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3,501 | 4.11.6.1 Subscription and Notification of availability or expected level of support of a service API | Figure 4.11.6.1 1 represent the information flow subscribing and notifying the availability or expected level of support of a service API. For the subscription to Nnef_APISupportCapability service, the subscription request may include the Duration of Reporting. If the Duration of Reporting is expired, the SCEF+NEF dele... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.11.6.1 |
3,502 | 20.3.3 Private User Identity | The Private User Identity shall take the form of an NAI, and shall have the form "username@realm" as specified in clause 2.1 of IETF RFC 4282 [53]. The MSC Server enhanced for ICS shall derive the Private User Identity from the subscriber's IMSI as follows: 1. Use the whole string of digits as the username part of the ... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 20.3.3 |
3,503 | 4.2.8.5.3 Network Functions | Trusted WLAN Access Point (TWAP): It is a particular type of a Trusted Non-3GPP Access Point (TNAP) specified in clause 4.2.8.2, that supports a WLAN access technology, e.g. IEEE 802.11. This function is outside the scope of the 3GPP specifications. Trusted WLAN Interworking Function (TWIF): It provides interworking fu... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.2.8.5.3 |
3,504 | – RadioLinkMonitoringConfig | The IE RadioLinkMonitoringConfig is used to configure radio link monitoring for detection of beam- and/or cell radio link failure. See also TS 38.321[ NR; Medium Access Control (MAC) protocol specification ] [3], clause 5.1.1. RadioLinkMonitoringConfig information element -- ASN1START -- TAG-RADIOLINKMONITORINGCONFIG-... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,505 | C.3.4 Guidelines for the allocation of the index values in the array scheme | - General rule: index values used in the array scheme, according to Annex C.1.2, shall be allocated cyclically within its range 0, ... , a-1. This means that the index value used with the previously generated authentication vector is stored in SQNHE , and the next authentication vector shall use index value +1 mod a. I... | 3GPP TS 33.102 | 3G security; Security architecture | SA WG3 | 3GPP Series : 33 , Security aspects | C.3.4 |
3,506 | 6.5.2F.3 In-band emissions | The in-band emission is defined as a function of the tone offset from the edge of the allocated UL transmission tone(s) within the transmission bandwidth configuration. The in-band emission is measured as the ratio of the UE output power in a non–allocated tone to the UE output power in an allocated tone. The basic 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 | 6.5.2F.3 |
3,507 | A.19 Use case of RSRP | E-UTRAN RSRP measurement is important for analyzing coverage probability and coverage balance of downlink. From the distribution of this measurement, the general coverage information can be learned. So that coverage hole can be found more easily by driving test. Much more measurment values with small granularity are ne... | 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 | A.19 |
3,508 | – ResourceConfigNRDC | The IE is used to indicate or request the maximum values that can be used by the SCG in NR-DC, with each value equal to or lower than the value of the corresponding field in the UE capability, as reported by the UE, unless specified otherwise. ResourceConfigNRDC information element -- ASN1START -- TAG-RESOURCECONFIGNRD... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,509 | 8.13.2.3 Management based MDT Activation in gNB-DU | The signalling flow for Management based MDT Activation in gNB-DU is shown in Figure 8.13.2.3-1. Figure 8.13.2.3-1 Management based MDT Activation in gNB-DU 1. The gNB-CU-CP sends UE CONTEXT SETUP REQUEST message to the gNB-DU, including Management based MDT PLMN List. The message may include the Polluted Measurement I... | 3GPP TS 38.401 | NG-RAN; Architecture description | RAN3 | 3GPP Series : 38 , Radio technology beyond LTE | 8.13.2.3 |
3,510 | I.2.5 Requirements for secure environment | The secure environment is logically defined within the RNC in an exposed location and is a composition of functions for the support of sensitive operations. 1. The secure environment shall support secure storage of sensitive data, e.g. long term cryptographic secrets and vital configuration data. 2. The secure environm... | 3GPP TS 33.102 | 3G security; Security architecture | SA WG3 | 3GPP Series : 33 , Security aspects | I.2.5 |
3,511 | 5.3.3 Temporary identities | A temporary user identity for 5GS-based services, the 5G globally unique temporary identity (5G-GUTI), is used for identification within the signalling procedures. In case of PLMN the 5G-GUTI is globally unique and in case of SNPN the 5G-GUTI is unique within an SNPN. When the UE is registered to the same PLMN or SNPN ... | 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 | 5.3.3 |
3,512 | 6.3.5G.1 Absolute power tolerance | Absolute power tolerance is the ability of the UE to set its output power to a specific value for each subframe. For V2X sidelink communication transmissions in the operating bands specified in Table 5.5G-1, the minimum requirement for absolute power tolerance is given in Table 6.3.5G.1-1 over the power range bounded b... | 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 | 6.3.5G.1 |
