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Metric Name Outgoing IP route traffic volume Incoming IP route traffic volume IP Iu-CS throughput - egress IP Iu-PS throughput - egress IP Iur throughput - egress IP Iub throughput - egress IP Iub traffic load - Downlink IP Iu-CS throughput - ingress IP Iu-PS throughput - ingress IP Iur throughput - ingress IP Iub throughput - ingress Average Reserved IP bit rate Minimum Reserved IP bit rate
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Page 1: Kpis_ip (Formulas Ip Ran Nokia)

Metric Name

Outgoing IP route traffic volume

Incoming IP route traffic volume

IP Iu-CS throughput - egress

IP Iu-PS throughput - egress

IP Iur throughput - egress

IP Iub throughput - egress

IP Iub traffic load - Downlink

IP Iu-CS throughput - ingress

IP Iu-PS throughput - ingress

IP Iur throughput - ingress

IP Iub throughput - ingress

Average Reserved IP bit rate

Minimum Reserved IP bit rate

Page 2: Kpis_ip (Formulas Ip Ran Nokia)

Maximum Reserved IP bit rate

IP Route Egress Reservation Rate

Max reserved IP based route bandwidth utilization

Average UDP connections of the IP based route

Maximum UDP connections of the IP based route

IP Route Accessibility for outgoing traffic in Iub

IP Route Accessibility for incoming traffic in Iub

Successful IP transport resource reservations in the RNC for Iub

IP transport resource reservation failures due to external CAC for Iub

IP transport resource reservation failures due to internal CAC for Iub

IP transport resource reservation failures due to other CAC reasons for Iub

Successful IP transport resource reservations in the BTS for Iub

IP transport resource reservations failures in the BTS due to external CAC for Iub

IP transport resource reservations failures in the BTS due to other transport related failure than congestion for Iub

Successful IP transport resource reservations in the RNC for Iu-PS

IP transport resource reservation failures due to external CAC for Iu-PS

IP transport resource reservation failures due to internal CAC for Iu-PS

Page 3: Kpis_ip (Formulas Ip Ran Nokia)

IP Route Accessibility for outgoing traffic in Iu-PS

IP Route Accessibility for outgoing traffic in Iu-CS

IP Route Accessibility for outgoing traffic in Iur

Outgoing IPv4 traffic volume

Outgoing IPv6 traffic volume

Outgoing IPv4 throughput

Outgoing IPv6 throughput

IP transport resource reservation failures due to other CAC reasons for Iu-PS

Successful IP transport resource reservations in the RNC for Iu-CS

IP transport resource reservation failures due to external CAC for Iu-CS

IP transport resource reservation failures due to internal CAC for Iu-CS

IP transport resource reservation failures due to other CAC reasons for Iu-CS

Successful IP transport resource reservations in the RNC for Iur

IP transport resource reservation failures due to external CAC for Iur

IP transport resource reservation failures due to internal CAC for Iur

IP transport resource reservation failures due to other CAC reasons for Iur

Page 4: Kpis_ip (Formulas Ip Ran Nokia)

Ingress EF throughput

Ingress AF1 throughput

Ingress AF2 throughput

Ingress AF3 throughput

Ingress AF4 throughput

Ingress BE throughput

Ingress EF throughput

Egress AF1 throughput

Egress AF2 throughput

Egress AF3 throughput

Egress AF4 throughput

Egress BE throughput

IP scheduling packet drop ratio for EF PHB

IP scheduling packet drop ratio for AF1 PHB

IP scheduling packet drop ratio for AF2 PHB

IP scheduling packet drop ratio for AF3 PHB

IP scheduling packet drop ratio for AF4 PHB

IP scheduling packet drop ratio for BE PHB

Page 5: Kpis_ip (Formulas Ip Ran Nokia)

Description

Iu-CS IP layer uplink throughput in RNC.

Iu-PS IP layer uplink throughput in RNC.

SRNC Iur IP layer downlink throughput in RNC

RNC Iub IP layer downlink throughput in RNC.

Iu-PS IP layer downlink throughput in RNC.

SRNC Iur IP layer uplink throughput in RNC

RNC Iub IP layer uplink throughput in RNC.

