Select Database ID PI ID Network element name No update No 9322 M5001C0 No 9323 M5001C1 No 19261 M5001C2 No 9325 M5001C3 MAXIMUM NUMBER OF AVAILABLE CHANNEL ELEMENTS MINIMUM NUMBER OF AVAILABLE CHANNEL ELEMENTS AVERAGE NUMBER OF AVAILABLE CHANNEL ELEMENTS MAXIMUM NUMBER OF USED CE FOR DL
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Select Database ID PI ID Network element nameNo update
No 9322 M5001C0
No 9323 M5001C1
No 19261 M5001C2
No 9325 M5001C3
MAXIMUM NUMBER OF AVAILABLE CHANNEL ELEMENTS
MINIMUM NUMBER OF AVAILABLE CHANNEL ELEMENTS
AVERAGE NUMBER OF AVAILABLE CHANNEL ELEMENTS
MAXIMUM NUMBER OF USED CE FOR DL
No 9326 M5001C4
No 20741 M5001C9
No 20744 M5001C12
No 49081 M5001C15
No 49082 M5001C16
No 49083 M5001C17
No 49084 M5001C18
MAXIMUM NUMBER OF USED CE FOR UL
MAXIMUM NUMBER OF USED CE FOR HSUPA UL
MAXIMUM NUMBER OF USED CE FOR HSUPA DL
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN UL - CLASS 1
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN UL - CLASS 2
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN UL - CLASS 3
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN UL - CLASS 4
No 49085 M5001C19
No 49086 M5001C20
No 49075 M5001C21
No 49076 M5001C22
No 49077 M5001C23
No 49078 M5001C24
No 49079 M5001C25
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN UL - CLASS 5
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN UL - CLASS 6
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN DL - CLASS 1
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN DL - CLASS 2
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN DL - CLASS 3
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN DL - CLASS 4
BTS CHANNEL ELEMENT TOTAL UTILIZATION IN DL - CLASS 5
No 49080 M5001C26 BTS CHANNEL ELEMENT TOTAL UTILIZATION IN DL - CLASS 6
NetAct name Network element abbreviation CategoryNo update No update No update
MAX_AVAIL_CE MAX_AVAIL_CE Customer
MIN_AVAIL_CE MIN_AVAIL_CE Customer
AVG_AVAIL_CE AVG_AVAIL_CE Customer
MAX_USED_CE_DL MAX_USED_CE_DL Customer
MAX_USED_CE_UL MAX_USED_CE_UL Customer
MAX_HSUPA_CE_UL MAX_HSUPA_CE_UL Customer
MAX_HSUPA_CE_DL MAX_HSUPA_CE_DL Customer
Customer
Customer
Customer
Customer
BTS_CE_TOTAL_UTIL_UL_CLASS_1
BTS_CE_TOTAL_UTIL_UL_CLASS_1
BTS_CE_TOTAL_UTIL_UL_CLASS_2
BTS_CE_TOTAL_UTIL_UL_CLASS_2
BTS_CE_TOTAL_UTIL_UL_CLASS_3
BTS_CE_TOTAL_UTIL_UL_CLASS_3
BTS_CE_TOTAL_UTIL_UL_CLASS_4
BTS_CE_TOTAL_UTIL_UL_CLASS_4
Customer
Customer
Customer
Customer
Customer
Customer
Customer
BTS_CE_TOTAL_UTIL_UL_CLASS_5
BTS_CE_TOTAL_UTIL_UL_CLASS_5
BTS_CE_TOTAL_UTIL_UL_CLASS_6
BTS_CE_TOTAL_UTIL_UL_CLASS_6
BTS_CE_TOTAL_UTIL_DL_CLASS_1
BTS_CE_TOTAL_UTIL_DL_CLASS_1
BTS_CE_TOTAL_UTIL_DL_CLASS_2
BTS_CE_TOTAL_UTIL_DL_CLASS_2
BTS_CE_TOTAL_UTIL_DL_CLASS_3
BTS_CE_TOTAL_UTIL_DL_CLASS_3
BTS_CE_TOTAL_UTIL_DL_CLASS_4
BTS_CE_TOTAL_UTIL_DL_CLASS_4
BTS_CE_TOTAL_UTIL_DL_CLASS_5
BTS_CE_TOTAL_UTIL_DL_CLASS_5
CustomerBTS_CE_TOTAL_UTIL_DL_CLASS_6
BTS_CE_TOTAL_UTIL_DL_CLASS_6
DescriptionNo update
Maximum number of available Channel Elements. In Ultrasite WCDMA BTS counter is the maximum amount of working baseband resources (HW capacity). In Flexi WCDMA BTS when baseband pooling is not used, counter is the maximum amount of sum of basic capacity and licensed capacity. In Flexi WCDMA BTS when baseband pooling is in use, counter is the maximum amount of Local Cell Group dedicated baseband pool CE capacity + total amount of CEs in common baseband pool - CEs used by other Local Cell groups from common baseband pool at the counter sampling moment.Note: If HW capacity available for LCG is less than licenced capacity then HW capacity is indicated in counter.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW. The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38). When BTS includes both Rel2 and Rel1 HW this counter is still reported for Rel1 HW.