3,513 | 9.8.3.1 FDD and half-duplex FDD | The following requirements apply to UE supporting ce-ModeA-r13 and ce-PDSCH-64QAM-r15. For the parameters specified in Table 9.8.3.1-1, 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.31 FDD in Table A.4-1 shall be in the range of ±1 of the report... | 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 | 9.8.3.1 |
3,514 | 5.3.4 Random access | Random access preamble sequences, of four different lengths are supported. Sequence length 839 is applied with subcarrier spacings of 1.25 and 5 kHz, sequence length 139 is applied with subcarrier spacings of 15, 30, 60, 120, 480, and 960 kHz, sequence length of 571 is applied with subcarrier spacings of 30, 120, and 4... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.3.4 |
3,515 | – ReportConfigInterRAT | The IE ReportConfigInterRAT specifies criteria for triggering of an inter-RAT measurement reporting event, or an L2 U2N relay measurement reporting event. The inter-RAT measurement reporting events for E-UTRA and UTRA-FDD are labelled BN with N equal to 1, 2 and so on. The measurement reporting events for L2 U2N relay ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,516 | 5.16.3.10 IMS Voice Service via EPS Fallback or RAT fallback in 5GS | In order to support various deployment scenarios for obtaining IMS voice service, the UE and NG-RAN may support the mechanism to direct or redirect the UE from NG-RAN either towards E-UTRA connected to 5GC (RAT fallback) or towards EPS (E-UTRAN connected to EPC System fallback). Following principles apply for IMS Voice... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.16.3.10 |
3,517 | 6.10.5 CSI reference signals | CSI reference signals are transmitted on 1, 2, 4, 8, 12, 16, 20, 24, 28, or 32 antenna ports using , , , , , ,, , and, respectively. For CSI reference signals using more than eight antenna ports, CSI-RS configurations in the same subframe, numbered from 0 to , where value 0 corresponds to the configured resourceConfig-... | 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 | 6.10.5 |
3,518 | 4.23.5.3 PDU Session modification procedure | For the non-roaming or LBO roaming case, the procedure defined in clause 4.3.3.3 (UE or network requested PDU Session Modification for Home-routed Roaming) is used to modify the PDU Session, with the V-SMF and V-UPF are replaced by I-SMF and I-UPF and H-SMF and H-UPF are replaced by SMF and UPF(PSA) respectively. If th... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.23.5.3 |
3,519 | 5.1.1 Control Plane 5.1.1.1 General | The control plane consists of protocols for control and support of the user plane functions: - controlling the E-UTRA network access connections, such as attaching to and detaching from E-UTRAN; - controlling the attributes of an established network access connection, such as activation of an IP address; - controlling ... | 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") | 5.1.1 |
3,520 | 4.12.4.1 Service Request procedures via Untrusted non-3GPP Access | The Service Request procedure via Untrusted non-3GPP Access shall be used by a UE in CM-IDLE state over non-3GPP access to request the re-establishment of the NAS signalling connection and the re-establishment of the user plane for all or some of the PDU Sessions which are associated to non-3GPP access. The Service Req... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.12.4.1 |
3,521 | 4.7.5.1.2 GMM Common procedure initiation | If the network receives a ROUTING AREA UPDATE REQUEST message containing the P-TMSI type IE, and the network does not follow the use of the most significant bit of the <LAC> to distinguish the node type as specified in 3GPP TS 23.003[ Numbering, addressing and identification ] [10] subclause 2.8.2.2.2, the network sha... | 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 | 4.7.5.1.2 |
3,522 | 5.7.2.5 Flow Bit Rates | For GBR QoS Flows only, the following additional QoS parameters exist: - Guaranteed Flow Bit Rate (GFBR) - UL and DL; - Maximum Flow Bit Rate (MFBR) -- UL and DL. The GFBR denotes the bit rate that is guaranteed to be provided by the network to the QoS Flow over the Averaging Time Window. The MFBR limits the bit rate t... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.7.2.5 |
3,523 | J.2 Usage of the TIN | The UE may have valid MM parameters both from MME and from SGSN. The "Temporary Identity used in Next update" (TIN) is a parameter of the UE's MM context, which identifies the UE identity to be indicated in the next RAU Request or TAU Request message. The TIN also identifies the status of ISR activation in the UE. The ... | 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") | J.2 |
3,524 | 5.2.6.7.2 Nnef_TrafficInfluence_Create operation | Service operation name: Nnef_TrafficInfluence_Create Description: Authorize the request and forward the request for traffic influence. Inputs, Required: AF Transaction Id, AF Identifier. The AF Transaction Id refers to the request. Inputs, Optional: The address (IP or Ethernet) of one or more UE(s) if available, one or... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.6.7.2 |
3,525 | 9.2.3.5.2 C-Plane Handling | Cell switch command is conveyed in a MAC CE, which contains the necessary information to perform the LTM cell switch. The overall procedure for LTM is shown in Figure 9.2.3.5.2-1 below. Subsequent LTM is done by repeating the early synchronization, LTM cell switch execution, and LTM cell switch completion steps without... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 9.2.3.5.2 |
