCellList IntraFreqNeighCellList ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,079 | 10.5.1.1 Cell identity | The purpose of the Cell Identity information element is to identify a cell within a location area. The Cell Identity information element is coded as shown in figure 10.5.1/3GPP TS 24.008[ Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 ] and table 10.5.1/3GPP TS 24.008[ Mobile radio inter... | 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 | 10.5.1.1 |
3,080 | 5.13a Extended Idle mode Discontinuous Reception (DRX) | The extended idle mode DRX value range is described in TS 23.682[ Architecture enhancements to facilitate communications with packet data networks and applications ] [74]. A UE and the core network may negotiate the use of extended idle mode DRX as described in TS 23.682[ Architecture enhancements to facilitate commun... | 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") | 5.13a |
3,081 | 6.7 Carrier Aggregation | In case of CA, the multi-carrier nature of the physical layer is only exposed to the MAC layer for which one HARQ entity is required per serving cell as depicted on Figures 6.7-1 and 6.7-2 below: - In both uplink and downlink, there is one independent hybrid-ARQ entity per serving cell and one transport block is genera... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 6.7 |
3,082 | 5.2.4 Call establishment for SRVCC or vSRVCC 5.2.4.1 General | Before call establishment for SRVCC or vSRVCC can be initiated in the mobile station, the MM connection must be established by the network. At PS to CS domain change from S1 mode or Iu mode due to SRVCC handover or vSRVCC handover (see 3GPP TS 23.216[ Single Radio Voice Call Continuity (SRVCC); Stage 2 ] [126]), the R... | 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 | 5.2.4 |
3,083 | M.1 Mapping of the parameters between 5GS and TSN UNI | Editor's note: The information provided here is a guidance for better understanding of the function. Content of this Annex will be updated to a functional level detail once stage 3 work is stable. The details of the parameters in the TSN UNI are specified in IEEE Std 802.1Q [98] and IEEE P802.1Qdj [146]. Stream identif... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | M.1 |
3,084 | 5.2.6.11.6 Nnef_ServiceParameter_Notify operation | Service operation name: Nnef_ServiceParameter_Notify Description: This service operation is used by the NEF to notify a Service Parameter Authorisation Update (e.g. to revoke an authorization) to AF, see clause clause 4.15.6.7a or to forward a notification for a subscribed event by the AF, see clause 4.15.6.7, e.g. the... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.6.11.6 |
3,085 | 4.4.8.2 Architecture to support IEEE Time Sensitive Networking | The 5G System is integrated with the external network as a TSN bridge. This "logical" TSN bridge (see Figure 4.4.8.2-1) includes TSN Translator functionality for interoperation between TSN Systems and 5G System both for user plane and control plane. 5GS TSN translator functionality consists of Device-side TSN translato... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.4.8.2 |
3,086 | 5.16 MME-initiated procedure on UE's CSG membership change | If the UE is in ECM-CONNECTED state and connected via a CSG cell and the MME detects that the UE's CSG membership to that cell has expired, the MME shall send an S1AP UE CONTEXT MODIFICATION REQUEST message to the eNodeB which includes an indication that the CSG membership of the UE has expired. The eNodeB receiving th... | 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") | 5.16 |
3,087 | 8.3.1.2A Enhanced Performance Requirement Type C - Dual-Layer Spatial Multiplexing | The requirements are specified in Table 8.3.1.2A-2, with the addition of the parameters in Table 8.3.1.2A-1 and the downlink physical channel setup according to Annex C.3.2. The purpose of this test is to verify rank two performance for full RB allocation upon antenna ports 7 and 8. Table 8.3.1.2A-1: Test Parameters fo... | 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 | 8.3.1.2A |
3,088 | 7 Receiver characteristics 7.1 General | Unless otherwise stated the receiver characteristics are specified at the antenna connector(s) of the UE. For UE(s) with an integral antenna only, a reference antenna(s) with a gain of 0 dBi is assumed for each antenna port(s). UE with an integral antenna(s) may be taken into account by converting these power levels in... | 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 |
3,089 | 9.11.2.10 Service-level-AA container | The purpose of the Service-level-AA container information element is to transfer upper layer information for authentication and authorization between the UE and the network. The Service-level-AA container information element is coded as shown in figure 9.11.2.10.1, figure 9.11.2.10.2, figure 9.11.2.10.3, figure 9.11.2.... | 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 | 9.11.2.10 |