Average reserved IP bit rate for a specific IP route

The minimum value of reserved IP layer bit rate during the measurement interval

Total outgoing data volume for IP based Traffic in Controlling RNC for the reporting period for a selected logical interface.The outgoing Traffic includes all user plane and control plane traffic between RNC and BTS/neighbour RNC/CN (depends on what is the receiving NE). Includes both the payload and IP datagram header bytes.

Total incoming data volume for IP based Traffic in Controlling RNC for the reporting period for a selected logical interface.The incoming Traffic includes all user plane and control plane traffic between RNC and BTS/neighbour RNC/CN (depends on what is the receiving NE). Includes both the payload and IP datagram header bytes.

IP Iub traffic load in DL direction. It compares the DL traffic throughput against the available bandwith.

Iu-CS IP layer downlink throughput in RNC.

Page 6: Kpis_ip (Formulas Ip Ran Nokia)

The maximum value of reserved IP layer bit rate during the measurement interval

Average number of UDP connections of the IP based route

Maximum number of UDP connections of the IP based route

The number of successful IP transport reservations in the RNC for Iub.

The number of successful IP transport resource reservations in the BTS.

The number of successful IP transport reservations in the RNC for Iu-PS.

This KPI represents the reservation rate of guaranteed IP transport resources. Average reserved IP based route bandwidth utilization related to the committed bit rate defined for that IP route.

Maximum reserved IP based route bandwidth utilization related to the committed bit rate defined for that IP route.

The number of failed IP transport resource reservations in the RNC for Iub due to external connection admission control.

The number of failed IP transport resource reservations in the RNC for Iub due to internal connection admission control.

The number of failed IP transport resource reservations in the RNC for Iub due to other reasons than connection admission control reasons.

The transport resource request success ratio [%]. This KPI describes the average success rate of the transport resource reservation attempts for IP Route based connections corresponding to Iub for the downlink traffic.

The number of failed IP transport resource reservations in the BTS due to external connection admission control.

The number of failed IP transport resource reservations in the BTS due to some other transport related failure than congestion. Also RNC internal failures after BTS successful response are included in this counter.

The transport resource request success ratio [%]. This KPI describes the average success rate of the transport resource reservation attempts for IP Route based connections corresponding to Iub for the uplink traffic.

The number of failed IP transport resource reservations in the RNC for Iu-PS due to external connection admission control.

The number of failed IP transport resource reservations in the RNC for Iu-PS due to internal connection admission control.

Page 7: Kpis_ip (Formulas Ip Ran Nokia)

The number of successful IP transport reservations in the RNC for Iu-CS.

The number of successful IP transport reservations in the RNC for Iur.

The amount of data sent in IPv6 datagrams.

Average IPv4 throughput over a measurement period per IP interface

Average IPv6 throughput over a measurement period per IP interface

The number of failed IP transport resource reservations in the RNC for Iu-PS due to other reasons than connection admission control reasons.

The transport resource request success ratio [%]. This KPI describes the average success rate of the transport resource reservation attempts for IP Route based connections corresponding to Iu-PS.

The number of failed IP transport resource reservations in the RNC for Iu-CS due to external connection admission control.

The number of failed IP transport resource reservations in the RNC for Iu-CS due to internal connection admission control.

The number of failed IP transport resource reservations in the RNC for Iu-CS due to other reasons than connection admission control reasons.

The transport resource request success ratio [%]. This KPI describes the average success rate of the transport resource reservation attempts for IP Route based connections corresponding to Iu-CS.

The number of failed IP transport resource reservations in the RNC for Iur due to external connection admission control.

The number of failed IP transport resource reservations in the RNC for Iur due to internal connection admission control.

The number of failed IP transport resource reservations in the RNC for Iur due to other reasons than connection admission control reasons.

The transport resource request success ratio [%]. This KPI describes the average success rate of the transport resource reservation attempts for IP Route based connections corresponding to Iur.

The amount of data sent in IPv4 datagrams.The counter includes user plane traffic, datagrams targeted to NPGE host processor are not included.

