4.4 Attribute definitions
28.5413GPP5G Network Resource Model (NRM)Management and orchestrationStage 2 and stage 3TS
4.4.1 Attribute properties
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Attribute Name |
Documentation and Allowed Values |
Properties |
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|---|---|---|---|
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NRCellDU.administrativeState |
It indicates the administrative state of the NRCellDU. It describes the permission to use or prohibition against using the cell, imposed through the OAM services. allowedValues: LOCKED, SHUTTING DOWN, UNLOCKED. The meaning of these values is as defined in ITU‑T Recommendation X.731 [18]. See Annex A for Relation between the "Pre-operation state of the gNB-DU Cell" and administrative state relevant in case of 2-split and 3-split deployment scenarios. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: LOCKED isNullable: False |
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operationalState |
It indicates the operational state of the NRCellDU instance. It describes whether the resource is installed and partially or fully operable (Enabled) or the resource is not installed or not operable (Disabled). allowedValues: ENABLED, DISABLED. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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cellState |
It indicates the usage state of the NRCellDU instance. It describes whether the cell is not currently in use (Idle), or currently in use but not configured to carry traffic (Inactive) or is currently in use and is configured to carry traffic (Active). The Inactive and Active definitions are in accordance with TS 38.401 [4]: "Inactive: the cell is known by both the gNB-DU and the gNB-CU. The cell shall not serve UEs; Active: the cell is known by both the gNB-DU and the gNB-CU. The cell should be able to serve UEs." "allowedValues: IDLE, INACTIVE, ACTIVE. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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arfcnDL |
NR Absolute Radio Frequency Channel Number (NR-ARFCN) for downlink allowedValues: See TS 38.104 [12] subclause 5.4.2. Note that allowed values of NR-ARFCN are specified for each band in subclause 5.4.2.3. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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arfcnUL |
NR Absolute Radio Frequency Channel Number (NR-ARFCN) for uplink allowedValues: See TS 38.104 [12] subclause 5.4.2. Note that allowed values of NR-ARFCN are specified for each band in subclause 5.4.2.3. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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arfcnSUL |
NR Absolute Radio Frequency Channel Number (NR-ARFCN) for supplementary uplink allowedValues: See TS 38.104 [12] subclause 5.4.2. Note that allowed values of NR-ARFCN are specified for each band in subclause 5.4.2.3. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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beamAzimuth |
The azimuth of a beam transmission, which means the horizontal beamforming pointing angle (beam peak direction) in the (Phi) φ-axis in 1/10th degree resolution. See subclauses 3.2 in TS 38.104 [12] and 7.3 in TS 38.901 [53] as well as TS 28.662 [11]. The pointing angle is the direction equal to the geometric centre of the half-power contour of the beam relative to the reference plane. Zero degree implies explicit antenna bearing (boresight). Positive angle implies clockwise from the antenna bearing. allowedValues: [-1800 ..1800] 0.1 degree |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: Null isNullable: True |
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beamHorizWidth |
The Horizontal beamWidth of a beam transmission, which means the horizontal beamforming half-power (3dB down) beamwidth in the (Phi) φ-axis in 1/10th degree resolution. See subclauses 3.2 in TS 38.104 [12] and 7.3 in TS 38.901 [53]. allowedValues: [0..3599] 0.1 degree |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: Null isNullable: True |
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beamIndex |
Index of the beam. For example, please see subclause 6.6.2 of TS 38.331 [54] where the ssb-Index in the rsIndexResults element of MeasResultNR is defined. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: Null isNullable: True |
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beamTilt |
The tilt of a beam transmission, which means the vertical beamforming pointing angle (beam peak direction) in the (Theta) θ-axis in 1/10th degree resolution. See subclauses 3.2 in TS 38.104 [12] and 7.3 in TS 38.901 [53] as well as TS 28.662 [11]. The pointing angle is the direction equal to the geometric centre of the half-power contour of the beam relative to the reference plane. Positive value implies downtilt. allowedValues: [-900..900] 0.1 degree |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: Null isNullable: True |
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beamType |
The type of the beam. allowedValues: "SSB-BEAM" |
type: string multiplicity: 0..1 isOrdered: N/A isUnique: N/A defaultValue: Null isNullable: True |
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beamVertWidth |
The Vertical beamWidth of a beam transmission, which means the vertical beamforming half-power (3dB down) beamwidth in the (Theta) θ-axis in 1/10th degree resolution. See subclauses 3.2 in TS 38.104 [12] and 7.3 in TS 38.901 [53]. allowedValues: [0…1800] 0.1 degree |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: Null isNullable: True |
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bSChannelBwDL |
BS Channel BW in MHz. for downlink allowedValues: See BS Channel BW in TS 38.104 [12], subclause 5.3. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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bSChannelBwUL |
BS Channel BW in MHz.for uplink allowedValues: See BS Channel BW in TS 38.104 [12], subclause 5.3. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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bSChannelBwSUL |
BS Channel BW in MHz.for supplementary uplink allowedValues: See BS Channel BW in TS 38.104 [12], subclause 5.3. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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configuredMaxTxPower |
This is the maximum transmission power in milliwatts (mW) at the antenna port for all downlink channels, used simultaneously in a cell, added together. allowedValues: N/A |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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configuredMaxTxEIRP |
This is the maximum emitted isotroptic radiated power (EIRP) in dBm for all downlink channels, used simultaneously in a cell, added together [12]. allowedValues: N/A |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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coverageShape |
Identifies the sector carrier coverage shape described by the envelope of the contained SSB beams. The coverage shape is implementation dependent. allowedValues: 0 : 65535 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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digitalTilt |
Digitally-controlled tilt through beamforming. It represents the vertical pointing direction of the antenna relative to the antenna bore sight, representing the total non-mechanical vertical tilt of the selected coverageShape. Positive value gives downwards tilt and negative value gives upwards tilt. allowedValues: [-900..900] 0.1 degree |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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digitalAzimuth |
Digitally-controlled azimuth through beamforming. It represents the horizontal pointing direction of the antenna relative to the antenna bore sight, representing the total non-mechanical horizontal pan of the selected coverageShape. Positive value gives azimuth to the right and negative value gives an azimuth to the left. allowedValues: [-1800 ..1800] 0.1 degree |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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cyclicPrefix |
Cyclic prefix as defined in TS 38.211 [32], subclause 4.2. allowedValues: NORMAL, EXTENDED. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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localAddress |
This parameter specifies the localAddress used for initialization of the underlying transport. The AddressWithVlan <dataType> is defined in clause 4.3.64. |
type: AddressWithVlan multiplicity: 1 isOrdered: False isUnique: N/A defaultValue: None isNullable: False |
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AddressWithVlan.iPaddress |
This parameter specifies the IP address used for initialization of the underlying transport. IP address can be an IPv4 address (See RFC 791 [37]) or an IPv6 address (See RFC 2373 [38]). |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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AddressWithVlan. vlanId |
This parameter specifies the local VLAN Id (See IEEE 802.1Q [39]) used for initialization of the underlying transport. |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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remoteAddress |
Remote address including IP address used for initialization of the underlying transport. IP address can be an IPv4 address (See RFC 791 [37]) or an IPv6 address (See RFC 2373 [38]). |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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gNBId |
It identifies a gNB within a PLMN. The gNB ID is part of the NR Cell Identifier (NCI) of the gNB cells. See "gNB Identifier (gNB ID)" of subclause 8.2 of TS 38.300 [3]. See "Global gNB ID" in subclause 9.3.1.6 of TS 38.413 [5]. allowedValues: 0..4294967295 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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gNBIdLength |
This indicates the number of bits for encoding the gNB ID. See "Global gNB ID" in subclause 9.3.1.6 of TS 38.413 [5]. allowedValues: 22 .. 32. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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gNBDUId |
It uniquely identifies the DU at least within a gNB-CU. See ‘gNB-DU ID’ in subclause 9.3.1.9 of 3GPP TS 38.473 [8]. allowedValues: 0..236-1 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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gNBCUUPId |
It uniquely identifies the gNB-CU-UP at least within a gNB-CU-CP. See ‘gNB-CU-UP ID’ in subclause 9.3.1.15 of 3GPP TS 38.463 [48]. allowedValues: 0..236-1 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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gNBCUName |