3,526 | 8.8.4.1 FDD | For the parameters specified in Table 8.8.4.1-1 the average probability of a missed downlink scheduling grant (Pm-dsg) shall be below the specified value in Table 8.8.4.1-2. The purpose of this test is to verify the localized EPDCCH performance, when the EPDCCH transmission in the serving cell is interfered by the CRS ... | 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 | 8.8.4.1 |
3,527 | 4.3.31 Subscription handling for Aerial UEs | This clause describes subscription information handling in order to support operating Aerial UE function over E-UTRAN 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 2 ] [5] and TS 36.331[ Evolved ... | 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") | 4.3.31 |
3,528 | 5.5.2.2 UTRAN Iu mode to E-UTRAN Inter RAT handover 5.5.2.2.1 General | The UTRAN Iu mode to E-UTRAN Inter RAT handover procedure takes place when the network decides to perform a handover. The decision to perform PS handover from UTRAN Iu mode to E-UTRAN is taken by the network based on radio condition measurements reported by the UE to the UTRAN RNC. If emergency bearer services are ongo... | 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") | 5.5.2.2 |
3,529 | 4.1.1.1 Types of MM and GMM procedures | Depending on how they can be initiated, three types of MM procedures can be distinguished: 1) MM common procedures: A MM common procedure can always be initiated whilst a RR connection exists. The procedures belonging to this type are: Initiated by the network: - TMSI reallocation procedure; - authentication procedure;... | 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 | 4.1.1.1 |
3,530 | 5.2.7.2.3 Nnrf_NFManagement_NFUpdate service operation | Service Operation name: Nnrf_NFManagement_NFUpdate. Description: Provides the updated NF profile of NF consumer to NRF. Inputs, Required: NF instance ID. Inputs, Optional: If replacing the full NF profile, the full NF profile shall be provided. If updating parts of the NF profile, the NF profile elements that needs to ... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.7.2.3 |
3,531 | – SIB4 | SIB4 contains information relevant for inter-frequency cell re-selection (i.e. information about other NR frequencies and inter-frequency neighbouring cells relevant for cell re-selection), which can also be used for NR idle/inactive measurements. The IE includes cell re-selection parameters common for a frequency as w... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,532 | 5.5.7.1 Start DTMF request by the mobile station | A user may cause a DTMF tone to be generated e.g. by depression of a key in the mobile station. The relevant action is interpreted by the mobile station as a requirement for a DTMF digit to be sent in a START DTMF message on an established FACCH. This message contains the value of the digit to be transmitted (0, 1, ...... | 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 | 5.5.7.1 |
3,533 | 4.11.3.2 Handover from 5GC-N3IWF to EPS | Figure 4.11.3.2-1: Handover from 5GC-N3IWF to EPS 0. Initial status: one or more PDU Sessions have been established in 5GC between the UE and the SMF/UPF via untrusted non-3GPP access and N3IWF. During PDU Session setup and in addition to what is specified in clause 4.3.2.2.1 and clause 4.3.2.2.2, the AMF includes an i... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.11.3.2 |
3,534 | 5.43.3 Local switch for UE-to-UE communications via UPF deployed on GEO satellite 5.43.3.1 General | The UE to UE traffic may be locally routed by UPF(s) deployed on satellite (i.e. through local switch) to the target UE without traversing back to the satellite gateway on the ground. Local switching via UPF(s) deployed on satellite in this clause only applies on GEO satellite backhaul case and considers only DNNs and ... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.43.3 |
3,535 | 16.19.2.2 Timing Advance | For the serving cell, the network broadcasts coarse gNB location information. The UE shall have valid GNSS position as well as gNB location before connecting to an ATG cell. To achieve synchronisation, before and during connection to an ATG cell, the UE shall compute the RTT between UE and the gNB based on the GNSS pos... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.19.2.2 |
3,536 | 5.4.3.1 Logical channel prioritization | The Logical Channel Prioritization procedure is applied when a new transmission is performed. RRC controls the scheduling of uplink data by signalling for each logical channel: priority where an increasing priority value indicates a lower priority level, prioritisedBitRate which sets the Prioritized Bit Rate (PBR), buc... | 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 | 5.4.3.1 |
3,537 | 4.2.4 Behaviour in state GMM-DEREGISTERED | The state GMM-DEREGISTERED is entered when: - the MS is switched on; - the GPRS capability has been enabled in the MS; - a GPRS detach or combined GPRS detach procedure has been performed; - a GMM procedure has failed (except routing area updating, see subclause 4.7.5); or - the MS attached for emergency bearer service... | 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 |
3,538 | 4.7.2.1.2 Handling of READY timer in the MS in Iu mode and S1 mode | The READY timer is not applicable for Iu mode in S1 mode. Upon completion of a successful GPRS attach or routing area updating procedure in Iu mode, the MS shall stop the READY timer, if running. Upon completion of a successful EPS attach or tracking area updating procedure, the MS shall stop the READY timer, if runnin... | 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 | 4.7.2.1.2 |