Page 8: Kpis_ip (Formulas Ip Ran Nokia)

Average EF ingress throughput over a measurement period per IP interface

Average AF1 ingress throughput over a measurement period per IP interface

Average AF2 ingress throughput over a measurement period per IP interface

Average AF3 ingress throughput over a measurement period per IP interface

Average AF4 ingress throughput over a measurement period per IP interface

Average BE throughput over a measurement period per IP interface

Average EF egress throughput over a measurement period per IP interface

Average AF1egress throughput over a measurement period per IP interface

Average AF2 egress throughput over a measurement period per IP interface

Average AF3 egress throughput over a measurement period per IP interface

Average AF4 egress throughput over a measurement period per IP interface

Average BE egress throughput over a measurement period per IP interface

IP scheduling packet drop ratio for EF PHB

IP scheduling packet drop ratio for AF1 PHB

IP scheduling packet drop ratio for AF2 PHB

IP scheduling packet drop ratio for AF3 PHB

IP scheduling packet drop ratio for AF4 PHB

IP scheduling packet drop ratio for BE PHB

Page 9: Kpis_ip (Formulas Ip Ran Nokia)

Formula

sum (OUT_DATA_IP_ROUTE) / 1000

sum (IN_DATA_IP_ROUTE) / 1000

8* sum (OUT_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

8* sum (OUT_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

8* sum (OUT_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

8* sum (OUT_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

8* sum (IN_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

8* sum (IN_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

8* sum (IN_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

8* sum (IN_DATA_IP_ROUTE) / sum (60 * PERIOD_DURATION)*1000

sum (SUM_RESERVED_RATE_IP_ROUTE) / sum (NBR_SAMPLES_IP_ROUTE)

min (MIN_RESERVED_RATE_IP_ROUTE)

100 * (8 * sum ( OUT_DATA_IP_ROUTE)) / (sum (60 * PERIOD_DURATION) * sum (COMMITTED_BIT_RATE_IP_ROUTE))

Page 10: Kpis_ip (Formulas Ip Ran Nokia)

max (MAX_RESERVED_RATE_IP_ROUTE)

sum (SUM_IP_UDP_CONN_IP_ROUTE) / sum (NBR_SAMPLES_IP_ROUTE)

max (MAX_UDP_CONN_IP_ROUTE)

sum (SUCC_RNC_IP_RES)

sum (FAIL_RNC_IP_RES_EXT)

sum (FAIL_RNC_IP_RES_INT)

sum (FAIL_RNC_IP_RES_OTHER)

sum (SUCC_BTS_IP_RES)

sum (FAIL_BTS_IP_RES_EXT_TRANS)

sum (FAIL_BTS_IP_RES_OTHER_TRANS)

sum (SUCC_RNC_IP_RES)

sum (FAIL_RNC_IP_RES_EXT)

sum (FAIL_RNC_IP_RES_INT)

100 *(sum (SUM_RESERVED_RATE_IP_ROUTE / NBR_SAMPLES_IP_ROUTE) / (sum COMMITTED_BIT_RATE_IP_ROUTE))

100 * sum (MAX_RESERVED_RATE_IP_ROUTE) / sum (COMMITTED_BIT_RATE_IP_ROUTE)

100* sum(SUCC_RNC_IP_RES) / sum(SUCC_RNC_IP_RES + FAIL_RNC_IP_RES_EXT + FAIL_RNC_IP_RES_INT + FAIL_RNC_IP_RES_OTHER)

100* sum(SUCC_BTS_IP_RES) / sum (SUCC_BTS_IP_RES + FAIL_BTS_IP_RES_EXT_TRANS + FAIL_BTS_IP_RES_OTHER_TRANS)

Page 11: Kpis_ip (Formulas Ip Ran Nokia)

sum (FAIL_RNC_IP_RES_OTHER)

sum (SUCC_RNC_IP_RES)

sum (FAIL_RNC_IP_RES_EXT)

sum (FAIL_RNC_IP_RES_INT)

sum (FAIL_RNC_IP_RES_OTHER)

sum (SUCC_RNC_IP_RES)

sum (FAIL_RNC_IP_RES_EXT)

sum (FAIL_RNC_IP_RES_INT)

sum (FAIL_RNC_IP_RES_OTHER)

sum (0.1 * IP4_OUT_BYTES)

sum (0.1 * IP6_OUT_BYTES)

sum (8 * 100 * IP4_OUT_BYTES) / (1000000 * sum (60 * PERIOD_DURATION))

sum (8 * 100 * IP6_OUT_BYTES) / (1000000 * sum (60 * PERIOD_DURATION))