It identifies the Central Entity of a NR node, see subclause 9.2.1.4 of 3GPP TS 38.473 [8]. allowedValues: Not applicable |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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gNBDUName |
It identifies the Distributed Entity of a NR node, see subclause 9.2.1.5 of 3GPP TS 38.473 [8]. allowedValues: Not applicable |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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cellLocalId |
It identifies a NR cell of a gNB. It, together with the gNB Identifier (using gNBId of the parent GNBCUCPFunction or GNBDUFunction or OperatorDU (for MOCN network sharing scenario) or ExternalCUCPFunction), identifies a NR cell within a PLMN. This is the NR Cell Identity (NCI). See subclause 8.2 of TS 38.300 [3]. The NCI can be constructed by encoding the gNB Identifier using gNBId (of the parent GNBCUCPFunction or GNBDUFunction or OperatorDU (for MOCN network sharing scenario) or ExternalCUCPFunction) and cellLocalId where the gNB Identifier field is of length specified by gNBIdLength (of the parent GNBCUCPFunction or GNBDUFunction or ExternalCUCPFunction). See "Global gNB ID" in subclause 9.3.1.6 of TS 38.413 [5]. The NR Cell Global identifier (NCGI) is constructed from the PLMN identity the cell belongs to and the NR Cell Identifier (NCI) of the cell. See relation between NCI and NCGI subclause 8.2 of TS 38.300 [3]. allowedValues: Not applicable |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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cAGIdList |
It identifies a CAG list containing up to 12 CAG-identifiers per PLMN Identity, see TS 38.331 [54]. CAG is used for the PNI-NPNs to prevent UE(s), which are not allowed to access the NPN via the associated cell(s), from automatically selecting and accessing the associated CAG cell(s). CAG ID is used to combine with PLMN ID to identify a PNI-NPN. allowedValues: BIT STRING (SIZE (32)). |
type: String multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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nIDList |
It identifies a list of NIDs containing up to 12 NIDs per PLMN Identity, see TS 38.331 [54]. allowedValues: BIT STRING (SIZE (44)). |
type: String multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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nRPCI |
This holds the Physical Cell Identity (PCI) of the NR cell. allowedValues: See 3GPP TS 36.211 subclause 6.11 for legal values of pci. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nRTAC |
This holds the identity of the common Tracking Area Code for the PLMNs. allowedValues: a) It is the TAC or Extended-TAC. b) A cell can only broadcast one TAC or Extended-TAC. See TS 36.300, subclause 10.1.7 (PLMNID and TAC relation). c) TAC is defined in subclause 19.4.2.3 of 3GPP TS 23.003 [13] and Extended-TAC is defined in subclause 9.3.1.29 of 3GPP TS 38.473 [8]. d) For a 5G SA (Stand Alone), it has a non-null value. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: NULL isNullable: True |
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GNBCUCPFunction.pLMNId |
It specifies the PLMN identifier to be used as part of the global RAN node identity. allowedValues: Not applicable. |
Type: PLMNId multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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GNBCUUPFunction.pLMNIdList |
This is a list of PLMN identifiers. It defines from which set of PLMNs an UE must have as its serving PLMN to be allowed to use the GNB-CU-UP. allowedValues: Not applicable. |
type: PLMNId multiplicity: 1..12 isOrdered: False isUnique: True defaultValue: None isNullable: False |
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NRCellCU.pLMNInfoList |
It defines which PLMNs that can be served by the NR cell, and which S-NSSAIs can be supported by the NR cell for corresponding PLMN in case of network slicing feature is supported. The pLMNId of the first entry of the list is the PLMNId used to construct the nCGI for the NR cell. allowedValues: Not applicable. |
type: PLMNInfo multiplicity: 1..* isOrdered: True isUnique: True defaultValue: None isNullable: False |
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NRCellDU.pLMNInfoList |
It defines which PLMNs that can be served by the NR cell, and which S-NSSAs can be supported by the NR cell for corresponding PLMN in case of network slicing feature is supported. The pLMNId of the first entry of the list is the PLMNId used to construct the nCGI for the NR cell. allowedValues: Not applicable. |
type: PLMNInfo multiplicity: 1..* isOrdered: True isUnique: True defaultValue: None isNullable: False |
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nPNIdentityList |
It defines which NPNs that can be served by the NR cell, and which CAG IDs or NIDs can be supported by the NR cell for corresponding PNI-NPN or SNPN in case of the cell is NPN-only cell. (nPNIdentity referring to TS 38.331 [54]) allowedValues: Not applicable. |
type: NPNIdentity multiplicity: 1..* isOrdered: True isUnique: True defaultValue: None isNullable: False |
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ExternalNRCellCU.pLMNIdList |
It defines which PLMNs that are assumed to be served by the NR Cell in another gNB-CU-CP. This list is either updated by the managed element itself (e.g. due to ANR, signalling over Xn etc) or by consumer over the standard interface. allowedValues: Not applicable. |
Type: PLMNId multiplicity: 1..12 isOrdered: False isUnique: True defaultValue: None isNullable: False |
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rRMPolicyMemberList |
It represents the list of RRMPolicyMember (s) that the managed object is supporting. A RRMPolicyMember <<dataType>> include the PLMNId <<dataType>> and S-NSSAI <<dataType>>. allowedValues: N/A |
type: RRMPolicyMember multiplicity: 1..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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resourceType |
The resource type of interest for an RRM Policy. allowedValues: PRB, PRB UL, PRB DL (for NRCellDU, GNBDUFunction) RRC connected users (for NRCellCU, GNBCUCPFunction) DRB (for GNBCUUPFunction) See NOTE 2and NOTE 4 |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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sNSSAIList |
It represents the list of S-NSSAI the managed object is supporting. The S-NSSAI is defined in 3GPP TS 23.003 [13]. allowedValues: See 3GPP TS 23.003 [13] |
type: S-NSSAI multiplicity: * isOrdered: False isUnique: True defaultValue: None allowedValues: N/A isNullable: False |
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sST |
This attribute specifies the Slice/Service type (SST) of the network slice. See clause 5.15.2 of 3GPP TS 23.501 [2]. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None allowedValues: N/A isNullable: False |
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sD |
This attribute specifies the Slice Differentiator (SD), which is optional information that complements the slice/service type(s) to differentiate amongst multiple Network Slices. See clause 5.15.2 of 3GPP TS 23.501 [2]. |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None allowedValues: N/A isNullable: False |
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rRMPolicyMaxRatio |
This attribute specifies the maximum percentage of radio resources that can be used by the associated rRMPolicyMemberList. The maximum percentage of radio resources include at least one of the shared resources, prioritized resources and dedicated resources. The sum of the ‘rRMPolicyMaxRatio’ values assigned to all RRMPolicyRatio(s) name-contained by same MangedEntity can be greater than 100. Default value: 100 allowedValues: 0 : 100 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: True allowedValues: N/A isNullable: False |
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rRMPolicyMinRatio |
This attribute specifies the minimum percentage of radio resources that can be used by the associated rRMPolicyMemberList. The minimum percentage of radio resources including at least one of prioritized resources and dedicated resources. The sum of the ‘rRMPolicyMinRatio’ values assigned to all RRMPolicyRatio(s) name-contained by same MangedEntity shall be less or equal 100. Default value: 0 allowedValues: 0 : 100 NOTE: Void. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: True allowedValues: N/A isNullable: False |
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rRMPolicyDedicatedRatio |
This attribute specifies the percentage of radio resource that dedicatedly used by the associated rRMPolicyMemberList. The sum of the ‘rRMPolicyDedicatedRatio’ values assigned to all RRMPolicyRatio(s) name-contained by same MangedEntity shall be less or equal 100. Default value: 0 allowedValues:0 : 100 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: TRUE allowedValues: N/A isNullable: False |
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subCarrierSpacing |
Subcarrier spacing configuration for a BWP. See subclause 5 in TS 38.104 [12]. AllowedValues: [15, 30, 60, 120] depending on the frequency range FR1 or FR2. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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txDirection |
Indicates if the transmission direction is downlink (DL), uplink (UL) or both downlink and uplink (DL and UL). allowedValues: DL, UL, DL and UL |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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bwpContext |
It identifies whether the object is used for downlink, uplink or supplementary uplink. allowedValues: DL, UL, SUL |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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isInitialBwp |
It identifies whether the object is used for initial or other BWP. allowedValues: INITIAL, OTHER |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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startRB |
Offset in common resource blocks to common resource block 0 for the applicable subcarrier spacing for a BWP. This corresponds to N_BWP_start, see subclause 4.4.5 in TS 38.211 [32]. allowedValues: 0 to N_grid_size – 1, where N_grid_size equals the number of resource blocks for the BS channel bandwidth, given the subcarrier spacing of the BWP. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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numberOfRBs |
