SummaryVersion UpgradeRemoved CountersModified CountersNew
CountersL13A to L13B2321382L13B to L14A22881
L13A->L13BA; Counters
31/00651-HSC 105 50/1 -V1 UenType of ChangeGenerated inManaged
AreaMO ClassENIQ MOCounterCounter TypeCounter
SizeDescriptionUnitConditionSampling RateScannerCounter is reset
after measurement periodRelated PM
EventModifiedRBSIpTransportIpAccessHostEtpmIpReasmFailsPEGSingleThe
number of failures detected by the IP re-assembly algorithm (for
whatever reason: timed out, errors, etc.).
Only applicable for IPv4.The IP reassembly algorithm detected a
failure, while
reassembling.YesModifiedRBSIpTransportIpv6InterfacepmIpIfStatsReasmFailsPEGSingleThe
number of failures detected.
The number of failures detected by the IP re-assembly algorithm
(for whatever reason: timed out, errors, etc.).An IP datagram is
received.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsHCInOctetsPEGSingleThis
attribute is not used.An IP octet is
received.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsHCInReceivesPEGSingleThis
attribute is not used.An IP datagram is
received.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsInAddrErrorsPEGSingleThis
attribute is not used.A recived IP datagram is discarded due to
invalid header
address.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsInHdrErrorsPEGSingleThis
attribute is not used.A received IP datagram is discarded due to an
error in the
header.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsInDiscardsPEGSingleThis
attribute is not used.A received IP datagram discarded due to
resource
problems.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsHCOutOctetsPEGSingleThis
attribute is not used.An IP octet is
transmitted.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsHCOutTransmitsPEGSingleThis
attribute is not used.An IP datagram is
transmitted.YesNewRBSIpTransportIpTerminationHostpmIpIfStatsOutDiscardsPEGSingleThis
attribute is not used.An IP datagram, which should be sent, is
discarded due to resource
problems.YesNewRBSIpTransportIcmpServerpmIcmpStatsInMsgsPEGSingleThis
attribute is not used.An ICMP message is
received.YesNewRBSIpTransportIcmpServerpmIcmpStatsOutMsgsPEGSingleThis
attribute is not used.An ICMP message is attempted to be
sent.YesNewRBSRadio_NetworkUtranFreqRelationpmLbMeasuredUeACCSingleNumber
of UE selected for measurement qualifying for load balancing action
to cells on the related UTRAN frequencyValues are accumulated in
each ROP and used to calculate the LB measurement success rate for
the related cells.In each load balancing cycle, the number of UE
selected to perform LB qualification measurements on the related
UTRAN frequency is accumulated. Increment by zero if no UE is
selected.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmRlcArqDlAckACCSingleThe
total number of successful RLC PDU transmissions (ACKs) in the
downlink direction.
When carrier aggregation is used, the total number of successful
RLC PDU transmissions (ACKs) in the downlink direction is
registered on the UE's primary component carrier (PCell).Continuous
measurement for Radio Bearers aggregated to cell level.Not included
in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmRlcArqDlNackACCSingleThe
total number of unsuccessful RLC PDU and RLC PDU segment
transmissions (NACKs) in the downlink direction.
When carrier aggregation is used, the total number of
unsuccessful RLC PDU and RLC PDU segment transmissions (NACKs) in
the downlink direction is registered on the UE's primary component
carrier (PCell).Continuous measurement for Radio Bearers aggregated
to cell level.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmUeThpTimeDlACCSingleThe
effective DL transport time comprises those periods from when the
first part of the PDCP SDU of the DL buffer was transmitted on Uu
until the buffer is emptied, excluding the TTI emptying the
buffer.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The effective DL transport time,
comprising those periods from when the first part of the PDCP SDU
of the DL buffer was transmitted on Uu until the buffer is emptied,
excluding the TTI emptying the buffer, is registered on
PCell.msContinuous measurement for UEs aggregated to cell
level.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlCmpHdrQciACCPDF[256]The
total volume of compressed PDCP SDU headers that has been
transmitted from the Robust Header Compression entity in the
downlink direction per QCI.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume of compressed
PDCP SDU headers that has been transmitted from the Robust Header
Compression entity in the downlink direction per QCI is measured on
PCell.