100* sum(SUCC_RNC_IP_RES) / sum(SUCC_RNC_IP_RES + FAIL_RNC_IP_RES_EXT + FAIL_RNC_IP_RES_INT + FAIL_RNC_IP_RES_OTHER)

100* sum(SUCC_RNC_IP_RES) / sum(SUCC_RNC_IP_RES + FAIL_RNC_IP_RES_EXT + FAIL_RNC_IP_RES_INT + FAIL_RNC_IP_RES_OTHER)

100* sum(SUCC_RNC_IP_RES) / sum(SUCC_RNC_IP_RES + FAIL_RNC_IP_RES_EXT + FAIL_RNC_IP_RES_INT + FAIL_RNC_IP_RES_OTHER)

Page 12: Kpis_ip (Formulas Ip Ran Nokia)

sum (INGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (INGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (INGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (INGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (INGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (INGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (EGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (EGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (EGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (EGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (EGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

sum (EGRESS_RECEIVED_BYTES * 100 * 8) / (100 * sum (60 * PERIOD_DURATION)

100 * sum (DISCARDED_PACKETS) / sum (INGRESS_RECEIVED_PACKETS)

100 * sum (DISCARDED_PACKETS) / sum (INGRESS_RECEIVED_PACKETS)

100 * sum (DISCARDED_PACKETS) / sum (INGRESS_RECEIVED_PACKETS)

100 * sum (DISCARDED_PACKETS) / sum (INGRESS_RECEIVED_PACKETS)

100 * sum (DISCARDED_PACKETS) / sum (INGRESS_RECEIVED_PACKETS)

100 * sum (DISCARDED_PACKETS) / sum (INGRESS_RECEIVED_PACKETS)

Page 13: Kpis_ip (Formulas Ip Ran Nokia)

Comment Formula_id/counter_id

OUT_DATA_IP_ROUTE en KB RNC_5022a

RNC_5029a

RNC_1629a

RNC_1631a

RNC_1633a

RNC_1635a

RNC_1794a

RNC_1630a

RNC_1632a

RNC_1634a

RNC_1636a

RNC_1865a

M568C4

Iu-CS interface identification should be done by showing info about the relation between RNC and MSC/VLR.

Iu-PS interface identification should be done by showing info about the relation between RNC and SGSN.

Iur interface identification should be done by showing info about the relation between SRNC and DRNC.

Iub interface identification should be done by showing info about the relation between RNC and NodeB.

This KPI can potentailly provide results higher than 100 %. Explanation:M568C2 COMMITTED_BIT_RATE_IP_ROUTE - This counter is calculated using the following formulae:"IP based route CAC bandwidth" - "signalling bandwidth" - "DCN bandwidth"Since the total egress traffic of the IP based route presented by M568C0 OUT_DATA_IP_ROUTE can be higher than the configured IP Based Route Committed Bit Rate of the IP based route presented by M568C2 COMMITTED_BIT_RATE_IP_ROUTE, this can lead to KPI values higher than 100%.

Iu-CS interface identification should be done by showing info about the relation between RNC and MSC/VLR.

Iu-PS interface identification should be done by showing info about the relation between RNC and SGSN.

Iur interface identification should be done by showing info about the relation between SRNC and DRNC.

Iub interface identification should be done by showing info about the relation between RNC and NodeB.