Number of physical resource blocks for a BWP. This corresponds to N_BWP_size, see subclause 4.4.5 in TS 38.211 [32]. allowedValues: 1 to N_grid_size – startRB of the BWP. Se startRB for definition of N_grid_size. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nRTCI |
This is the Target NR Cell Identifier. It consists of NR Cell Identifier (NCI) and Physical Cell Identifier of the target NR cell (nRPCI). The NRRelation.nRTCI identifies the target cell from the perspective of the NRCell, the name-containing instance of the subject NRCellCU instance. allowedValues: Not applicable. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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adjacentNRCellRef |
This attribute contains the DN of an adjacentNRCell (NRCellCU or ExternalNRCellCU) allowedValues: Not applicable. |
type: DN multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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ssbFrequency |
Indicates cell defining SSB frequency domain position Frequency of the cell defining SSB transmission. The frequency provided in this attribute identifies the position of resource element RE=#0 (subcarrier #0) of resource block RB#10 of the SS block. The frequency must be positioned on the NR global frequency raster, as defined in TS 38.101-1 [42] subclause 5.4.2. and within bSChannelBwDL. allowedValues: 0..3279165 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nRFrequencyRef |
This attribute contains the DN of the referenced NRFrequency. allowedValues: Not applicable. |
type: DN multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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nRrFreqRelationRef |
This attribute contains the DN of the referenced NRFreqRelation. allowedValues: Not applicable. |
type: DN multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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nRSectorCarrierRef |
This attribute contains the DN of the referenced NRSectorCarrier. allowedValues: Not applicable. |
type: DN multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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bWPRef |
This attribute contains a list of referenced BWPs. allowedValues: DN of a BWP. |
type: DN multiplicity: * isOrdered: False isUnique: True defaultValue: None isNullable: False |
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sectorEquipmentFunctionRef |
This attribute contains the DN of the referenced SectorEquipmentFunction. allowedValues: Not applicable. |
type: DN multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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offsetMO |
It is a list of offset values applicable to all measured cells with reference signal(s) indicated in this MeasObjectNR. See offsetMO of subclause 5.5.4 of TS 38.331 [54]. allowedValues: Not applicable. |
type: QOffsetRangeList multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: N/A isNullable: False |
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cellIndividualOffset |
It is a list of offset values for the neighbour cell. Used when UE is in connected mode. The unit is 1dB. It is defined for rsrpOffsetSSB, rsrqOffsetSSB, sinrOffsetSSB, rsrpOffsetCSI-RS, rsrqOffsetCSI-RS and sinrOffsetCSI-RS. See TS 38.331 [54]. allowedValues: Not applicable. |
type: Integer multiplicity: 6 isOrdered: True isUnique: N/A defaultValue: 0 isNullable: False |
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blockListEntry |
It specifies a list of PCI (physical cell identity) that are exclude-listed in EUTRAN measurements as described in 3GPP TS 38.331 [54]. allowedValues: { 0…1007 } |
type: Integer multiplicity: * isOrdered: False isUnique: True defaultValue: None isNullable: False |
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blockListEntryIdleMode |
It specifies a list of PCI (physical cell identity) that are exclude-listed in SIB4 and SIB5. allowedValues: { 0…1007 } |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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cellReselectionPriority |
It is the absolute priority of the carrier frequency used by the cell reselection procedure. See CellReselectionPriority IE in TS 38.331 [54]. It corresponds to the parameter priority in 3GPP TS 38.304 [49]. Value 0 means lowest priority. The UE behaviour when no value is entered is specified in subclause 5.2.4.1 of 3GPP TS 38.304 [49]. The value must not already used by other RAT, i.e. equal priorities between RATs are not supported. allowedValues: N/A |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: 0None isNullable: False |
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cellReselectionSubPriority |
It indicates a fractional value to be added to the value of cellReselectionPriority to obtain the absolute priority of the concerned carrier frequency for E-UTRA and NR. See CellReselectionSubPriority IE in TS 38.331 [54]. allowedValues: { 0.2, 0.4, 0.6, 0.8 }. |
type: Real multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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pMax |
It calculates the parameter Pcompensation (defined in 3GPP TS 38.304 [49]), at cell reselection to an Cell. Its unit is 1 dBm. It corresponds to parameter PEMAX in 3GPP TS 38.101-1 [42]. allowedValues: { -30..33 }. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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qOffsetFreq |
It is the frequency specific offset applied when evaluating candidates for cell reselection. See TS 38.331 [49]. Its unit is 1 dB. allowedValues: { -24, -22, -20, -18, -16, -14, -12, -10, -8, -6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5, 6, 8, 10, 12, 14, 16, 20, 22, 24 } |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: 0 isNullable: False |
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qOffsetRangeList |
It is used to indicate a cell, beam or measurement object specific offset to be applied when evaluating candidates for cell re-selection or when evaluating triggering conditions for measurement reporting. The value in dB. Value dB-24 corresponds to -24 dB, dB-22 corresponds to -22 dB and so on. This is a list of enum values representing, in sequence: rsrpOffsetSSB, rsrqOffsetSSB, sinrOffsetSSB, rsrpOffsetCSI-RS, srqOffsetCSI-RS, sinrOffsetCSI-RS. See Q-OffsetRangeList in subclause of subclause 6.3.1 of TS 38.331 [54]. allowedValues: { -24, -22, -20, -18, -16, -14, -12, -10, -8, -6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24 } |
type: ENUM multiplicity: 6 isOrdered: True isUnique: N/A defaultValue: 0 isNullable: False |
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qQualMin |
It indicates the minimum required quality level in the cell (dB). See qQualMin in TS 38.304 [49]. Unit is 1 dB. Value 0 means that it is not sent and UE applies in such case the (default) value of negative infinity for Qqualmin. Sent in SIB3 or SIB5. allowedValues: { -34..-3, 0 } |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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qRxLevMin |
It indicates the required minimum received Reference Symbol Received Power (RSRP) level in the (E-UTRA) frequency for cell reselection. It corresponds to Qrxlevmin defined in 3GPP TS 38.304 [49]. It is broadcast in SIB3 or SIB5, depending on whether the related frequency is intra- or inter-frequency. Its unit is 1 dBm and resolution is 2. allowedValues: { -140..-44 }. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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threshXHighP |
This specifies the Srxlev threshold (in dB) used by the UE when reselecting towards a higher priority RAT/ frequency than the current serving frequency. Each frequency of NR and E-UTRAN might have a specific threshold. It corresponds to the ThreshX, HighP in 3GPP TS 38.304 [49]. Its unit is 1 dB and resolution is 2. allowedValues: { 0..62 } |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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threshXHighQ |
This specifies the Squal threshold (in dB) used by the UE when reselecting towards a higher priority RAT/ frequency than the current serving frequency. Each frequency of NR and E-UTRAN might have a specific threshold. It corresponds to the ThreshX, HighQ in TS 38.304 [49]. Its unit is 1 dB. allowedValues: { 0..31 } |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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threshXLowP |
This specifies the Srxlev threshold (in dB) used by the UE when reselecting towards a lower priority RAT/ frequency than the current serving frequency. Each frequency of NR might have a specific threshold. It corresponds to ThreshX,LowP in 3GPP TS 38.304 [49]. Its unit is 1 dB. Its resolution is 2. allowedValues: { 0..62 } |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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threshXLowQ |
This specifies the Squal threshold (in dB) used by the UE when reselecting towards a lower priority RAT/ frequency than the current serving frequency. Each frequency of NR might have a specific threshold. It corresponds to ThreshX,Low in TS 38.304 [49]. Its unit is 1 dB. allowedValues: {0..31}. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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tReselectionNr |
It is the cell reselection timer and corresponds to parameter TreselectionRAT for NR defined in 38.331 [54]. Its unit is in seconds. allowedValues: {0..7}. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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tReselectionNRSfHigh |
The attribute t-ReselectionNr (a parameter TreselectionNR in TS 38.304 [49]) is multiplied with this factor if the UE is in high mobility state. It corresponds to the parameter Speed dependent ScalingFactor for TreselectionNr for medium high state in 3GPP TS 38.304 [49]. The unit is one %. Value mapping: allowedValues: {25, 50, 75, 100}. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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tReselectionNRSfMedium |
The attribute t-ReselectionNR (a parameter "TreselectionNR in TS 38.304 [49]”) is multiplied with this factor if the UE is in medium mobility state. It corresponds to the parameter Speed dependent ScalingFactor for TreselectionNr for medium mobility state in 3GPP TS 38.304 [49]. Its unit is one %. Value mapping: allowedValues: {25, 50, 75, 100}. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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absoluteFrequencySSB |
The absolute frequency applicable for a downlink NR carrier frequency associated with the SSB. allowedValues: {0.. 3279165}. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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sSBSubCarrierSpacing |