Compressed: Truekilobit (1000 bits)Continuous measurement for
DRBs aggregated to cell level.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transferred (UM and AM) in the downlink direction.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transferred (UM and AM) in the
downlink direction is measured on PCell.kilobit (1 000
bits)Continuous measurement for DRBs aggregated to cell
level.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbLastTTIACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transferred (acknowledged by the UE) in the downlink direction in
the last TTI when a buffer is emptied.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transferred (acknowledged by the
UE) in the downlink direction in the last TTI when a buffer is
emptied is measured on PCell.kilobit (1 000 bits)Continuous
measurement for UEs aggregated to cell
level.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbLastTTIQciACCPDF[256]The
total DL PDCP SDU volume per QCI that is transmitted in the last
TTI when the buffer for a DRB that maps to the given QCI is
emptied.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total DL PDCP SDU volume per
QCI that is transmitted in the last TTI when the buffer for a DRB
that maps to the given QCI is emptied is measured on PCell.
Compressed: Truekilobit (1000 bits)The bin accumulates the DL
PDCP SDU volume per QCI that is transmitted in the last TTI when
the buffer for a DRB that maps to the given QCI is
emptied.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbQciACCPDF[256]The
total volume (PDCP SDU) that has been transferred (UM and AM) on
Data Radio Bearers in the downlink direction per QCI.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) that
has been transferred (UM and AM) on Data Radio Bearers in the
downlink direction per QCI is measured on PCell.
Compressed: Truekilobit (1 000 bits)The counter accumulates DL
PDCP volume (UM and AM) per QCI.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransPlmn0ACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer for the UEs
served by PLMN0.
PLMN0 refers to the PLMN configured in the attribute
eNodeBPlmnId located on ENodeBFunction.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer for the UEs served by PLMN0 is measured
on PCell.kilobit (1 000 bits)Traffic volume counter accumulates
transferred volume from PDCP to RLC layer for Plmn0.Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransPlmn1ACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer for the UEs
served by PLMN1.
PLMN1 refers to the PLMN configured in the attribute
additionalPlmnList[0] located on EUtranCellFDD or
EUtranCellTDD.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer for the UEs served by PLMN1 is measured
on PCell.kilobit (1 000 bits)Traffic volume counter accumulates
transferred volume from PDCP to RLC layer for Plmn1.Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransPlmn2ACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer for the UEs
served by PLMN2.
PLMN2 refers to the PLMN configured in the attribute
additionalPlmnList[1] located on EUtranCellFDD or
EUtranCellTDD.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer for the UEs served by PLMN2 is measured
on PCell.kilobit (1 000 bits)Traffic volume counter accumulates
transferred volume from PDCP to RLC layer for Plmn2.Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransPlmn3ACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer for the UEs
served by PLMN3.
PLMN3 refers to the PLMN configured in the attribute
additionalPlmnList[2] located on EUtranCellFDD or
EUtranCellTDD.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer for the UEs served by PLMN3 is measured
on PCell.kilobit (1 000 bits)Traffic volume counter accumulates
transferred volume from PDCP to RLC layer for Plmn3.Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransPlmn4ACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer for the UEs
served by PLMN4.
PLMN4 refers to the PLMN configured in the attribute
additionalPlmnList[3] located on EUtranCellFDD or
EUtranCellTDD.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer for the UEs served by PLMN4 is measured
on PCell.kilobit (1 000 bits)Traffic volume counter accumulates
transferred volume from PDCP to RLC layer for Plmn4.Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransPlmn5ACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer for the UEs
served by PLMN5.
PLMN5 refers to the PLMN configured in the attribute
additionalPlmnList[4] located on EUtranCellFDD or
EUtranCellTDD.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer for the UEs served by PLMN5 is measured
on PCell.kilobit (1 000 bits)Traffic volume counter accumulates
transferred volume from PDCP to RLC layer for Plmn5.Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransPlmn6ACCSingleThe
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer for the UEs
served by PLMN6.
