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yang-models/_3gpp-common-antennafunction.yang 0 → 100644
View file @ 9b7ec5cd
module _3gpp-common-antennafunction {
yang-version 1.1;
namespace "urn:3gpp:sa5:_3gpp-common-antennafunction";
prefix "antfunc3gpp";
import _3gpp-common-yang-types { prefix types3gpp; }
import _3gpp-common-managed-function { prefix mf3gpp; }
import _3gpp-common-managed-element { prefix me3gpp; }
import _3gpp-common-top { prefix top3gpp; }
organization "3GPP SA5";
contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464";
description "Defines the YANG mapping of the Antenna Function Information
Object Class (IOC) that is part of the Generic Network Resource Model (NRM).
Copyright 2025, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI,
TTA, TTC). All rights reserved.";
reference "3GPP TS 28.662 Generic Network Resource Model (NRM)";
revision 2025-05-05 { description "Initial revision";
}
grouping AntennaFunctionGrp {
description "Represents the AntennaFunction.";
uses mf3gpp:ManagedFunctionGrp;
leaf beamTilt {
description "The beam tilt of the wanted antenna beam
in the vertical plane. A positive value on the
beamtilt indicates an antenna beam direction below the
vertical plane.";
units degree;
type types3gpp:TenthOfDegrees;
}
leaf bearing {
description "The bearing in degrees that the antenna is pointing in.
AllowedValues: See \"Antenna bearing\" in 3GPP TS 25.463.";
reference "3GPP TS 25.463, UTRAN Iuant interface:
Remote Electrical Tilting (RET)
antennas Application Part (RETAP) signalling";
type types3gpp:TenthOfDegrees;
}
leaf elevation {
description "The elevation the antenna function should have,
based on World Geodetic System (1984 version) global
reference frame (WGS 84). Positive values correspond to
meters above sea level, negative values correspond to meters
below sea level. If empty, value is not defined.";
type types3gpp:Altitude;
}
leaf horizBeamWidth {
description "The 3 dB power beamwidth of the antenna pattern
in the horizontal plane.
A value of 360 indicates an omnidirectional antenna.
Note: The value of this attribute has no operational impact
on the network, e.g. the NE behaviour is not affected by the
value setting of this attribute.
Note as well that this attribute is not supported over the
Iuant interface according to 3GPP TS37.466.
A single integral value corresponding to an angle in degrees
between 0 and 360.";
reference "3GPP TS 37.466, Iuant interface: Application part";
type types3gpp:TenthOfDegrees;
}
leaf latitude {
description "Latitude of transmitter antenna position.
Positive value means north, negative value means south.
Specification: WGS 84
Allowed Values: { -90.000000..90.000000 }";
units degree;
type types3gpp:Latitude;
}
leaf longititude {
description "Longitude of transmitter antenna position.
Positive value means east, negative value means west.
Specification: WGS 84
Allowed Values: { -180.000000..180.000000 }";
units degree;
type types3gpp:Longitude;
}
leaf maxAzimuthValue {
description "The maximum amount of change of azimuth the RET
system can support. This is the change in degrees clockwise
from bearing.
Note: The value of this attribute has no operational impact
on the network, e.g. the NE behaviour is not affected by the
value setting of this attribute.
Note as well that this attribute is not supported over the
Iuant interface according to Ref. 3GPP TS 37.466.
A single decimal value corresponding to an angle in degrees
between 0 and 360 with a resolution of 0.1 degrees.";
reference "3GPP TS 37.466, Iuant interface: Application part";
units degree;
type decimal64 {
range "0..360";
fraction-digits 1;
}
}
leaf minAzimuthValue {
description "The minimum amount of change of azimuth the RET
system can support. This is the change in degrees clockwise
from bearing.
Note: The value of this attribute has no operational impact
on the network, e.g. the NE behaviour is not affected by the
value setting of this attribute.
Note as well that this attribute is not supported over the
Iuant interface according to Ref. 3GPP TS 37.466.
A single decimal value corresponding to an angle in degrees
between 0 and 360 with a resolution of 0.1 degrees.";
reference "3GPP TS 37.466, Iuant interface: Application part";
units degree;
type decimal64 {
range "0..360";
fraction-digits 1;
}
}
leaf-list referencedBy {
description "This attribute contains the DNs of one or more objects
that refer to this object.
In the case of AntennaFunction, these referring objects may
include DNs of SectorEquipmentFunction instances if associations
between them and the AntennaFunction exist.