3,539 | 9.5.2.1 FDD | The minimum performance requirement in Table 9.5.2.1-2 is defined as a) The ratio of the throughput obtained when transmitting based on UE reported RI and that obtained when transmitting with fixed rank 1 shall be ≥ ; b) The ratio of the throughput obtained when transmitting based on UE reported RI and that obtained ... | 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 | 9.5.2.1 |
3,540 | 5.7.3b.2 Initiation | In case of MR-DC, a UE configured with split SRB1 or SRB3 initiates the procedure to report MCG failures when neither MCG nor SCG transmission is suspended, the SCG is not deactivated, t316 is configured, and when the following condition is met; or In case of MP, a MP remote UE configured with split SRB1 initiates the ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.7.3b.2 |
3,541 | 6.10.2.2.1 Mapping to resource elements for 15 kHz and 7.5 kHz subcarrier spacing | The reference-signal sequence in OFDM symbol shall be mapped to complex-valued modulation symbols with according to where Figure 6.10.2.2-1 illustrates the resource elements used for MBSFN reference signal transmission in case of . In case of , the MBSFN reference signal shall be mapped to resource elements according t... | 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 | 6.10.2.2.1 |
3,542 | 24.3.2 Format of PLMN ID in ProSe Application Code | The PLMN ID in the ProSe Application Code is composed as shown in Figure 24.3.2-1: Figure 24.3.2-1: Structure of PLMN ID in ProSe Application Code The PLMN-ID is composed of four parts: - Scope indicates whether the MNC, or both the MCC and the MNC, or neither are wild carded in the ProSe Application ID associated with... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 24.3.2 |
3,543 | 5.32.6.3.1 ATSSS-LL Functionality | The ATSSS-LL functionality in the UE does not apply a specific protocol. It is a data switching function, which decides how to steer, switch and split the uplink traffic across 3GPP and non-3GPP accesses, based on the provisioned ATSSS rules and local conditions (e.g. signal loss conditions). The ATSSS-LL functionality... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.32.6.3.1 |
3,544 | 5.5.2.3.4 E-UTRAN to GERAN A/Gb mode Inter RAT handover reject | The Target BSS may reject the use of the Handover procedure if none of the requested PFCs in the PS Handover Request message could be established. In this case no UE context is established in the target SGSN/BSS and no resources are allocated. The UE remains in the Source eNodeB/MME. Figure 5.5.2.3.4-1: E-UTRAN to GERA... | 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") | 5.5.2.3.4 |
3,545 | 28.4.3 Ranges of S-NSSAIs | In the 5G Core Network, an NF Instance may indicate (e.g., while registering its NF profile in the NRF) support for several S-NSSAIs having a common SST value and different SDs, by including such SST value and adding, either a list of ranges of SDs, or a "wildcard" flag representing all SD values for the common SST (se... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 28.4.3 |
3,546 | 9.11.2.6 Intra N1 mode NAS transparent container | The purpose of the Intra N1 mode NAS transparent container information element is to provide the UE with parameters that enable the UE to handle the 5G NAS security context after N1 mode to N1 mode handover. The Intra N1 mode NAS transparent container information element is coded as shown in figure 9.11.2.6.1 and table... | 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 | 9.11.2.6 |
3,547 | 5.3.8 Abnormal cases in the UE | The following abnormal case can be identified: a) EMM uplink message transmission failure indication by lower layers When it is specified in the relevant procedure that it is up to the UE implementation to rerun the ongoing procedure that triggered that procedure, the procedure can typically be re-initiated using a ret... | 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 | 5.3.8 |
3,548 | 4.7.4.2.1 Network initiated GPRS detach procedure initiation | The network initiates the GPRS detach procedure by sending a DETACH REQUEST message to the MS. The DETACH REQUEST message shall include a detach type IE. In addition, the network may include a cause IE to specify the reason for the detach request. The network shall start timer T3322. If the detach type IE indicates "re... | 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 | 4.7.4.2.1 |
3,549 | 6.16.1 Description | A key aspect of 5G system flexibility is the ability to support both the very high-end markets as well as very low-end markets. Some systems will be deployed in areas where there are constraints on energy resources (e.g. sporadic access to power) and lower end user expectations for availability, reliability, and data r... | 3GPP TS 22.261 | Service requirements for the 5G system | SA WG1 | 3GPP Series : 22 , Service aspects ("stage 1") | 6.16.1 |
3,550 | 7.2.2 Message too long | The maximum size of a NAS message for NR connected to 5GCN is specified in 3GPP TS 38.323[ NR; Packet Data Convergence Protocol (PDCP) specification ] [29]. The maximum size of a NAS message for E-UTRA connected to 5GCN is specified 3GPP TS 36.323[ Evolved Universal Terrestrial Radio Access (E-UTRA); Packet Data Conve... | 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 | 7.2.2 |
3,551 | 4.14.2.4 Number of successful WLAN releases from the LWIP WLAN mobility set | a) This measurement provides the number of successful WLAN releases from the LWIP WLAN mobility set. b) CC c) On receipt of RRCConnectionReconfigurationComplete message corresponding to transmitted RRCConnectionReconfiguration message which includes the wlan-ToReleaseList in the lwip-MobilityConfig of lwip-Configuratio... | 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 | 4.14.2.4 |