PLMN6 refers to an unexpected PLMN, that is, a PLMN that cannot
be associated with any PLMN configured in the ENodeBFunction or
cell.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer for the UEs served by PLMN6 is measured
on PCell.kilobit (1 000 bits)Traffic volume counter accumulates
transferred volume from PDCP to RLC layer for Plmn6.Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlDrbTransQciACCPDF[256]The
total volume (PDCP SDU) on Data Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer per
QCI.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Data Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer per QCI is measured on PCell.
Compressed: Truekilobit (1000 bits)Continuous measurement after
Robust Header Compression for DRBs aggregated to cell level.Not
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlHdrQciACCPDF[256]The
total volume of uncompressed PDCP SDU headers that has been
received in the Robust Header Compression entity in the downlink
direction per QCI.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume of uncompressed
PDCP SDU headers that has been received in the Robust Header
Compression entity in the downlink direction per QCI is measured on
PCell.
Compressed: Truekilobit (1000 bits)Continuous measurement for
DRBs aggregated to cell level.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlSrbACCSingleThe
total number of bits (PDCP SDU) on Signalling Radio Bearers that
has been transferred (acknowledged by the UE) in the downlink
direction.
SRB0 volume is not included in this counter.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total number of bits (PDCP
SDU) on Signalling Radio Bearers that has been transferred
(acknowledged by the UE) in the downlink direction is measured on
PCell.kilobit (1 000 bits)Continuous measurement for SRBs
aggregated to cell
level.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpVolDlSrbTransACCSingleThe
total volume (PDCP SDU) on Signalling Radio Bearers that has been
transmitted in the downlink direction in the PDCP layer.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) on
Signalling Radio Bearers that has been transmitted in the downlink
direction in the PDCP layer is measured on PCell.kilobit (1 000
bits)Continuous measurement for SRBs aggregated to cell level.Not
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktTransDlACCSingleTotal
number of DRB packets (PDCP SDUs) successfully transmitted (RLC
acknowledged by UE) in the downlink.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DRB packets (PDCP
SDUs) successfully transmitted (RLC acknowledged by UE) in the
downlink is measured on PCell.Continuous measurement for UEs
aggregated to cell
level.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktTransDlQciACCPDF[256]Total
number of DL packets (PDCP SDUs) transmitted successfully per
QCI.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DL packets (PDCP
SDUs) transmitted successfully per QCI is measured on PCell.
Compressed: TrueThe bin accumulates the number of DL PDCP SDUs
that are transmitted successfully per QCI.Not included in any
predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktReceivedDlACCSingleTotal
number of DRB packets (PDCP SDUs) received by RBS in PDCP in the
downlink.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DRB packets (PDCP
SDUs) received by RBS in PDCP in the downlink is measured on
PCell.Continuous measurement for UEs aggregated to cell level.Not
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktReceivedDlQciACCPDF[256]Total
number of DL packets (PDCP SDUs) received in PDCP in the RBS per
QCI.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DL packets (PDCP
SDUs) received in PDCP in the RBS per QCI is measured on PCell.
Compressed: TrueThe bin accumulates the number of DL PDCP SDUs
received per QCI.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlAqmPEGSingleTotal
number of packets (PDCP SDUs) discarded due to Active Queue
Management (AQM).
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of packets (PDCP
SDUs) discarded due to AQM is measured on PCell.When a packet is
discarded due to AQMNot included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlAqmQciACCPDF[256]Total
number of packets (PDCP SDUs) per QCI discarded due to Active Queue
Management (AQM).
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of packets (PDCP
SDUs) per QCI discarded due to AQM is measured on PCell.
Compressed: TrueWhen a packet is discarded due to AQMNot
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlHoACCSingleNumber
of DRB packets (PDCP SDUs) discarded in downlink due to handover
and reestablishment procedures.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total number of packets (PDCP
SDUs) discarded in the downlink due to handover and reestablishment
procedures is measured on PCell.The counter can be incremented from
both source and target point of view in the handover functionality.