Note: referencedBy is a DN datatype and so can reference an MOI
under a different ME";
config false;
type types3gpp:DistinguishedName;
}
leaf retGroupName {
description "The group name is a textual, alpha-numeric string to
define a logical grouping of antennas which may be in different cells.
This attribute permits the definition of a logical grouping
of the antennas. This may be defined either at
installation time, or by management activity";
type string;
}
leaf retTiltValue {
description "The electrical tilt setting of the antenna, \"Tilt value\" in
3GPP TS 37.466.";
reference "3GPP TS 37.466, Iuant interface: Application part";
type types3gpp:TenthOfDegrees;
}
leaf vertBeamWidth {
description "The 3 dB power beamwidth of the antenna pattern in
the vertical plane.
The value of this attribute has no operational impact on
the network, e.g. the NE behaviour is not affected by the
value setting of this attribute.
This attribute is not supported over the Iuant interface
according to Ref. 3GPP TS 37.466.";
reference "3GPP TS 37.466, Iuant interface: Application part";
units degree;
type uint32 {
range "0..180";
}
}
leaf-list theCellList {
description "This attribute contains the DNs of EUtranGenericCell
or UtranGenericCell if associations between them exist.
This attribute contains the DNs of GSMCellPart if association
between them exist. ";
config false;
status deprecated;
type types3gpp:DistinguishedName;
}
}
augment "/me3gpp:ManagedElement" {
list AntennaFunction {
key id;
uses top3gpp:Top_Grp;
description "This MOI represents an array of radiating elements that
may be tilted to adjust the RF coverage of a cell(s).";
container attributes {
uses AntennaFunctionGrp;
}
uses mf3gpp:ManagedFunctionContainedClasses;
}
}
}
yang-models/_3gpp-common-mecontext.yang
View file @ 9b7ec5cd
......@@ -4,6 +4,7 @@ module _3gpp-common-mecontext {
prefix "mectx3gpp";
import _3gpp-common-yang-types { prefix types3gpp; }
import _3gpp-common-yang-extensions { prefix yext3gpp ; }
import _3gpp-common-top { prefix top3gpp; }
import _3gpp-common-subnetwork { prefix subnet3gpp; }
import ietf-yang-schema-mount { prefix yangmnt; }
......@@ -24,6 +25,7 @@ module _3gpp-common-mecontext {
Integration Reference Point (IRP);
Information Service (IS)";
revision 2025-03-23 { reference "CR-0523"; }
revision 2024-07-17 { reference "CR-0381 CR-0382 CR-0383"; }
grouping MeContextGrp {
......@@ -31,6 +33,7 @@ module _3gpp-common-mecontext {
leaf dnPrefix {
type types3gpp:DistinguishedName;
yext3gpp:inVariant;
description "It carries the DN Prefix information or no information.
The instance of MeContext is the local root instance of the MIB.
Otherwise the attribute shall be absent or carry no information.";
......
yang-models/_3gpp-common-sectorequipmentfunction.yang 0 → 100644
View file @ 9b7ec5cd
module _3gpp-common-sectorequipmentfunction {
yang-version 1.1;
namespace "urn:3gpp:sa5:_3gpp-common-sectorequipmentfunction";
prefix "scteqpfun3gpp";
import _3gpp-common-yang-types { prefix types3gpp; }
import _3gpp-common-managed-function { prefix mf3gpp; }
import _3gpp-common-managed-element { prefix me3gpp; }
import _3gpp-common-top { prefix top3gpp; }
organization "3GPP SA5";
contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464";
description "Defines the YANG mapping of the Sector Equipment Function
Information Object Class (IOC) that is part of the Generic Network Resource
Model (NRM).
Copyright 2025, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI,
TTA, TTC). All rights reserved.";
reference "3GPP TS 28.662 Generic Network Resource Model (NRM)";
revision 2025-05-05 { description "Initial revision"; }
grouping SectorEquipmentFunctionGrp {
description "Represents the SectorEquipmentFunction.";
uses mf3gpp:ManagedFunctionGrp;
leaf confOutputPower {
description "It defines the allowed total power to use for all
cells together in this sector.
It may be set by the operator and/or limited by HW limitation
or licensed power, e.g.: 20, 40, 60, 80,120 watts";
type uint32;
}
leaf-list fqBandList {
description "The list of frequency bands/ranges supported by the
hardware associated with the SectorEquipmentFunction. The
earfcnDl and earfcnUl or earfcn of cells associated with the
SectorEquipmentFunction must be assigned one of the specified
frequency range values within the supported range.