3,552 | 5.21.3.2 NF Set and NF Service Set | Equivalent Control Plane NFs may be grouped into NF Sets, e.g. several SMF instances are grouped into an SMF Set. NFs within a NF Set are interchangeable because they share the same context data, and may be deployed in different locations, e.g. different data centres. In the case of SMF, multiple instances of SMFs with... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.21.3.2 |
3,553 | 4.3.2.2.3 Rating Function | The Rating Function (RF) determines the value of the network resource usage (described in the charging event received by the OCF from the network) on behalf of the OCF. To this end, the OCF furnishes the necessary information, obtained from the charging event, to the RF and receives in return the rating output (monetar... | 3GPP TS 32.240 | Telecommunication management; Charging management; Charging architecture and principles | SA WG5 | 3GPP Series : 32 , OAM&P and Charging | 4.3.2.2.3 |
3,554 | 4.3.4.1 Non-roaming architecture | Figure 4.3.4.1-1 represents the non-roaming architecture for interworking between ePDG/EPC and 5GS. Figure 4.3.4.1-1: Non-roaming architecture for interworking between ePDG/EPC and 5GS NOTE 1: The details of the interfaces between the UE and the ePDG, and between EPC nodes (i.e. SWm, SWx, S2b and S6b), are documented i... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.3.4.1 |
3,555 | 5.3.3 User data and signalling data integrity | The gNB shall support integrity protection and replay protection of user data between the UE and the gNB. The gNB shall activate integrity protection of user data based on the security policy sent by the SMF. The gNB shall support integrity protection and replay protection of RRC-signalling. The gNB shall support the f... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 5.3.3 |
3,556 | 6.1.3.6b Dual Connectivity Power Headroom Report MAC Control Element | The Dual Connectivity Power Headroom Report (PHR) MAC control element is identified by a MAC PDU subheader with LCID as specified in table 6.2.1-2. It has a variable size and is defined in Figure 6.1.3.6b-1 and Figure 6.1.3.6b-2. One octet with Ci fields is used for indicating the presence of PH per serving cell other ... | 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 | 6.1.3.6b |
3,557 | 5.2.2.5 Namf_Location service 5.2.2.5.1 General | Service description: This service enables an NF to request location information for a target UE. The following are the key functionalities of this NF service. - Allow NFs to request the current or last known geodetic and optionally local and/or civic location of a target UE. - Allow NFs to be notified of event informat... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.2.5 |
3,558 | 5.15.19 Support of Network Slice Replacement | The Network Slice Replacement feature is used to temporarily replace an S-NSSAI with an Alternative S-NSSAI when an S-NSSAI becomes unavailable or congested. The Network Slice Replacement may be triggered in the following cases: - If the NSSF detects that an S-NSSAI becomes unavailable or congested (e.g. based on OAM o... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.15.19 |
3,559 | 5.2.8.2.6 Nsmf_PDUSession_UpdateSMContext service operation | Service operation name: Nsmf_PDUSession_UpdateSMContext. Description: It allows to update the AMF-SMF association to support a PDU Session and/or to provide SMF with N1/N2 SM information received from the UE or from the AN, or allows to establish forwarding tunnel between UPFs controlled by different SMFs (e.g. by UPF ... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.8.2.6 |
3,560 | 13 Interworking with PDN (DHCP) 13.1 General | In current LAN environments the most commonly used configuration protocol is DHCP (Dynamic Host Configuration Protocol, RFC 2131 [26]) and DHCPv6 (Dynamic Host Configuration Protocol for IPv6, IETF RFC 3315 [46]). It provides a mechanism for passing a large set of configuration parameters to hosts connected to a TCP/IP... | 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 | 13 |
3,561 | 5.7.13.2 Relaxed measurement criterion for good serving cell quality | The relaxed measurement criterion of good serving cell quality for RLM is fulfilled when the downlink radio link quality on the configured RLM-RS resource is evaluated to be better than the threshold Qin+XdB, wherein - Qin is specified in clause 8.1 of TS 38.133[ NR; Requirements for support of radio resource managemen... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.7.13.2 |
3,562 | 5.8.2.7 PDU Session and QoS Flow Policing | ARP is used for admission control (i.e. retention and pre-emption of the new QoS Flow). The value of ARP is not required to be provided to the UPF. For every QoS Flow, the SMF shall determine the transport level packet marking value (e.g. the DSCP in the outer IP header) based on the 5QI, the Priority Level (if explici... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.8.2.7 |
3,563 | 5.4.1.2.4 EAP message reliable transport procedure | 5.4.1.2.4.1 General The purpose of the EAP message reliable transport procedure is to provide a reliable transport of an EAP-request message, the ngKSI and the ABBA from the network to the UE and of an EAP-response message from the UE to the network. The EAP message reliable transport procedure is initiated by an AUTHE... | 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 | 5.4.1.2.4 |