Discards in the target eNB could be due to out of order sequence.
Discards in the source eNB includes discards of PDCP SDU packets
not positively acknowledged for which it was decided that no more
transmission attempts on either Uu, X2 or S1 interface will be
done. In the reestablishment functionality, packets in the PDCP
buffer are discarded due to the reestablishment procedure. Only
applicable to DRB packets.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlHoQciACCPDF[256]Total
number of DL packets (PDCP SDUs) discarded due to HO per QCI.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DL packets (PDCP
SDUs) discarded due to HO per QCI is measured on PCell.
Compressed: TrueThe counter can be incremented from both source
and target point of view in the handover functionality. Discards in
the target eNB could be due to out of order sequence. Discards in
the source eNB includes discards of packets not positively
acknowledged PDCP SDU for which it was decided that no more
transmission attempts on either Uu, X2 or S1 interface will be
done. Only applicable to DRB packets.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlPelrACCSingleTotal
number of DRB packets (PDCP SDUs) for which no part has been
transmitted over the air in the downlink that are discarded due to
reasons other than handover or active queue management.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DRB packets (PDCP
SDUs) discarded due to reasons other than handover or active queue
management is measured on PCell.Continuous measurement for UEs
aggregated to cell
level.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlPelrQciACCPDF[256]Total
number of DL packets (PDCP SDUs) per QCI that are discarded in the
PDCP layer due to reasons other than handover or active queue
management. No part of these packets has been transmitted over the
air.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DL packets (PDCP
SDUs) per QCI discarded due to reasons other than handover or
active queue management is measured on PCell.
Compressed: TrueThe bin accumulates the number of DL PDCP SDUs
discarded not due to HO or active queue management per QCI.Not
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlPelrUuACCSingleTotal
number of packets (PDCP SDUs) for which at least a part has been
transmitted over the air in the downlink direction but not
positively acknowledged, and it was decided that no more
transmission attempts will be done, due to reasons other than
handover. Only applicable to DRB packets.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of packets (PDCP
SDUs) for which at least a part has been transmitted over the air
in the downlink direction but not positively acknowledged, and it
was decided that no more transmission attempts will be done, due to
reasons other than handover, is measured on PCell.Continuous
measurement forUEs aggregated to cell
level.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpPktDiscDlPelrUuQciACCPDF[256]Total
number of DL packets (PDCP SDUs) per QCI for which at least a part
has been transmitted over the air but not positively acknowledged
due to reasons other than handover, and it was decided that no more
transmission attempts will be done.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). Total number of DL packets (PDCP
SDUs) per QCI for which at least a part has been transmitted over
the air but not positively acknowledged due to reasons other than
handover, and it was decided that no more transmission attempts
will be done, is measured on PCell.
Compressed: TrueThe bin accumulates the number of DL PDCP SDUs
that are not successfully transmitted due to reasons other than HO
per QCI.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatTimeDlACCSingleAggregated
DL Latency for a measurement period. The effective DL Latency time
comprises the time from PDCP DRB SDU entering the buffer until the
first data has been transmitted to the UE.
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).msMeasurement for UEs aggregated to cell level.
Only PDCP SDUs that enters an empty buffer are measured. Samples
during handover are excluded since they can distort the
interpretation of the result (due to packet forwarding, the target
cell might have to buffer data before it is possible to schedule
the UE in the target cell, hence it would be an increased Latency
measurement if it would be included. It would however not lead to a
degraded performance for the end-user, due to packet
forwarding).PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatTimeDlDrxNoSyncACCSingleAggregated
DL Latency when DRX is active and the UE has UL synchronization
status "NOT synchronized".
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).The effective DL Latency time comprises the time
from PDCP DRB SDU entering the buffer until the first data has been
transmitted to the UE. Measurement for UEs aggregated to cell
level. Only PDCP SDUs that enters an empty buffer are measured.