Valid frequency bands/ranges may be found in 3GPP TS 25.104 (UTRA),
36.104 (E-UTRA) and 38.104 (NR).
AllowedValues:
Operating band id or supported frequency tuple
<UL,DL,mode> expressed as a string.
Examples for NR:
Bands: {'n1', 'n12'}
Frequencies: {'1920–1980, 2110–2170, FDD', '699–716, 729–746, FDD'}";
config false;
type string;
}
leaf-list theAntennaList {
description "This attribute contains the distinguished names of the
AntennaFunction.";
type types3gpp:DistinguishedName;
}
leaf-list theCellList {
description "This attribute contains the DNs of EUtranGenericCell
or UtranGenericCell if associations between them exist.
This attribute contains the DNs of GSMCellPart if association
between them exist. ";
config false;
type types3gpp:DistinguishedName;
}
leaf-list theTMAList {
description "This attribute contains the DNs of one or more TMAFunctions.";
config false;
type types3gpp:DistinguishedName;
}
leaf-list referencedBy {
description "This attribute contains the DNs of one or more objects
that refer to this object.
In the case of SectorEquipmentFunction , these referring objects
may include Cells, NRSectorCarriers if associations between them
and the SectorEquipmentFunction exist.
Note: referencedBy is a DN datatype and so can reference an MOI
under a different ME";
config false;
type types3gpp:DistinguishedName;
}
}
augment "/me3gpp:ManagedElement" {
list SectorEquipmentFunction {
key id;
uses top3gpp:Top_Grp;
description "This IOC represents a set of cells within a geographical
area that has common functions relating to AntennaFunction, TMAFunction
and supporting equipment, such as power amplifier.";
must 'id != ""' {
error-message "Empty id value is not allowed.";
}
container attributes {
uses SectorEquipmentFunctionGrp;
}
uses mf3gpp:ManagedFunctionContainedClasses;
}
}
}
yang-models/_3gpp-common-trace.yang
View file @ 9b7ec5cd
......@@ -26,6 +26,7 @@ module _3gpp-common-trace {
Integration Reference Point (IRP);
Information Service (IS)";
revision 2025-05-05 { reference "CR-0534" ; }
revision 2025-02-05 { reference "CR-0502" ; }
revision 2024-11-05 { reference "CR-0469" ; }
revision 2024-08-09 { reference "CR-0419" ; }
......@@ -1228,7 +1229,9 @@ module _3gpp-common-trace {
}
list pLMNList {
when '../jobType = "LOGGED_MDT_ONLY"';
when '../jobType = "LOGGED_MDT_ONLY"'
+ 'or ../jobType = "IMMEDIATE_MDT_ONLY"'
+ 'or ../jobType = "IMMEDIATE_MDT_AND_TRACE"';
key "mcc mnc";
uses types3gpp:PLMNId;
min-elements 1;
......
yang-models/_3gpp-nr-nrm-drachoptimizationfunction.yang
View file @ 9b7ec5cd
......@@ -14,10 +14,11 @@ module _3gpp-nr-nrm-drachoptimizationfunction {
description "Defines the YANG mapping of the DRACHOptimizationFunction
Information Object Class (IOC) that is part of the NR Network Resource
Model (NRM).
Copyright 2023, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI,
Copyright 2025, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI,
TTA, TTC). All rights reserved.";
reference "3GPP TS 28.541 5G Network Resource Model (NRM)";
revision 2025-03-23 { reference CR-1502 ; }
revision 2023-09-17 { reference CR-1042 ; }
revision 2021-08-05 { reference S5-214053/CR-0518; }
revision 2021-01-25 { reference CR-0454 ; }
......@@ -52,7 +53,13 @@ module _3gpp-nr-nrm-drachoptimizationfunction {
type TargetProbabilityT;
}
leaf numberofpreamblessent {
description "This attribute determines the number of preambles sent.";
description "This attribute indicates the number of preambles sent
used to configure a wanted distribution of RACH preambles in a
vendor implemented DRACH optimisation function.
Note: The DRACH optimization function may configure preambleTransMax
as defined in TS 38.331 [54]. The allowed values for preambleTransMax
are 3, 4, 5, 6, 7, 8, 10, 20, 50, 100, 200 (see 38.331 [54],
subclause 6.3.2).";
mandatory true;
type NumberofpreamblessentT;
}
......