3,090 | 6.4.3 Cipher key and integrity key lifetime | Authentication and key agreement, which generates cipher/integrity keys, is not mandatory at call set-up, and there is therefore the possibility of unlimited and malicious re-use of compromised keys. A mechanism is needed to ensure that a particular cipher/integrity key set is not used for an unlimited period of time, ... | 3GPP TS 33.102 | 3G security; Security architecture | SA WG3 | 3GPP Series : 33 , Security aspects | 6.4.3 |
3,091 | 5.2a Maintenance of UL Synchronization | If upper layer informs that the UL synchronization is lost according to the clause 5.3.18 of TS 36.331[ Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC); Protocol specification ] [8], the MAC entity shall: - flush all HARQ buffers; - not perform any uplink transmission. If upper layer ... | 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 | 5.2a |
3,092 | 5.1.2.3 UE - PDN GW user plane with 2G access via the S4 interface | Legend: - GPRS Tunnelling Protocol for the user plane (GTP-U): This protocol tunnels user data between SGSN and the S-GW as well as between the S-GW and the P-GW in the backbone network. GTP shall encapsulate all end user IP packets. - UDP/IP: These are the backbone network protocols used for routing user data and cont... | 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") | 5.1.2.3 |
3,093 | 5.8.10.2.5 Sidelink measurement object addition/modification | The UE shall: 1> for each sl-MeasObjectId included in the received sl-MeasObjectToAddModList: 2> if an entry with the matching sl-MeasObjectId exists in the sl-MeasObjectList within the VarMeasConfigSL, for this entry: 3> for each sl-MeasId associated with this sl-MeasObjectId included in the sl-MeasIdList within the V... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.8.10.2.5 |
3,094 | 17.3.1 Home network domain name | The home network domain name shall be in the form of an Internet domain name, e.g. operator.com, as specified in IETF RFC 1035 [19] and IETF RFC 1123 [20]. The home network domain name consists of one or more labels. Each label shall consist of the alphabetic characters (A-Z and a-z), digits (0-9) and the hyphen (-) in... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 17.3.1 |
3,095 | 6.4.4.3 EPS bearer context deactivation accepted by the UE | Upon receipt of the DEACTIVATE EPS BEARER CONTEXT REQUEST message, the UE shall delete the EPS bearer context identified by the EPS bearer identity. After deactivating the identified EPS bearer context, the UE shall respond to the MME with the DEACTIVATE EPS BEARER CONTEXT ACCEPT. If the EPS bearer identity indicated i... | 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 | 6.4.4.3 |
3,096 | 8.75 User CSG Information (UCI) | User CSG Information (UCI) is coded as depicted in Figure 8.75-1. The CSG ID is defined in 3GPP TS 23.003[ Numbering, addressing and identification ] [2]. Figure 8.75-1: User CSG Information For two digits in the MNC, bits 5 to 8 of octet 6 are coded as "1111". The CSG ID consists of 4 octets. Bit 3 of Octet 8 is the ... | 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 | 8.75 |
3,097 | 5.2.2.3.3 ATTEMPTING-REGISTRATION | The UE in 3GPP access: a) shall initiate an initial registration procedure on the expiry of timers T3502, T3511 or T3346; b) may initiate an initial registration procedure for emergency services even if timers T3502, T3511 or T3346 are running; b1) may initiate an initial registration procedure even if timer T3502, T33... | 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 | 5.2.2.3.3 |
3,098 | 6.6.4 Mapping to resource elements | The block of complex-valued symbols for each antenna port shall - for an MBMS-dedicated cell, be transmitted during 4 consecutive radio frames fulfilling , starting in each radio frame fulfilling , and - otherwise, be transmitted during 4 consecutive radio frames, starting in each radio frame fulfilling . The block of ... | 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 | 6.6.4 |
3,099 | Annex L (normative): Support of GERAN/UTRAN access | This annex applies when the SMF+PGW-C is enhanced to support UE accessing the network via GERAN/UTRAN over Gn/Gp interface. For this scenario, the SMF+PGW-C uses N7 interface to interact with PCF and the N40 interface to interact with CHF. NOTE 1: For the interface with the serving node of the UE, the SMF+PGW-C is assu... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | Annex |
3,100 | 8.10.1.2.10 Closed loop spatial multiplexing performance - Single-Layer Spatial Multiplexing 2 Tx Antenna Port with CRS assistance information (Cell-Specific Reference Symbols) | The requirements are specified in Table 8.10.1.2.10-2, with the addition of parameters in Table 8.10.1.2.10-1. In Table 8.10.1.2.10-1, 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, respect... | 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 | 8.10.1.2.10 |
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