Samples during handover are excluded since they can distort the
interpretation of the result (due to packet forwarding, the target
cell might have to buffer data before it is possible to schedule
the UE in the target cell, hence it would be an increased Latency
measurement if it would be included. It would however not lead to a
degraded performance for the end-user, due to packet
forwarding).Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatTimeDlDrxSyncACCSingleAggregated
DL Latency when DRX is active and the UE has UL synchronization
status "synchronized".
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).The effective DL Latency time comprises the time
from PDCP DRB SDU entering the buffer until the first data has been
transmitted to the UE. Measurement for UEs aggregated to cell
level. Only PDCP SDUs that enters an empty buffer are measured.
Samples during handover are excluded since they can distort the
interpretation of the result (due to packet forwarding, the target
cell might have to buffer data before it is possible to schedule
the UE in the target cell, hence it would be an increased Latency
measurement if it would be included. It would however not lead to a
degraded performance for the end-user, due to packet
forwarding).Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatTimeDlNoDrxSyncACCSingleAggregated
DL Latency when DRX is NOT active and the UE has UL synchronization
status "synchronized".
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).The effective DL Latency time comprises the time
from PDCP DRB SDU entering the buffer until the first data has been
transmitted to the UE. Measurement for UEs aggregated to cell
level. Only PDCP SDUs that enters an empty buffer are measured.
Samples during handover are excluded since they can distort the
interpretation of the result (due to packet forwarding, the target
cell might have to buffer data before it is possible to schedule
the UE in the target cell, hence it would be an increased Latency
measurement if it would be included. It would however not lead to a
degraded performance for the end-user, due to packet
forwarding).Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatTimeDlQciACCPDF[256]Aggregated
DL Latency for a measurement period per QCI.When carrier
aggregation is used, the DL Latency for all component carriers is
registered on the UE's primary component carrier (PCell).
Compressed: TruemsThe counter represents DL latency per QCI. The
effective DL Latency time comprises the time from PDCP SDU entering
the buffer until the first data has been transmitted to the UE.
Only latency for PDCP SDUs that enters an empty buffer is measured.
Samples during handover are excluded.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatPktTransDlPEGSingleNumber
of DRB packets for downlink Latency measurements.
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).Measurement for UEs aggregated to cell level. Only
PDCP SDUs that enters an empty buffer are measured. Samples during
handover are excluded since they can distort the interpretation of
the result (due to packet forwarding, the target cell might have to
buffer data before it is possible to schedule the UE in the target
cell, hence it would be an increased Latency measurement if it
would be included. It would however not lead to a degraded
performance for the end-user, due to packet
forwarding).PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatPktTransDlDrxNoSyncPEGSingleNumber
of DRB packets for downlink Latency measurements when DRX is active
and the UE has UL synchronization status "NOT synchronized".
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).Measurement for UEs aggregated to cell level. Only
PDCP SDUs that enters an empty buffer are measured. Samples during
handover are excluded since they can distort the interpretation of
the result (due to packet forwarding, the target cell might have to
buffer data before it is possible to schedule the UE in the target
cell, hence it would be an increased Latency measurement if it
would be included. It would however not lead to a degraded
performance for the end-user, due to packet forwarding). The
samples are includedNot included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatPktTransDlDrxSyncPEGSingleNumber
of DRB packets for downlink Latency measurements when DRX is active
and the UE has UL synchronization status "synchronized".
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).Measurement for UEs aggregated to cell level. Only
PDCP SDUs that enters an empty buffer are measured. Samples during
handover are excluded since they can distort the interpretation of
the result (due to packet forwarding, the target cell might have to
buffer data before it is possible to schedule the UE in the target
cell, hence it would be an increased Latency measurement if it
would be included. It would however not lead to a degraded
performance for the end-user, due to packet forwarding). The
samples are includedNot included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatPktTransDlNoDrxSyncPEGSingleNumber
of DRB packets for downlink Latency measurements when DRX is NOT
active and the UE has UL synchronization status "synchronized".
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).Measurement for UEs aggregated to cell level. Only
PDCP SDUs that enters an empty buffer are measured. Samples during
handover are excluded since they can distort the interpretation of
the result (due to packet forwarding, the target cell might have to
buffer data before it is possible to schedule the UE in the target
cell, hence it would be an increased Latency measurement if it
would be included. It would however not lead to a degraded
performance for the end-user, due to packet forwarding). The
samples are includedNot included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpLatPktTransDlQciACCPDF[256]Number
of samples for DL Latency measurements during measurement period
per QCI.