This SSB is used for for synchronization. See subclause 5 in TS 38.104 [12]. Its units are in kHz. allowedValues: {15, 30, 120, 240}. Note that the allowed values of SSB used for representing data, by e.g. a BWP, are: 15, 30, 60 and 120 in units of kHz. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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multiFrequencyBandListNR |
It is a list of additional frequency bands the frequency belongs to. The list is automatically set by the gNB. allowedValues: {1..256 } |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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ssbPeriodicity |
Indicates cell defined SSB periodicity in number of subframes (ms). The SSB periodicity in msec is used for the rate matching purpose. allowedValues: 5, 10, 20, 40, 80, 160. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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ssbOffset |
Indicates cell defining SSB time domain position. Defined as the offset of the measurement window, in number of subframes (ms), in which to receive SS/PBCH blocks, where allowed values depend on the ssbPeriodicity. allowedValues: ssbPeriodicity5 ms 0..4, ssbPeriodicity10 ms 0..9, ssbPeriodicity20 ms 0..19, ssbPeriodicity40 ms 0..39, ssbPeriodicity80 ms 0..79, ssbPeriodicity160 ms 0..159. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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ssbDuration |
Duration of the measurement window in which to receive SS/PBCH blocks. It is given in number of subframes (ms) (see 38.213 [41], subclause 4.1. allowedValues: 1, 2, 3, 4, 5. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSMonitoringStartTime |
This field configures the UTC time when the gNB attempts to start RIM-RS monitoring. allowedValues: containing the information same with xsd: dateTime. |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSMonitoringStopTime |
This field configures the UTC time when the gNB stops RIM-RS monitoring. allowedValues: containing the information same with xsd: dateTime. |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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mappingSetIDBackhaulAddressList |
The attribute specifies a list of mappingSetIDBackhaulAddress which is defined as a datatype (see clause 4.3.47). Which is used to retrieve the backhaul address of the victim set. allowedValues: Not applicable |
type: MappingSetIDBackhaulAddress multiplicity: 1..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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backhaulAddress |
The attribute specifies backhaulAddress which is defined as a datatype (see clause 4.3.48). allowedValues: Not applicable |
type: BackhaulAddress multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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setID |
This specifies the set ID of a victim Set (RIM-RS1 Set) or aggressor Set (RIM-RS2 set). (See subclause 7.4.1.6 in TS 38.211 [32]). allowedValues: The bit length of the set ID is maximum 22bit. See NOTE 10. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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tAI |
Indicates the TAI (see subclause 9.3.3.11 in TS 38.413[5]), including pLMNId ID and nRTAC. allowedValues: Not applicable |
type: TAI multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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isRemoveAllowed |
This indicates if the subject NRCellRelation can be removed (deleted) or not. If TRUE, the subject NRCellRelation instance can be removed (deleted). If FALSE, the subject NRCellRelation instance shall not be removed (deleted) by any entity but an MnS consumer. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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isHOAllowed |
This indicates if HO is allowed or prohibited. If TRUE, handover is allowed from source cell to target cell. The source cell is identified by the name-containing NRCellCU of the NRCellRelation that contains the isHOAllowed. The target cell is referenced by the NRCellRelation that contains this isHOAllowed. If FALSE, handover shall not be allowed. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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intrasystemANRManagementSwitch |
This attribute determines whether the intra-system ANR function is activated or deactivated. If “TRUE”, the intra-system ANR function may add or remove intra NG-RAN Neighbour Relations, i.e. add or remove NRCellRelation instances from NRCellCU of this GNBCUCPFunction. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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intersystemANRManagementSwitch |
This attribute determines whether the inter-system ANR function is activated or deactivated. If “TRUE”, the inter-system ANR function may add or remove inter-system Neighbour Relations, i.e. add or remove EUtranRelation instances from NRCellCU of this GNBCUCPFunction. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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desSwitch |
This attribute determines whether the Distributed SON energy saving function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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cesSwitch |
This attribute determines whether the Centralized SON energy saving function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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energySavingControl |
This attribute allows the Centralized SON energy saving function to initiate energy saving activation or deactivation. allowedValues: toBeEnergySaving, toBeNotEnergySaving |
type: enumeration multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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energySavingState |
Specifies the status regarding the energy saving in the cell. If the value of energySavingControl is toBeEnergySaving, then it shall be tried to achieve the value isEnergySaving for the energySavingState. If the value of energySavingControl is toBeNotEnergySaving, then it shall be tried to achieve the value isNotEnergySaving for the energySavingState. allowedValues: isNotEnergySaving, isEnergySaving. |
type: enumeration multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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intraRatEsActivationOriginalCellLoadParameters |
This attributes is relevant, if the cell acts as an original cell. This attribute indicates the traffic load threshold and the time duration, which are used by distributed ES algorithms to allow a cell to enter the energySaving state. The time duration indicates how long the load needs to have been below the threshold. allowedValues: Threshold: Integer 0..100 (Percentage of PRB usage, see 3GPP TS 36.314 [13]) TimeDuration: Integer (in unit of seconds) |
type: data type multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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intraRatEsActivationCandidateCellsLoadParameters |
This attributes is relevant, if the cell acts as a candidate cell. This attribute indicates the traffic load threshold and the time duration, which are used by distributed ES algorithms level to allow a n ‘original’ cell to enter the energySaving state. Threshold and duration are applied to the candidate cell(s) which will provides coverage backup of an original cell when it is in the energySaving state. The threshold applies in the same way for a candidate cell, no matter for which original cell it will provide backup coverage. The time duration indicates how long the traffic in the candidate cell needs to have been below the threshold before any original cells which will be provided backup coverage by the candidate cell enters energy saving state. allowedValues: Threshold: Integer 0..100 (Percentage of PRB usage (see 3GPP TS 36.314 [13]) ) TimeDuration: Integer (in unit of seconds) |
type: data type multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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intraRatEsDeactivationCandidateCellsLoadParameters |
This attributes is relevant, if the cell acts as a candidate cell. This attribute indicates the traffic load threshold and the time duration which is used by distributed ES algorithms to allow a cell to leave the energySaving state. Threshold and time duration are applied to the candidate cell when it which provides coverage backup for the cell in energySaving state. The threshold applies in the same way for a candidate cell, no matter for which original cell it provides backup coverage. The time duration indicates how long the traffic in the candidate cell needs to have been above the threshold to wake up one or more original cells which have been provided backup coverage by the candidate cell. allowedValues: Threshold: Integer 0..100 (Percentage of PRB usage (see 3GPP TS 36.314 [13]) ) TimeDuration: Integer (in unit of seconds) |
type: data type multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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esNotAllowedTimePeriod |
This attribute can be used to prevent a cell entering energySaving state. This attribute indicates a list of time periods during which inter-RAT energy saving is not allowed. Time period is valid on the specified day and time of every week. allowedValues: The legal values are as follows: startTime and endTime: All values that indicate valid UTC time. endTime should be later than startTime. periodOfDay: structure of startTime and endTime. daysOfWeekList: list of weekday. weekday: Monday, Tuesday, … Sunday. List of time periods: {{ daysOfWeek daysOfWeekList, periodOfDay dailyPeriod}} |
type: data type multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: True |
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interRatEsActivationOriginalCellParameters |
This attribute is relevant, if the cell acts as an original cell. This attribute indicates the traffic load threshold and the time duration, which are used by distributed inter-RAT ES algorithms to allow an original cell to enter the energySaving state. The time duration indicates how long the traffic load (both for UL and DL) needs to have been below the threshold. In case the original cell is an EUTRAN cell, the load information refers to Composite Available Capacity Group IE (see 3GPP TS 36.413 [12] Annex B.1.5) and the following applies: Load = (100 – ‘Capacity Value’ ) * ‘Cell Capacity Class Value’, where ‘Capacity Value’ and ‘Cell Capacity Class Value’ are defined in 3GPP TS 36.423 [7]. In case the original cell is a UTRAN cell, the load information refers to Cell Load Information Group IE (see 3GPP TS 36.413 [12] Annex B.1.5) and the following applies: Load= ‘Load Value’ * ‘Cell Capacity Class Value’, where ‘Load Value’ and ‘Cell Capacity Class Value’ are defined in 3GPP TS 25.413 [19]. If the ‘Cell Capacity Class Value’ is not known, then ‘Cell Capacity Class Value’ should be set to 1 when calculating the load, and the load threshold should be set in range of 0..100. allowedValues: LoadThreshold: Integer 0..10000 TimeDuration: Integer 0..900 (in unit of seconds) |