3,564 | 4.7.7.2 Serving PLMN Rate Control | The Serving PLMN Rate Control value is configured in the MME. NOTE 1: Homogeneous support of Serving PLMN Rate Control in a network is assumed. At PDN connection establishment, the MME may inform the UE and PDN GW/SCEF (as specified in TS 24.301[ Non-Access-Stratum (NAS) protocol for Evolved Packet System (EPS); 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") | 4.7.7.2 |
3,565 | 16.14.5 NG-RAN signalling | The Cell Identity, as defined in TS 38.413[ NG-RAN; NG Application Protocol (NGAP) ] [26] and TS 38.423[ NG-RAN; Xn Application Protocol (XnAP) ] [50], used in following cases corresponds to a Mapped Cell ID, irrespective of the orbit of the NTN payload or the types of service links supported: - The Cell Identity ind... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.14.5 |
3,566 | 28.14 Data Network Access Identifier (DNAI) | A Data Network Access Identifier (DNAI) is an operator defined identifier of a user plane access to one or more DN(s) where applications are deployed (see clauses 3.1 and 5.6.7 in 3GPP TS 23.501[ System architecture for the 5G System (5GS) ] [119]). The same DN may also be referred to by multiple DNAIs. DNAI is repres... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 28.14 |
3,567 | 7.2.13 Delete Indirect Data Forwarding Tunnel Response | The Delete Indirect Data Forwarding Tunnel Response message is sent on the S4/S11 interface by the SGW to the SGSN/MME as part of the following procedures: - S1-based handover - UTRAN Iu mode to E-UTRAN Inter RAT handover - GERAN A/Gb mode to E-UTRAN Inter RAT handover - E-UTRAN to UTRAN Iu mode Inter RAT handover - E-... | 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 | 7.2.13 |
3,568 | 5.7.1.5 QoS Flow mapping | The SMF performs the binding of PCC rules to QoS Flows based on the QoS and service requirements (as defined in TS 23.503[ Policy and charging control framework for the 5G System (5GS); Stage 2 ] [45]). The SMF assigns the QFI for a new QoS Flow and derives its QoS profile, corresponding UPF instructions and QoS Rule(... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.7.1.5 |
3,569 | 19.5 Access Network Identity | A trusted non-3GPP access network used by the UE to access EPS can be identified using the Access Network Identity. The Access Network Identity is used as an input parameter in the EPS security procedures as specified in 3GPP TS 33.402[ 3GPP System Architecture Evolution (SAE); Security aspects of non-3GPP accesses ] ... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 19.5 |
3,570 | 4.1.6.1 Number of successful RRC connection setups in relation to the time between successful RRC connection setup and last RRC connection release | a) This measurement provides the histogram as function of the number of successful RRC Connection setups and the time between the successful RRC Connection setup attempt and last RRC Connection release for the UE with the same S-TMSI and long inactivity timer configured. It is not counted to the histogram in case last ... | 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 | 4.1.6.1 |
3,571 | Annex A (informative): Bibliography | This annex contains guidelines for the references in all the charging specifications. a) The 3GPP charging specifications [1] - [99]. One example: [20] 3GPP TS 32.260[ Telecommunication management;Charging management;IP Multimedia Subsystem (IMS) charging ] : "Telecommunication management; Charging management; IP Multi... | 3GPP TS 32.240 | Telecommunication management; Charging management; Charging architecture and principles | SA WG5 | 3GPP Series : 32 , OAM&P and Charging | Annex |
3,572 | 8.133 UP Function Selection Indication Flags | The UP Function Selection Indication Flags information element shall be coded as depicted in Figure 8.133-1. Figure 8.133-1: UP Function Selection Indication Flags For each message, the applicable flags of the UP Function Selection Indication Flags IE shall be clearly specified in the individual message clause. The rem... | 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 | 8.133 |
3,573 | 4.1.1.1.1 Integrity Checking of Signalling Messages in the Mobile Station (Iu mode only) | In Iu mode only, integrity protected signalling is mandatory with one exception regarding emergency calls (see subclause 4.1.1.1.1a). In Iu mode only, all layer 3 protocols shall use integrity protected signalling once the security mode procedure has been successfully activated in the network and the MS. Integrity prot... | 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 | 4.1.1.1.1 |
3,574 | 4.7.3.1.5 Abnormal cases in the MS | The following abnormal cases can be identified: a) Access barred because of access class control, EAB or ACDC The GPRS attach procedure shall not be started. The MS stays in the current serving cell and applies normal cell reselection process. The GPRS attach procedure is started as soon as possible, i.e. when access i... | 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 | 4.7.3.1.5 |
3,575 | 19.4.2.4 Mobility Management Entity (MME) | A Mobility Management Entity (MME) within an operator's network is identified using a MME Group ID (MMEGI), and an MME Code (MMEC). A subdomain name shall be derived from the MNC and MCC by adding the label "mme" to the beginning of the Home Network Realm/Domain (see clause 19.2). The MME node FQDN shall be constructed... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 19.4.2.4 |