When carrier aggregation is used, the DL Latency for all
component carriers is registered on the UE's primary component
carrier (PCell).
Compressed: TrueThe counter registers the number of samples for
DL Latency measurements during measurement period per QCI.Not
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpBitrateDlDrbMinGAUGESingleMinimum
cell DL bit rate. One cell bit rate sample is obtained by dividing
the total volume (PDCP SDU) on Data Radio Bearers aggregated to
cell level, that has been transmitted in the downlink direction in
the PDCP layer, with the time (in seconds) of the sample gathering
period.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) is
measured on PCell.kbpsThe counter is set equal to the low mark
sample at the end of each Recording Output Period (ROP).Not
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPdcpBitrateDlDrbMaxGAUGESinglePeak
cell DL bit rate. One cell bit rate sample is obtained by dividing
the total volume (PDCP SDU) on Data Radio Bearers aggregated to
cell level, that has been transmitted in the downlink direction in
the PDCP layer, with the time (in seconds) of the sample gathering
period.
When carrier aggregation is used, a PDCP SDU can be sent over
multiple cells (PCell/SCell(s)). The total volume (PDCP SDU) is
measured on PCell.kbpsThe counter is set equal to the peak sample
at the end of each Recording Output Period (ROP).Not included in
any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmDrbThpTimeDlQciACCPDF[256]The
DL transmission time used for DL DRB Throughput per QCI. It
comprises of time periods from when the first piece of data in a
data burst is transmitted until the second last piece of data in
the data burst is transmitted.
When carrier aggregation is used, the DL transmission time used
for DL DRB Throughput per QCI is registered on the UE's primary
component carrier (PCell).
Compressed: TruemsThe bin accumulates the DL transmission time
per QCI for each large data burst that needs to be transmitted
across multiple
TTIs.PrimaryYesModifiedRBSRadio_NetworkEUtranCellFDDpmTtiBundlingUeSampSCANSingleCounts
the number of times the corresponding pmTtiBundlingUeSum has
accumulated a new sample.The counter is incremented by one each
time a sample value is accumulated in pmTtiBundlingUeSum.5Not
included in any predefined
scannerYesNewRBSRadio_NetworkEUtranCellFDDpmCaCapableDlSumACCPDF[5]Number
of supported secondary component carriers (SCell), for UE using
this cell as their primary component carrier (PCell)
[0] Number of UE that are not carrier aggregation capable at all
(i.e. PCell only)[1] Number of UE that are capable of PCell plus
one SCell[2] Number of UE that are capable of PCell plus two
SCells[3] Number of UE that are capable of PCell plus three
SCells[4] Number of UE that are capable of PCell plus four
SCellsCompressed: TrueThis measurement provides the mean number of
UEs capable of downlink carrier aggregation, counted per the number
of component carriers (PCell and SCells).5Not included in any
predefined
scannerYesNewRBSRadio_NetworkEUtranCellFDDpmCaCapableDlSampPEGSingleThe
number of carrier aggregation capable UE measurement samples.The
counter is stepped for each carrier aggregation capable UE
measurement sample.5Not included in any predefined
scannerYesNewRBSRadio_NetworkEUtranCellFDDpmCaConfiguredDlSumACCPDF[5]Number
of configured secondary component carriers (SCell) for UE using
this cell as their primary component carrier (PCell)
[0] Number of carrier aggregation capable UE that are not
configured with any SCell[1] Number of carrier aggregation capable
UE that are configured with one SCell [2] Number of carrier
aggregation capable UE that are configured with two SCells[3]
Number of carrier aggregation capable UE that are configured with
three SCells[4] Number of carrier aggregation capable UE that are
configured with four SCellsCompressed: TrueThis measurement
provides the mean number of UEs configured for downlink carrier
aggregation, out of the number of carrier aggregation capable UEs,
counted per the number of component carriers (PCell and SCells)
configured in each UE.5Not included in any predefined
scannerYesNewRBSRadio_NetworkEUtranCellFDDpmCaConfiguredDlSampPEGSingleThe