type: data type multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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interRatEsActivationCandidateCellParameters |
This attribute is relevant, if the cell acts as a candidate cell. This attribute indicates the traffic load threshold and the time duration, which are used by distributed inter-RAT ES algorithms to allow an original cell to enter the energySaving state. Threshold and time duration are applied to the candidate cell(s) which will provides coverage backup of an original cell when it is in the energySaving state. The time duration indicates how long the traffic load (both for UL and DL) in the candidate cell needs to have been below the threshold before any original cells which will be provided backup coverage by the candidate cell enters energySaving state. In case the candidate cell is a UTRAN or GERAN cell, the load information refers to Cell Load Information Group IE(see 3GPP TS 36.413 [12] Annex B.1.5) and the following applies: Load= ‘Load Value’ * ‘Cell Capacity Class Value’, where ‘Load Value’ and ‘Cell Capacity Class Value’ are defined in 3GPP TS 25.413 [19] (for UTRAN) / TS 48.008 [20] (for GERAN). If the ‘Cell Capacity Class Value’ is not known, then ‘Cell Capacity Class Value’ should be set to 1 when calculating the load, and the load threshold should be set in range of 0..100. allowedValues: LoadThreshold: Integer 0..10000 TimeDuration: Integer 0..900 (in unit of seconds) |
type: data type multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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interRatEsDeactivationCandidateCellParameters |
This attribute is relevant, if the cell acts as a candidate cell. This attribute indicates the traffic load threshold and the time duration which is used by distributed inter-RAT ES algorithms to allow an original cell to leave the energySaving state. Threshold and time duration are applied to the candidate cell which provides coverage backup for the cell in energySaving state. The time duration indicates how long the traffic load (either for UL or DL) in the candidate cell needs to have been above the threshold to wake up one or more original cells which have been provided backup coverage by the candidate cell. For the load see the definition of interRatEsActivationCandidateCellParameters. allowedValues: LoadThreshold: Integer 0..10000 TimeDuration: Integer 0..900 (in unit of seconds) |
type: data type multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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isProbingCapable |
This attribute indicates whether this cell is capable of performing the ES probing procedure. During this procedure the eNB owning the cell indicates its presence to UEs for measurement purposes, but prevents idle mode UEs from camping on the cell and prevents incoming handovers to the same cell. If this parameter is absent, then probing is not done. allowedValues: yes, no |
type: enumeration multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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dmroControl |
This attribute determines whether the MRO function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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dDAPSHOControl |
This attribute determines whether the DAPS handover function is enabled or disabled. allowedValues: TRUE, FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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dlboControl |
This attribute determines whether the D-LBO function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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cSonPciList |
This holds a list of physical cell identities that can be assigned to the pci attribute by gNB. The assignment algorithm is not specified. This attribute shall be supported if and only if the C-SON PCI configuration is supported. See TS 28.313, ref [57] subclause 7.1.3. allowedValues: See TS 38.211 [32] subclause 7.4.2.1 for legal values of pci. The number of pci in the list is 1 to 100X. |
type: Integer multiplicity: 1..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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ueAccProbilityDist |
This is a list of target Access Probability (APn) for the RACH optimization function. Each instance APn of the list is the probability that the UE gets access on the RACH channel per cell within n number of preambles sent over an unspecified sampling period. This target is suitable for RACH optimization. allowedValues: Each element of the list, APn, is a pair (a, n) where a is the targetProbability (in %) and n is the number of preambles sent. The legal values for a are 25, 50, 75, 90. The legal values for n are 1 to 200. The number of elements specified is 4. The number of elements supported is vendor specific. The choice of supported values for a and n is vendor-specific. |
type: data type multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: True |
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ueAccDelayProbilityDist |
This is a list of target Access Delay probability (ADP) for the RACH optimization function. Each instance ADP of the list is the target time before the UE gets access on the RACH channel per cell, for the P percent of the successful RACH Access attempts with lowest access delay, over an unspecified sampling period. This target is suitable for RACH optimization. allowedValues: Each element of the list, ADp, is a pair (p, d) where p is the targetProbability (in %) and d is the access delay (in milliseconds). The legal values for p are 25, 50, 75, 90. The legal values for d are 10 to 560. The number of elements specified is 4. The number of elements supported is vendor specific. The choice of supported values for a and b is vendor-specific. |
type: data type multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: True |
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drachOptimizationControl |
This attribute determines whether the RACH Optimization function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nRPciList |
This holds a list of physical cell identities that can be assigned to the NR cells. This attribute shall be supported if D-SON PCI configuration function is supported. See subclause 8.2.3, 8.3.1 in TS 28.313 [57]. allowedValues: See TS 38.211 [32] subclause 7.4.2 for legal values of pci. The number of pci in the list is 0 to 1007. |
type: Integer multiplicity: 1..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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dPciConfigurationControl |
This attribute determines whether the Distributed SON PCI configuration Function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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cPciConfigurationControl |
This attribute determines whether the Centralized SON PCI configuration function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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maximumDeviationHoTriggerLow |
This parameter defines the maximum allowed lower deviation of the Handover Trigger, from the default point of operation (see clause 15.5.2.5 in TS 38.300 [3] and clause 9.2.2.61 in TS 38.423 [58].) allowedValues: -20..20 Unit: 0.5 dB |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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maximumDeviationHoTriggerHigh |
This parameter defines the maximum allowed upper deviation of the Handover Trigger, from the default point of operation (see clause 15.5.2.5 in TS 38.300 [3]. and clause 9.2.2.61 in TS 38.423 [58].) allowedValues: -20..20 Unit: 0.5 dB |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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minimumTimeBetweenHoTriggerChange |
This parameter defines the minimum allowed time interval between two Handover Trigger change performed by MRO. This is used to control the stability and convergence of the algorithm (see clause 15.5.2.5 in TS 38.300 [3]). allowedValues: 0..604800 Unit: Seconds |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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tstoreUEcntxt |
The timer used for detection of too early HO, too late HO and HO to wrong cell. Corresponds to Tstore_UE_cntxt timer described in clause 15.5.2.5 in TS 38.300 [3]. This attribute is used for Mobility Robustness Optimization. allowedValues: 0..1023 Unit: 100 milliseconds |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: True |
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configurable5QISetRef |
This is the DN of Configurable5QISet. The detailed definition for Configurable5QISet see clause 5.3.75. allowedValues: DN of the Configurable5QISet MOI. |
type: DN multiplicity: 0..1 isOrdered: False isUnique: True defaultValue: None isNullable: True |
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dynamic5QISetRef |
This is the DN of Dynamic5QISet. The detailed definition for Dynamic5QISet see clause 5.3.94. allowedValues: DN of the Dynamic5QISet MOI. |
type: DN multiplicity: 0..1 isOrdered: False isUnique: True defaultValue: None isNullable: True |
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frequencyDomainPara |
This attribute defines configuration parameters of frequency domain resource to support RIM RS. allowedValues: Not applicable. |
type: FrequencyDomainPara multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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sequenceDomainPara |
This attribute defines configuration parameters of sequence domain resource to support RIM RS. allowedValues: Not applicable. |
type: SequenceDomainPara multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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timeDomainPara |
This attribute defines configuration parameters of time domain resource to support RIM RS. allowedValues: Not applicable. |
type: TimeDomainPara multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSSubcarrierSpacing |
It is the subcarrier spacing configuration () for the RIM-RS. Subcarrier spacing (see 38.211 [32], subclause 5.3.3). allowedValues: 0, 1 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rIMRSBandwidth |
It is the bandwidth of the RIM-RS in resource blocks (see 38.211 [32], subclause 5.3.3). For carrier bandwidth larger than 20MHz, this attributer should be 96 if subcarrier spacing is15kHz; 48 or 96 if subcarrier spacing is 30kHz; For carrier bandwidth smaller than or equal to 20MHz, this attribute should be Minimum of {96 , bandwidth of downlink carrier in number of PRBs} if subcarrier spacing is15kHz; Minimum of {48, bandwidth of downlink carrier in number of PRBs } if subcarrier spacing is 30kHz; allowedValues: 1,2..96 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nrofGlobalRIMRSFrequencyCandidates |
It is the number of candidate frequency resources in the whole network () (see 38.211 [32], subclause 7.4.1.6). allowedValues: 1,2,4 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSStartingFrequencyOffsetIdList |
It is a list of configured frequency offsets in units of resource blocks, where each element is the frequency offset relative to a configured reference point for RIM-RS. The size of the list is nrofGlobalRIMRSFrequencyCandidates and the resulting frequency resource blocks of RIM-RS corresponding to different configured frequency offset have no overlapping bandwidth. (see 38.211 [32], subclause 7.4.1.6). . allowedValues: 0..maxNrofPhysicalResourceBlocks-1 where maxNrofPhysicalResourceBlocks = 550 |
type: Integer multiplicity: 1, 2, 4 isOrdered: False isUnique: True defaultValue: None isNullable: False |
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nrofRIMRSSequenceCandidatesofRS1 |
It is the number of candidate sequences assigned for RIM RS-1 () (see 38.211 [32], subclause 7.4.1.6). It should be even when enableEnoughNotEnoughIndication for RS-1 is ON allowedValues: 1,2..8 see NOTE 10 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSScrambleIdListofRS1 |
It is a list of configured scrambling identities for RIM RS-1 (see 38.211 [32], subclause 7.4.1.6). The size of the list is nrofRIMRSSequenceCandidatesofRS1. allowedValues: 0..2^10-1 |
type: Integer multiplicity: 1, 2..8 isOrdered: False isUnique: True defaultValue: None isNullable: False |
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nrofRIMRSSequenceCandidatesofRS2 |
It is the number of candidate sequences assigned for RIM RS-2 () (see 38.211 [32], subclause 7.4.1.6). allowedValues: 1,2..8 See NOTE 10. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSScrambleIdListofRS2 |
It is a list of configured scrambling identities for RIM RS-2 (see 38.211 [32], subclause 7.4.1.6).. The size of the list is nrofRIMRSSequenceCandidatesofRS2. allowedValues: 0..2^10-1 |
type: Integer multiplicity: 1, 2..8 isOrdered: False isUnique: True defaultValue: None isNullable: False |
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enableEnoughNotEnoughIndication |
It is indication of whether “Enough” / “Not enough” indication functionality is enabled for RIM RS-1 (see 38.211 [32], subclause 7.4.1.6). If the indication is "enable", the first half of nrofRIMRSSequenceCandidatesofRS1 sequences indicates "Not enough mitigation", and the second half indicates "Enough mitigation", where, "Enough mitigation" indicates that IoT going back to certain level at victim side and/or no further interference mitigation actions are needed at aggressor side "Not enough mitigation" indicates that IoT exceeding certain level at victim side and/or further interference mitigation actions are needed at aggressor side enableEnoughNotEnoughIndication is equivalent to EnoughIndication (see 38.211 [32], subclause 7.4.1.6) allowedValues: "ENABLE", "DISABLE" see NOTE 8 |
type: Enum multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: DISABLE isNullable: False |
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RIMRSScrambleTimerMultiplier |
It is parameter multiplier factor for initialization seed of the pseudo-random sequence (see 38.211 [32], subclause 7.4.1.6.2). allowedValues: 0,1,….2^31-1 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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RIMRSScrambleTimerOffset |
It is parameter offset for initialization seed of the pseudo-random sequence (see 38.211 [32], subclause 7.4.1.6.2). allowedValues: 0,1,….2^31-1 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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dlULSwitchingPeriod1 |
This attribute is used to configure the first uplink-downlink switching period (P1) for RIM RS transmission in the network, where one RIM RS is configured in one uplink-downlink switching period. (see 38.211 [32], subclause 7.4.1.6). When only one TDD-UL-DL-Pattern is configured, only dl-UL-SwitchingPeriod1 is configured, where P1 equals to the transmission periodicity of the TDD-UL-DL-Pattern. When two concatenated TDD-UL-DL-Patterns are configured, and RIM-RS resources is configured only in one of the TDD patterns, only dl-UL-SwitchingPeriod1 is configured, where P1 equals to the addition of the concatenated transmission periodicity of the two TDD-UL-DL-Patterns. When two concatenated TDD-UL-DL-Patterns are configured, and RIM-RS resources are configured in both TDD patterns, both dl-UL-SwitchingPeriod1 and dl-UL-SwitchingPeriod2 are configured, where P1 equals to the transmission periodicity of the first TDD-UL-DL-Pattern. P1 is equivalent to (see 38.211 [32], subclause 7.4.1.6). See NOTE 6 allowedValues: MS0P5, MS0P625, MS1, MS1P25, MS2, MS2P5, MS4, MS5, MS10, MS20, if a single uplink-downlink period is configured for RIM-RS purposes; MS0P5, MS0P625, MS1, MS1P25, MS2, MS2P5, MS3, MS4, MS5, MS10, MS20, if two uplink-downlink periods are configured for RIM-RS purposes. see NOTE 9 |
type: Enum multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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symbolOffsetOfReferencePoint1 |
This attribute is used to configure the reference point in the first uplink-downlink switching period, which is the symbols offset of the reference point after the starting boundary of the first uplink-downlink switching period. It’s Configured together with dl-UL-SwitchingPeriod1 (see 38.211 [32], subclause 7.4.1.6). When only one TDD-UL-DL-Pattern is configured, the reference point configured for the first uplink-downlink switching period is the DL transmission boundary of the TDD-UL-DL-Pattern. When two concatenated TDD-UL-DL-Patterns are configured, and RIM-RS resources is configured only in one of the TDD patterns, the reference point configured for the first uplink-downlink switching period is the DL transmission boundary of the TDD-UL-DL-Pattern where the RIM-RS resource is configured. When two concatenated TDD-UL-DL-Patterns are configured, and RIM-RS resources are configured in both TDD patterns, the reference points configured for first uplink-downlink switching period is the DL transmission boundary of the first TDD-UL-DL-Pattern. allowedValues: 2, 3..20*2*maxNrofSymbols-1, where maxNrofSymbols=14 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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dlULSwitchingPeriod2 |
This attribute is used to configure the second uplink-downlink switching period (P2) for RIM RS transmission in the network, where one RIM RS is configured in one uplink-downlink switching period (see 38.211 [32], subclause 7.4.1.6). When two concatenated TDD-UL-DL-Patterns are configured, and RIM-RS resources are configured in both TDD patterns, both dl-UL-SwitchingPeriod1 and dl-UL-SwitchingPeriod2 are configured, where P2 equals to the transmission periodicity of the second TDD-UL-DL-Pattern, and where (P1 + P2) divides 20 ms. allowedValues: MS0P5, MS0P625, MS1, MS1P25, MS2, MS2P5, MS3, MS4, MS5, MS10 P2 is equivalent to (see 38.211 [32], subclause 7.4.1.6) See NOTE 9 |
type: Enum multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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symbolOffsetOfReferencePoint2 |
This attribute is used to configure the reference point in the second uplink-downlink switching period, which is the symbol offset of the reference point after starting boundary of the second uplink-downlink switching period. Configured together with dl-UL-SwitchingPeriod2 (see 38.211 [32], subclause 7.4.1.6). When two concatenated TDD-UL-DL-Patterns are configured, and RIM-RS resources are configured in both TDD patterns, the reference points configured for second uplink-downlink switching period is the DL transmission boundary of the second TDD-UL-DL-Pattern. allowedValues: 2, 3..20*2*maxNrofSymbols-1, where maxNrofSymbols=14 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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totalnrofSetIdofRS1 |
It is the total number of set IDs for RIM RS-1 () (see 38.211 [32], subclause 7.4.1.6). allowedValues: 0,1…2^22-1 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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totalnrofSetIdofRS2 |
It is the total number of set IDs for RIM RS-2 () (see 38.211 [32], subclause 7.4.1.6). allowedValues: 0,1…2^22 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nrofConsecutiveRIMRS1 |
It is the number of consecutive uplink-downlink switching periods for RS-1 (R1) for repetition/near-far indication:. (see 38.211 [32], subclause 7.4.1.6). allowedValues: 1,2,4,8 see NOTE 7 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nrofConsecutiveRIMRS2 |
It is the number of consecutive uplink-downlink switching periods for RS-2 (R2) for repetition/near-far indication. (see 38.211 [32], subclause 7.4.1.6). allowedValues: 1,2,4,8 see NOTE 7 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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consecutiveRIMRS1List |
It is used to configure the OFDM symbol position(s) of RIM RS-1 within the uplink-downlink switching period. It is a list of symbol offset of RIM RS-1 () before the reference point. The size of the list is nrofConsecutiveRIMRS1 (see 38.211 [32], subclause 7.4.1.6). The resulting RIM RS-1 symbols and its reference point shall belong to the same 10ms frame. . allowedValues: 2,3..20*2*maxNrofSymbols-1, where maxNrofSymbols=14 |
type: Integer multiplicity: * isOrdered: False isUnique: True defaultValue: None isNullable: False |
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consecutiveRIMRS2List |
It is used to configure the OFDM symbol position(s) of RIM RS-2 within the uplink-downlink switching period. It is a list of symbol offset of RIM RS-2 () before the reference point. The size of the list is nrofConsecutiveRIMRS2 (see 38.211 [32], subclause 7.4.1.6). The resulting RIM RS-2 symbols and its reference point shall belong to the same 10ms frame. . allowedValues: 2,3..20*2*maxNrofSymbols-1, where maxNrofSymbols=14 |