The bit rate is sampled with 5 second interval. If calculated for the same IP route over several measurement periods, min (MIN_RSERVED_RATE_IP_ROUTE) or sum (MIN_RESERVED_RATE_IP_ROUTE) can be used. If calculated over several IP route for the same measurement period, sum (MIN_RESERVED_RATE_IP_ROUTE) has to be used

Page 14: Kpis_ip (Formulas Ip Ran Nokia)

M568C5

RNC_5052a

M804C0

M804C1

M804C2

M804C3

RNC_5005a

M804C4

M804C5

M804C6

RNC_5031a or RNC_1783a

M804C0

M804C1

M804C2

The bit rate is sampled with 5 second interval. If calculated for the same IP route over several measurement periods, max (MAX_RSERVED_RATE_IP_ROUTE) or sum (MAX_RESERVED_RATE_IP_ROUTE) can be used. If calculated over several IP route for the same measurement period, sum (MAX_RESERVED_RATE_IP_ROUTE) has to be used

Updated when the IP resources are successfully reserved on the RNC side. The sum has to be done over the IP routes corresponding to the Iub.

Updated when the RNC external IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iub.

Updated when the RNC internal IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iub.

Updated when the IP resource reservation fails due to any reason other than connection admission control failure. Such a reason could be for example route analysis failure caused by a configuration error. The sum has to be done over the IP routes corresponding to the Iub.

The sums have to be done over the IP routes corresponding to the Iub.

The sums have to be done over the IP routes corresponding to the Iub.

Updated when the IP resources are successfully reserved on the RNC side. The sum has to be done over the IP routes corresponding to the Iu-PS.

Updated when the RNC external IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iu-PS.

Updated when the RNC internal IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iu-PS.

Page 15: Kpis_ip (Formulas Ip Ran Nokia)

M804C3

RNC_5005a

M804C0

M804C1

M804C2

M804C3

RNC_5005a

M804C0

M804C1

M804C2

M804C3

RNC_5005a

Updated when the IP resource reservation fails due to any reason other than connection admission control failure. Such a reason could be for example route analysis failure caused by a configuration error. The sum has to be done over the IP routes corresponding to the Iu-PS.

The sums have to be done over the IP routes corresponding to the Iu-PS.

Updated when the IP resources are successfully reserved on the RNC side. The sum has to be done over the IP routes corresponding to the Iu-CS.

Updated when the RNC external IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iu-CS.

Updated when the RNC internal IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iu-CS.

Updated when the IP resource reservation fails due to any reason other than connection admission control failure. Such a reason could be for example route analysis failure caused by a configuration error. The sum has to be done over the IP routes corresponding to the Iu-CS.

The sums have to be done over the IP routes corresponding to the Iu-CS.

Updated when the IP resources are successfully reserved on the RNC side. The sum has to be done over the IP routes corresponding to the Iur.

Updated when the RNC external IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iur.

Updated when the RNC internal IP CAC rejects the resource request. The sum has to be done over the IP routes corresponding to the Iur.

Updated when the IP resource reservation fails due to any reason other than connection admission control failure. Such a reason could be for example route analysis failure caused by a configuration error. The sum has to be done over the IP routes corresponding to the Iur.

The sums have to be done over the IP routes corresponding to the Iur.

This counter is reported per IP interface and not per VLAN in case some are defined

This counter is reported per IP interface and not per VLAN in case some are defined

This counter is reported per IP interface and not per VLAN in case some are defined

This counter is reported per IP interface and not per VLAN in case some are defined

Page 16: Kpis_ip (Formulas Ip Ran Nokia)

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = EF.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF1.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF2.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF3.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF4.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = BE.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = EF.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF1.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF2.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF3.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF4.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = BE.

This counter is reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = EF.

These counters are reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF1.

These counters are reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF2.

These counters are reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF3.

These counters are reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = AF4.

These counters are reported per IP interface and not per VLAN in case some are defined. The filter has to be done with the PHB = BE.

Page 17: Kpis_ip (Formulas Ip Ran Nokia)