number of carrier aggregation configured UE measurement samples.The
counter is stepped for each carrier aggregation configured UE
measurement sample.5Not included in any predefined
scannerYesNewRBSRadio_NetworkEUtranCellFDDpmCaActivatedDlSumACCPDF[5]Number
of activated secondary component carriers (SCell), for UE using
this cell as their primary component carrier (PCell)
[0] Number of carrier aggregation configured UE that have no
activated SCells[1] Number of carrier aggregation configured UE
that have one activated SCell[2] Number of carrier aggregation
configured UE that have two activated SCells[3] Number of carrier
aggregation configured UE that have three activated SCells[4]
Number of carrier aggregation configured UE that have four
activated SCellsCompressed: TrueStepped in each subframe (TTI) for
UEs using this cell as a primary component carrier (PCell) and
which are configured with at least one secondary component carrier
(SCell).0.001Not included in any predefined
scannerYesNewRBSRadio_NetworkEUtranCellFDDpmCaScheduledDlSumACCPDF[5]Mean
number of UE that have data scheduled on downlink, counted by the
number of component carriers simultaneously scheduled.UE is
considered scheduled for carrier aggregation if the eNodeB has sent
a PDCCH assignment indicating a PDSCH assignment
[0] Number of carrier aggregation activated UE that have one
scheduled cell[1] Number of carrier aggregation activated UE that
have two simultaneously scheduled cells[2] Number of carrier
aggregation activated UE that have three simultaneously scheduled
cells[3] Number of carrier aggregation activated UE that have four
simultaneously scheduled cells[4] Number of carrier aggregation
activated UE that have five simultaneously scheduled
cellsCompressed: TrueStepped in each subframe (TTI) for UEs using
this cell as a primary component carrier (PCell) and which are
activated with at least one secondary component carrier
(SCell).0.001Not included in any predefined
scannerYesNewRBSRadio_NetworkEUtranCellFDDpmRadioThpVolDlSCellACCSingleThe
total successfully transferred data volume on MAC level in the
downlink for secondary cell traffic (i.e. the UE has another cell
as its primary component carrier (PCell)). This counter includes
possible padding bits.kilobit (1 000 bits)The counter is
incremented when a downlink transmission is acknowledged on HARQ
level (only stepped for secondary component carrier (SCell)
traffic).Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmDrxSleepTimePEGSingleContains
the DRX sleep time in number of subframes for all UEs in the cell
taking into consideration SR pending time (time between SR and UL
grant).Counter should be incremented every subframe for every UE in
the cell for which DRX functionality in RRC_CONNECTED state is
configured and the UE is in DRX sleep time.Not included in any
predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmSchedActivityUeDlACCSingleTotal
UEs scheduling activity in the downlink.The counter shall be
increased with 1 for each UE that was scheduled with SRB/DRB data
in the downlink.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmSchedActivityUeUlACCSingleTotal
UEs scheduling activity in the uplink.The counter shall be
increased with 1 for each UE that was scheduled with SRB/DRB data
in the uplink.Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPrbAvailDlACCSingleThe
total number of Physical Resource Block (PRB) pairs available for
transmission in the downlink.
The value of the counter depends on the FDD/TDD configuration
and in TDD also the special subframe configuration.This measurement
is applicable for the Physical Downlink Shared Channel (PDSCH)Not
included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmPrbAvailUlACCSingleThe
total number of Physical Resource Block (PRB) pairs available for
transmission in the uplink.
The value of the counter depends on the FDD/TDD
configuration.This measurement is applicable for the Physical
Uplink Shared Channel (PUSCH).Not included in any predefined
scannerYesModifiedRBSRadio_NetworkEUtranCellFDDpmRadioRecInterferencePwrACCPDF[16]The
measured Noise and Interference Power on PUSCH, according to
36.214
PDF ranges:[0]: N+I