type: Integer multiplicity: * isOrdered: False isUnique: True defaultValue: None isNullable: False |
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enablenearfarIndicationRS1 |
It is indication of whether near-far functionality is enabled for RIM RS1. If the indication is “enable”, the first half of nrofConsecutiveRIMRS1 (R1) consecutive uplink-downlink switching period is for "Near" indication with R1/2 repetitions, the second half of R1 consecutive uplink-downlink switching period is for "Far" indication with R1/2 repetitions. allowedValues: "ENABLE", "DISABLE" see NOTE 10. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: DISABLE isNullable: False |
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enablenearfarIndicationRS2 |
It is indication of whether near-far functionality is enabled for RIM RS2. If the indication is “enable”, the first half of nrofConsecutiveRIMRS2 (R2) consecutive uplink-downlink switching period is for "Near" indication with R2/2 repetitions, the second half of R2 consecutive uplink-downlink switching period is for "Far" indication with R2/2 repetitions. allowedValues: "ENABLE", "DISABLE" see NOTE 10. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: DISABLE isNullable: False |
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rimRSReportConf |
It is used to configure gNBs to report the all necessary information derived from the detected RIM-RS to OAM. allowedValues: Not applicable |
type: RimRSReportConf multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: N/A isNullable: False |
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reportIndicator |
It is used to enable or disable the RS report on a gNB. If the indication is “enable”, the gNB starts to periodically report necessary information derived from the detected RIM-RS to OAM. If the indication is “disable”, the gNB stops reporting. allowedValues: ENABLE, DISABLE |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: DISABLE isNullable: False |
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reportInterval |
It is used to define reporting interval of a gNB in ms. allowedValues: Not applicable |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nrofRIMRSReportInfo |
It is used to define the maximum number of RIMRSReportInfo in a single report. allowedValues: Not applicable |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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maxPropagationDelay |
It is used to define the maximum reported OFDM symbol number for the propagation delay of the detected RIM-RS in each RIMRSReportInfo. allowedValues: 0, 1..20*2*maxNrofSymbols-1, where maxNrofSymbols=14. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSReportInfoList |
It represents a list (the length of the list is nrofRIMRSReportInfo) of necessary information derived from the detected RIM-RS. allowedValues: Not applicable |
type: RimRSReportInfo multiplicity: * isOrdered: False isUnique: True defaultValue: N/A isNullable: False |
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detectedSetID |
This attribute indicates the Set ID of the detected RIM-RS. allowedValues: 0,1…max{totalnrofSetIdofRS1, totalnrofSetIdofRS2}. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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propagationDelay |
This attribute indicates the propagation delay of the detected RIM-RS, in number of OFDM symbol. allowedValues: 0, 1.. maxPropagationDelay. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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functionalityOfRIMRS |
This attribute indicates the functionality of the detected RIM-RS. If the indication of enableEnoughNotEnoughIndication is “enable”, valid values are {RS2, RS1forEnoughMitigation, RS1forNotEnoughMitigation}; If the indication of enableEnoughNotEnoughIndication is “disable”, valid values are {RS1, RS2}. RS1forEnoughMitigation means RIM-RS type 1 is used to indicate ‘enough mitigation’ functionality. RS1forNotEnoughMitigation means RIM-RS type 1 is used to indicate ‘Not enough mitigation’ functionality. allowedValues: RS1, RS2, RS1forEnoughMitigation, RS1forNotEnoughMitigation |
type: Enum multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSMonitoringWindowDuration |
This attribute configures a duration of the monitoring window in which gNB monitors the RIM-RS, in unit of , where is the RIM-RS transmission periodicity in units of uplink-downlink switching period (see 38.211 [32], subclause 7.4.1.6). This field is configured together with rimRSMonitoringInterval, rimRSMonitoringWindowStartingOffset, rimRSMonitoringOccasionInterval and rimRSMonitoringOccasionStartingOffset. The duration of the monitoring window is expected to be larger than or equal to , where is the interval between adjacent monitoring occasions within the monitoring window (configured by rimRSMonitoringInterval). The absolute duration of the monitoring window is not expected to be larger than the periodicity of the monitoring window (configured by rimRSMonitoringWindowPeriodicity). Only the earliest consecutive detection durations in each RIM-RS transmission periodicity () in the monitoring window are taken as valid time for monitoring potential interference, and they are consecutively monitored in the monitoring window, while the residual part of each RIM-RS transmission periodicity is not used for discovering potential interference, where, a consecutive detection duration spans (if only is configured) or (if both and are configured), where, is the number of consecutive uplink-downlinkswitching periods for RS-1 (configured by nrofConsecutiveRIMRS1), is the first uplink-downlinkswitching period (configured by dlULSwitchingPeriod1), is the second uplink-downlink switching period (configured by dlULSwitchingPeriod2), and is the total number of set IDs for RIM RS-1 (configured by totalnrofSetIdofRS1), is the number of candidate frequency resources in the whole network (configured by nrofGlobalRIMRSFrequencyCandidates), and is the number of candidate sequences assigned for RIM RS-1 (configured by nrofRIMRSSequenceCandidatesofRS1). allowedValues: 1,2,..2^14 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSMonitoringWindowPeriodicity |
This attribute configures the periodicity of the monitoring window, in unit of hours. allowedValues: 1, 2, 3, 4, 6, 8, 12, 24 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSMonitoringWindowStartingOffset |
This attribute configures the start offset of the first monitoring window within one day, in unit of hours. allowedValues: 0,1,2..23 |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSMonitoringOccasionInterval |
This attribute configures the interval between adjacent monitoring occasions (M) within the monitoring window, in unit of consecutive detection duration. M is expected to be prime to , where is given in above attribute rimRSMonitoringWindowDuration. allowedValues: 1,2..-1. |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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rimRSMonitoringOccasionStartingOffset |
This attribute configures the start offset of the first monitoring occasions within the monitoring window (), in unit of consecutive detection duration. gNB starts monitoring potential interference from the -th consecutive detection duration in the first complete RIM-RS transmission periodicity () within the monitoring window. allowedValues: 0,1,2..M-1 where M is the the interval between adjacent monitoring occasions within the monitoring window (configured by rimRSMonitoringOccasionInterval) |
Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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victimSetRef |
This attribute contains the DN of a victim Set (RimRSSet) allowedValues: Not applicable. |
type: DN multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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aggressorSetRef |
This attribute contains the DN of an aggressor Set (RimRSSet) allowedValues: Not applicable. |
type: DN multiplicity: 1 isOrdered: N/A isUnique: True defaultValue: None isNullable: False |
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setType |
The attribute specifies type of a RIM-RS Set . RIM RS1 is generated and transmitted by victim to indicate its suffering remote interference, and RIM RS2 is generated and transmitted by aggressor to measure if Remote Interference still exist If the attribute value is “RS1”, the RIM-RS Set is victim set. If the attribute value is “RS2”, the RIM-RS Set is aggressor set. allowedValues: RS1, RS2. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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nRCellDURef |
This attribute contains the DN of a NR Cell (NRCellDU) allowedValues: Not applicable. |
type: DN multiplicity: * isOrdered: False isUnique: True defaultValue: None isNullable: False |
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isENDCAllowed |
This indicates if EN-DC is allowed or prohibited. If TRUE, the target cell is allowed to be used for EN-DC. The target cell is referenced by the NRCellRelation that contains this isENDCAllowed. If FALSE, EN-DC shall not be allowed. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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x2BlockList |
This is a list of GeNBIds. If the target node GeNBId is a member of the source node’s NRCellCU.x2BlockList, the source node is: 1) prohibited from sending X2 connection requests to the target node; 2) forced to tear down an established X2 connection to the target node; 3) not allowed to accept incoming X2 connection requests from the target node. The same GeNBId may appear here and in NRCellCU.x2AllowList. In such case, the GeNBId in x2AllowList shall be treated as if it is absent. allowedValues: See NOTE 5. |
type: String multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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xnBlockList |
This is a list of GgNBIds. If the target node GgNBId is a member of the source node’s NRCellCU.xnBlockList, the source node is: 1) prohibited from sending Xn connection requests to the target node; 2) forced to tear down an established Xn connection to the target node; 3) not allowed to accept incoming Xn connection requests from the target node. The same GgNBId may appear here and in NRCellCU.xnAllowList. In such case, the GgNBId in xnAllowList shall be treated as if it is absent. allowedValues: See NOTE 5. |