Object Unit Measurement

Network, RNC, IP Route Mbytes M568_IP_based_route

Network, RNC, IP Route Mbytes M568_IP_based_route

Network, RAN, RNC, IP Route Mbps M568_IP_based_route

Network, RAN, RNC, IP Route Mbps M568_IP_based_route

Network, RAN, RNC, IP Route Mbps M568_IP_based_route

Mbps M568_IP_based_route

% M568_IP_based_route

Network, RAN, RNC, IP Route Mbps M568_IP_based_route

Network, RAN, RNC, IP Route Mbps M568_IP_based_route

Network, RAN, RNC, IP Route Mbps M568_IP_based_route

Mbps M568_IP_based_route

kbps M568_IP_based_route

kbps M568_IP_based_route

Network, RAN, RNC, IP Route, WBTS

Network, RAN, RNC, IP Route, WBTS

Network, RAN, RNC, IP Route, WBTS

Network, Area, RAN, RNC, IP Route, WBTS

Network, Area, RAN, RNC, IP Route, WBTS

Page 18: Kpis_ip (Formulas Ip Ran Nokia)

kbps M568_IP_based_route

% M568_IP_based_route

% M568_IP_based_route

IP Route # M568_IP_based_route

IP Route # M568_IP_based_route

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

% M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

% M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

Network, Area, RAN, RNC, IP Route, WBTS

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Page 19: Kpis_ip (Formulas Ip Ran Nokia)

# M804_RNC_IP_CAC

% M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

% M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

# M804_RNC_IP_CAC

% M804_RNC_IP_CAC

IP Interface Mbytes M565_IP_meas_on_IP

IP Interface Mbytes M565_IP_meas_on_IP

IP Interface Mbytes M565_IP_meas_on_IP

IP Interface Mbytes M565_IP_meas_on_IP

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Network, Area, RAN, RNC, IP Route

Page 20: Kpis_ip (Formulas Ip Ran Nokia)

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface Mbps M567_IP_QoS

IP Interface % M567_IP_QoS

IP Interface % M567_IP_QoS

IP Interface % M567_IP_QoS

IP Interface % M567_IP_QoS

IP Interface % M567_IP_QoS

IP Interface % M567_IP_QoS

Page 21: Kpis_ip (Formulas Ip Ran Nokia)

Metric NameAverage ingress Ethernet Traffic

Average egress Ethernet Traffic

Ingress packet error ratio

Egress packet drop ratio

Ethernet interface unavailable

Ethernet interface errors

Page 22: Kpis_ip (Formulas Ip Ran Nokia)

DescriptionAverage ingress Ethernet Traffic

Average egress Ethernet Traffic

This KPI is reporting the seconds Ethernet interface has been severely affected

This KPI is reporting the average ingress (Iub downlink) packet drop ratio of the Ethernet interface in FTM

This KPI is reporting the average egress (Iub link) packet drop ratio of the Ethernet interface in FTM.

This KPI is reporting the seconds Ethernet interface has been unavailable during the measurement period

Page 23: Kpis_ip (Formulas Ip Ran Nokia)

Formulasum ( EthIfInOcts_15 * 8) / 1000 * sum (60 * PERIOD_DURATION)

sum ( EthIfOutOcts_15 * 8) / 1000 * sum (60 * PERIOD_DURATION)

100 * sum (EthIfOutDiscShaping_15) / sum (EthIfOutDiscShaping_15 + EthIfOutPkt_15)

100 * sum (EthIfUas_15) / sum (60 * PERIOD_DURATION)

100 * sum (EthIfSec_15 / sum (60 * PERIOD_DURATION)

100 * sum (EthIfInPktErr_15 + EthIfInUnknownVLAN_15 + EthUnknownPSNHdr_15) / sum (EthIfInPkt_15)

Page 24: Kpis_ip (Formulas Ip Ran Nokia)

Comment Formula_id/counter_idM5110C0

M5110C1

M5110C9

M5110C10

Following errors are counted: number of received Ethernet packets with Frame check sequence errors, number od received Ethernet packets with unknown VLAN-ID, number of received Ethernet frames whose PSN headers is not configured or has a reserved value (contains an invalid Pseudo wire tunnel header i.e. IP address)

M5110C4 + M5110C7 + M5110C8) / M5110C2

Following error is currently counted: number of Ethernet Tx packets that are discarded due to rate shaping.

M5110C6 / (M5110C6 + M5110C3)

Page 25: Kpis_ip (Formulas Ip Ran Nokia)

Object Unit MeasurementWBTS kbps FTM_ethernet_link

WBTS kbps FTM_ethernet_link

WBTS % FTM_ethernet_link

WBTS % FTM_ethernet_link

WBTS % FTM_ethernet_link

WBTS % FTM_ethernet_link