3,576 | 13.2.4.7 Message verification by the receiving SEPP | The receiving SEPP shall decrypt the JWE ciphertext using the shared session key and the following parameters obtained from the JWE object – Initialization Vector, Additional Authenticated Data value (clearTextEncapsulatedMessage in "aad") and JWE Authentication Tag ( "tag"). If the reformattedData IE is not empty, the... | 3GPP TS 33.501 | Security architecture and procedures for 5G System | SA WG3 | 3GPP Series : 33 , Security aspects | 13.2.4.7 |
3,577 | 6.1.3.2.1a Successful Secondary PDP Context Activation Procedure Requested by the network | In order to request a PDP context activation with the same PDP address and APN as an already active PDP context, the network shall send a REQUEST SECONDARY PDP CONTEXT ACTIVATION message to the MS and start timer T3385. The message contains the required QoS, Linked TI, and optionally protocol configuration options 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 | 6.1.3.2.1a |
3,578 | K.2.2.2 Configuration for Sync and Announce reception timeouts | The NW-TT shall be able to determine the timeout of the reception of (g)PTP Announce (when the 5GS operates as a time-aware system or Boundary Clock) and gPTP Sync messages (when the 5GS operates as time-aware system). To enable this, the TSCTSF or TSN AF shall configure the NW-TT for the following information via PMIC... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | K.2.2.2 |
3,579 | 4.17.3 NF service deregistration | Figure 4.17.3-1: NF Service Deregistration procedure 1. NF service consumer i.e. an NF instance sends Nnrf_NFManagement_NFDeregister Request message to NRF to inform the NRF of its unavailability when e.g. it's about to gracefully shut down or disconnect from the network. 2. The NRF marks the NF service consumer unavai... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.17.3 |
3,580 | 5.4.13.1 Mobility Management and Power Saving Optimization | For NR satellite access that provides discontinuous network coverage the Mobility Management and Power Saving Optimization functionality may be used. If both the UE and the network support "Unavailability Period Support", and if the UE determines it will lose coverage and will become unavailable, and the UE decides to ... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.4.13.1 |
3,581 | 4.10 HNB Unique Identity | HNB Unique Identity uniquely identifies a Home NodeB or Home eNodeB. The HNB unique identity shall be defined as either a 48-bit or 64-bit extended unique identifier (EUI-48 or EUI-64) as defined in [45] (EUI-48) and [46] (EUI-64). For use in HNB certificates, the HNB Unique Identity shall be transformed into a FQDN in... | 3GPP TS 23.003 | Numbering, addressing and identification | CT WG4 | 3GPP Series : 23 , Technical realization ("stage 2") | 4.10 |
3,582 | 6.3.4.6 Subslot PUCCH / subslot PUSCH / SRS time mask for subslot TTI | The subslot PUCCH/subslot PUSCH/SRS time mask defines the observation period between sounding reference symbol (SRS) in the last symbol in subslot N and an adjacent subslot PUSCH/subslot PUCCH symbol in subslot N+1. There are no additional requirements on UE transmit power beyond that which is required in subclause 6.2... | 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 | 6.3.4.6 |
3,583 | 4.3.14 Location Service functions | LCS procedures are described in the LCS stage 2 specification, see TS 23.271[ Functional stage 2 description of Location Services (LCS) ] [57]. In addition, in the Detach and Bearer Deactivation procedures, the MME shall inform the S-GW of the last known location of the UE, and shall provide information to enable the ... | 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") | 4.3.14 |
3,584 | 9.9 Other information elements 9.9.1 General | The different formats (V, LV, T, TV, TLV, LV-E, TLV-E) and the five categories of information elements (type 1, 2, 3, 4 and 6) are defined in 3GPP TS 24.007[ Mobile radio interface signalling layer 3; General Aspects ] [12]. The first octet of an information element in the non-imperative part contains the IEI of the 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 | 9.9 |
3,585 | 1.8 Handling of NAS signalling low priority indication | An MS configured for NAS signalling low priority (see 3GPP TS 24.368[ Non-Access Stratum (NAS) configuration Management Object (MO) ] [135], 3GPP TS 31.102[ Characteristics of the Universal Subscriber Identity Module (USIM) application ] [112]) indicates this by including the Device properties IE in the appropriate N... | 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 | 1.8 |
3,586 | 16.9.9.5 Resource Allocation | A UE using mode 2 resource allocation may support resource selection enhancements to avoid LBT blocking and increase COT resource utilization. If transmission in slot(s) before a reserved resource is able to share its initiated COT to the reservation, the UE may be (pre)configured to prioritize/select resource(s) in th... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.9.9.5 |
3,587 | 5.15.2.3 Relaying | The SGSN performs relaying between BSSGP messages, RANAP messages and GTP messages as described in TS 48.018[ None ] [42], TS 25.413[ UTRAN Iu interface Radio Access Network Application Part (RANAP) signalling ] [22], TS 29.060[ General Packet Radio Service (GPRS); GPRS Tunnelling Protocol (GTP) across the Gn and Gp ... | 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") | 5.15.2.3 |
3,588 | 6.4.1.6 Abnormal cases in the UE | The following abnormal cases can be identified: a) Expiry of timer T3580 The UE shall, on the first expiry of the timer T3580: - if the PDU SESSION ESTABLISHMENT REQUEST message was sent with request type set to "initial emergency request" or "existing emergency PDU session", then the UE may: a) inform 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 | 6.4.1.6 |