type: String multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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x2AllowList |
This is a list of GeNBIds. If the target node GeNBId is a member of the source node’s NRCellCU.x2AllowList, the source node is: 1) allowed to request the establishment of an X2 connection to the target node; The same GeNBId may appear here and in NRCellCU.x2BlockList. In such case, the GeNBId here shall be treated as if it is absent. allowedValues: See NOTE 5. |
type: String multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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xnAllowList |
This is a list of GgNBIds. If the target node GgNBId is a member of the source node’s NRCellCU.xnAllowList, the source node is: 1) allowed to request the establishment of Xn connection with the target node; The same GgNBId may appear here and in NRCellCU.xnBlockList. In such case, the GgNBId here shall be treated as if it is absent. allowedValues: See NOTE 5. |
type: String multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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xnHOBlockList |
This is a list of GgNBIds. For all the entries in NRCellCU.xnHOBlockList, the subject NRCellCU is prohibited to use the Xn interface for HOs even if an Xn interface exists to the target cell. allowedValues: See NOTE 5. |
type: String multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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x2HOBlockList |
This is a list of GeNBIds. For all the entries in NRCellCU.x2HOBlockList, the subject NRCellCU is prohibited to use the X2 interface for HOs even if an X2 interface exists to the target cell. allowedValues: See NOTE 5. |
type: String multiplicity: 0..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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tceIDMappingInfoList |
This attribute includes a list of TCE ID, PLMN where TCE resides and the corresponding TCE IP address. It is used in Logged MDT case to provide the information to the gNodeB or GNBCUCPFunction to get the corresponding TCE IP address when there is an MDT log received from the UE. allowedValues: Not applicable |
type: tceIDMappingInfo multiplicity: 1..* isOrdered: False isUnique: True defaultValue: None isNullable: False |
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tceIPAddress |
This attribute indicates IP address of TCE. (See subclause 4.1.1.9.2 in TS 32.422[68]) |
type: String multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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tceID |
This attribute indicates TCE Id. (See subclause 4.1.1.9.2 in TS 32.422[68]) |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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pLMNTarget |
This attribute indicates PLMN where TCE resides. (See subclauses 4.1.1.9.2 and 4.9.2 in TS 32.422 [68]) |
Type: PLMNId multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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isMLBAllowed |
This indicates if mobility load balancing is allowed or prohibited from source cell to target cell. If TRUE, load balancing is allowed from source cell to target cell. The source cell is identified by the name-containing NRCellCU of the NRCellRelation that contains the isMLBAllowed. The target cell is referenced by the NRCellRelation that contains this isLBAllowed. In case of isHOAllowed is FALSE, mobility load balancing is prohibited by handover from source cell to target cell. If FALSE, load balancing shall be prohibited from source cell to target cell. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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NROperatorCellDU.nRCellDURef |
This attribute contains the DN of the referenced NRCellDU. allowedValues: N/A |
type: DN multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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downlinkTransmitPowerRange |
It indicates adjustment range (including maximum value, minimum value) of downlinkTransmitPower to optimize radio coverage. allowedValues: minValue: [0..100] maxValue: [0..100] |
type: ParameterRange multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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antennaTiltRange |
It indicates adjustment range (including maximum value, minimum value) of antennaTilt to optimize radio coverage. allowedValues: minValue: [-900..900] in unit 0.1 degree maxValue: [-900..900] in unit 0.1 degree |
type: ParameterRange multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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antennaAzimuthRange |
It indicates adjustment range (including maximum value, minimum value) of antennaAzimuth to optimize radio coverage. allowedValues: minValue: [-1800..1800] in unit 0.1 degree maxValue: [-1800..1800] in unit 0.1 degree |
type: ParameterRange multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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digitalTiltRange |
It indicates adjustment range (including maximum value, minimum value) of digitalTilt to optimize radio coverage. allowedValues: minValue: [-900..900] in unit 0.1 degree maxValue: [-900..900] in unit 0.1 degree |
type: ParameterRange multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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digitalAzimuthRange |
It indicates adjustment range (including maximum value, minimum value) of digitalAzimuth to optimize radio coverage. allowedValues: minValue: [-1800..1800] in unit 0.1 degree maxValue: [-1800..1800] in unit 0.1 degree |
type: ParameterRange multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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coverageShapeList |
It indicates the coverage shape of specific sites which can be selected to optimize radio coverage. allowedValues: 0 .. 65535 |
type: Integer multiplicity: 0..* isOrdered: True isUnique: True defaultValue: None isNullable: False |
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cCOControl |
This attribute determines whether the centralized SON CCO Function is enabled or disabled. allowedValues: TRUE,FALSE |
type: Boolean multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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maxValue |
It indicates the maximum value of the parameter. allowedValues: N/A |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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minValue |
It indicates the minimum value of the parameter. allowedValues: N/A |
type: Integer multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: None isNullable: False |
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NROperatorCellDU.administrativeState |
It indicates the administrative state of the NROperatorCellDU. It describes the permission to use or prohibition against using the cell, imposed through the OAM services. The value of this attribute is effective only when the value of the attribute NRCellDU.administrativeState = UNLOCKED, if the value of the attribute NRCellDU.administrativeState is LOCKED or SHUTTING DOWN, the value of this attribute shall be treated same as the value of NRCellDU.administrativeState. allowedValues: LOCKED, SHUTTING DOWN, UNLOCKED. The meaning of these values is as defined in ITU‑T Recommendation X.731 [18]. |
type: ENUM multiplicity: 1 isOrdered: N/A isUnique: N/A defaultValue: LOCKED isNullable: False |
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bWPSetRef |
Contains the DN of a BWP set (BWPSet). allowedValues: Not applicable |
type: DN multiplicity: * isOrdered: False isUnique: True defaultValue: None isNullable: False |
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bWPList |
Defines the list of DN of BWPs associated to the BWPSet. allowedValues: Not applicable |
type: DN multiplicity: 0..12 isOrdered: False isUnique: True defaultValue: None isNullable: False |
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NOTE 1: Void NOTE 2: The radio resource can be signaling resources (e.g. RRC connected users) or user plane resources (e.g. PRB, PRB UL, PRB DL, DRB). Different RRM Policy maybe applied for different types of radio resource. E.g. RRMPolicyRatio is used for PRB resource. When the resource type is PRB the policy applies for both uplink and downlink, and ‘PRB UL’ and ‘PRB DL’ are not used. NOTE 3: Void NOTE 4: A RRM Policy can make use of the defined policy (e.g. RRMPolicyRatio) or a vendor specific RRM Policy. NOTE 5: For Global gNB Identifiers, the entries are formatted according to the pattern <mcc><mnc>-<gNBIdLength>-<gNBId>, where <mcc> is three digits, <mnc> two or three digits, <gNBIdLength> is a string containing a number n as digits, in the range 22 to 32, and <gNBId> is a string containing digits for the number 0 to 2n-1. For Global eNB Identifiers, the entries are formatted according to the pattern <mcc><mnc>-<eNBIdLength>-<eNBId>, where <mcc> is three digits, <mnc> two or three digits, <gNBIdLength> is a string containing a number m as digits, m being one of 18, 20, 21 or 22, and <eNBId> is a string containing digits for the number 0 to 2m-1. NOTE 6: The maximum number of total RIM RS sequence within 10ms is 32 regardless single or two uplink-downlink period are configured in the 10ms.. NOTE 7: 1. The maximum number of consecutive uplink-downlink switching periods for repetition/near-far-functionality is 8 (the number can be either 2, 4, or 8) with near-far functionality and with repetition. 2. The maximum number of consecutive uplink-downlink switching periods for repetition is 4 (the number can be either 1, 2, or 4) without near-far functionality and with repetition only. 3. The maximum number of consecutive uplink-downlink switching periods is 2 with near-far functionality only and without repetition. NOTE 8 (for information): “Not enough mitigation” means aggressor gNB needs to increase the interference mitigation level (i.e., further interference mitigation actions) (e.g., further reducing the DL transmission power on DL symbols at aggressor side), while “Enough mitigation” means aggressor gNB keeping the current interference mitigation level unchanged (i.e., no further interference mitigation actions) (e.g., remaining the DL transmission power on DL symbols unchanged at aggressor side). NOTE 9: Value MS0P5 corresponds to 0.5 ms, MS0P625 corresponds to 0.625 ms, MS1 corresponds to 1 ms, MS1P25 corresponds to 1.25 ms, and so on. NOTE 10: RIM RS-1, RIM-RS1,RIM RS1 is equivalent to RIM-RS type 1 (see 38.211 [32], clause 7.4.1.6) |
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