3,589 | 5.7.3a.3 Actions related to transmission of SCGFailureInformationEUTRA message | The UE shall set the contents of the SCGFailureInformationEUTRA message as follows: 1> include failureType within failureReportSCG-EUTRA and set it to indicate the SCG failure in accordance with TS 36.331[ Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC); Protocol specification ] [10] ... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.7.3a.3 |
3,590 | 9.2.2.2 TDD | The following requirements apply to UE Category ≥2. For the parameters specified in table 9.2.2.2-1, 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 36.213[ 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 | 9.2.2.2 |
3,591 | 6.1.4 Protocol stacks of IAB | Figure 6.1.4-1 shows the protocol stack for F1-U between IAB-DU and the IAB-donor-CU-UP, and Figure 6.1.4-2 shows the protocol stack for F1-C between IAB-DU and the IAB-donor-CU-CP. In these example figures, F1-U and F1-C traffic are carried over two backhaul hops. NOTE: F1 needs to be security-protected as described i... | 3GPP TS 38.401 | NG-RAN; Architecture description | RAN3 | 3GPP Series : 38 , Radio technology beyond LTE | 6.1.4 |
3,592 | 5.2.6.9.3 Nnef_AFsessionWithQoS_Notify service operation | Service operation name: Nnef_AFsessionWithQoS Notify Description: NEF reports the QoS Flow level event(s) to the consumer. Inputs, Required: Reports of the events as defined in clause 6.1.3.18 of TS 23.503[ Policy and charging control framework for the 5G System (5GS); Stage 2 ] [20], Transaction Reference ID if a lis... | 3GPP TS 23.502 | Procedures for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.2.6.9.3 |
3,593 | – PDCCH-ConfigCommon | The IE PDCCH-ConfigCommon is used to configure cell specific PDCCH parameters provided in SIB as well as in dedicated signalling. PDCCH-ConfigCommon information element -- ASN1START -- TAG-PDCCH-CONFIGCOMMON-START PDCCH-ConfigCommon ::= SEQUENCE { controlResourceSetZero ControlResourceSetZero OPTIONAL, -- Cond InitialB... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | – |
3,594 | 5.12.2 Usage Data Reporting for Secondary RAT | When NG-RAN is deployed in dual connectivity configuration, the HPLMN or VPLMN operator may wish to record the data volume sent and received on the Secondary RAT. In order to reduce the complexity of this procedure, the following principles are used in this release: a) The PLMN locally activates the Secondary RAT Usage... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.12.2 |
3,595 | 5.15.12.2 UE and UE configuration aspects | A UE may support the subscription-based restrictions to simultaneous registration of network slices feature. In this case, the UE indicates its support in the Registration Request message in the Initial Registration and the Mobility Registration Update as part of the UE 5GMM Core Network Capability. When the serving AM... | 3GPP TS 23.501 | System architecture for the 5G System (5GS) | SA WG2 | 3GPP Series : 23 , Technical realization ("stage 2") | 5.15.12.2 |
3,596 | A.21 Use case of UE power headroom | E-UTRAN UE power headroom measurement is important for analyzing UE power distribution, to learn whether the uplink signal strength can be increased or not. So it is very useful to do trouble shooting of coverage hole and coverage balance for uplink. It is also used to evaluate the power control performance and increas... | 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 | A.21 |
3,597 | 10.5.4.20 Notification indicator | The purpose of the notification indicator information element is to indicate information pertaining to a call. The notification indicator element is coded as shown in figure 10.5.106/3GPP TS 24.008[ Mobile radio interface Layer 3 specification; Core network protocols; Stage 3 ] and table 10.5.126/ 3GPP TS 24.008[ Mobi... | 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 | 10.5.4.20 |
3,598 | 5.8.9.1.2 Actions related to transmission of RRCReconfigurationSidelink message | The UE shall set the contents of RRCReconfigurationSidelink message as follows: 1> for each sidelink DRB that is to be released, according to clause 5.8.9.1a.1.1, due to configuration by sl-ConfigDedicatedNR, SIB12, SidelinkPreconfigNR or by upper layers: 2> set the entry included in the slrb-ConfigToReleaseList corres... | 3GPP TS 38.331 | NR; Radio Resource Control (RRC); Protocol specification | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 5.8.9.1.2 |
3,599 | 4.8.2.3.1 Interworking between NG-RAN and E-UTRAN | At inter-system change from N1 mode to S1 mode in EMM-IDLE mode when: a) the UE supports non-IP PDN type and at least one PDU session of Unstructured PDU session type is active; b) the UE supports IPv4 PDN type and at least one PDU session of IPv4 PDU session type is active; c) the UE supports IPv6 PDN type and at leas... | 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 | 4.8.2.3.1 |
3,600 | 16.4 Public Warning System | NR connected to 5GC provides support for public warning systems (PWS) through means of system information broadcast capability. NR is responsible for scheduling and broadcasting of the warning messages as well as for paging the UE to provide indication that the warning message is being broadcast: - Earthquake and Tsuna... | 3GPP TS 38.300 | NR; NR and NG-RAN Overall description; Stage-2 | RAN2 | 3GPP Series : 38 , Radio technology beyond LTE | 16.4 |
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