Minimum number of available Channel Elements. In Ultrasite WCDMA BTS counter is the minimum amount of working baseband resources (HW capacity). In Flexi WCDMA BTS when baseband pooling is not used, counter is the minimum amount of sum of basic capacity and licensed capacity. In Flexi WCDMA BTS when baseband pooling is in use, counter is the minimum amount of Local Cell Group dedicated baseband pool CE capacity + total amount of CEs in common baseband pool - CEs used by other Local Cell groups from common baseband pool at the counter sampling moment.Note: If HW capacity available for LCG is less than licenced capacity then HW capacity is indicated in counter.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW. The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38). When BTS includes both Rel2 and Rel1 HW this counter is still reported for Rel1 HW.
Average number of available Channel Elements. In Ultrasite WCDMA BTS counter is the average amount of working baseband resources (HW capacity). In Flexi WCDMA BTS when baseband pooling is not used, counter is the average amount of sum of basic capacity and licensed capacity. In Flexi WCDMA BTS when baseband pooling is in use, counter is the average amount of Local Cell Group dedicated baseband pool CE capacity + total amount of CEs in common baseband pool - CEs used by other Local Cell groups from common baseband pool at the counter sampling moment.Note: If HW capacity available for LCG is less than licenced capacity then HW capacity is indicated in counter.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW. The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38). When BTS includes both Rel2 and Rel1 HW this counter is still reported for Rel1 HW.
Maximum number of used Channel Elements in Downlink direction.Counter includes all CCH, DCH, HSDPA and HSUPA used resources. HSUPA used resources includes both the Channel Elements reserved statically after HSUPA enabling and later dynamically allocated Channel Elements for HSUPA users. Note: In FlexiBTS, the number of used CEs can temporarily exceed the licensed capacity when PS radio bearer bit rate is upgraded.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW. The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
Maximum number of used Channel Elements in Uplink direction. Counter includes all CCH, DCH, HSDPA and HSUPA used resources.HSUPA used resources includes both the Channel Elements reserved statically after HSUPA enabling and later dynamically allocated Channel Elements for HSUPA users. Note: In FlexiBTS, the number of used CEs can temporarily exceed the licensed capacity when PS radio bearer bit rate is upgraded.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW. The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
Maximum number of used Channel Elements for HSUPA in Uplink direction. HSUPA used resources includes Channel Elements reserved for HSUPA users.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW. The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
Maximum number of used Channel Elements for HSUPA in Downlink direction. HSUPA used resources includes Channel Elements reserved for HSUPA users.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW. The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (0 - <50)% class per uplink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (50 - <70)% class per uplink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (70 - <80)% class per uplink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (80 - <90)% class per uplink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (90 - <100)% class per uplink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the 100% class per uplink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs. Note: Counter consider usage of 100% or more, since BTS allows temporarily exceeding the licensed capacity.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (0 - <50)% class per downlink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (50 - <70)% class per downlink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (70 - <80)% class per downlink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (80 - <90)% class per downlink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the (90 - <100)% class per downlink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
The counter shows how many utilization rate samples have been detected within the 100% class per downlink direction. Each utilization rate sample calculates the total number of Channel Elements (CE) in use divided by the number of all available (licensed) CEs. Note: Counter consider usage of 100% or more, since BTS allows temporarily exceeding the licensed capacity.Note: This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
Updated VersionNo update
When the HW or the licenced capacity changes in the BTS. 6.5u
When the HW or the licenced capacity changes in the BTS. 6.5u
7.5u
6.4u
The counter is updated over the measurement period. The value of the counter is the average value from all the samples during the measurement period.
The counter is updated over the measurement period. The counter value is calculated on the cycle of 5 seconds samples based on the maximum used channel elements in the DL direction.
6.4u
5.4u
5.4u
The counter is incremented when the sample of the utilization rate is within (0 - <50)% class. 3.4u
The counter is incremented when the sample of the utilization rate is within (50 - <70)% class. 3.4u
The counter is incremented when the sample of the utilization rate is within (70 - <80)% class. 3.4u
The counter is incremented when the sample of the utilization rate is within (80 - <90)% class. 3.4u
The counter is updated over the measurement period. The counter value is calculated on the cycle of 5 seconds samples based on the maximum used channel elements in the UL direction.
When resources used for HSUPA users are increased. The counter is updated over the measurement period.
When resources used for HSUPA users are increased. The counter is updated over the measurement period.
3.4u
The counter is incremented when the sample of the utilization rate is (100 or more)%. 3.4u
The counter is incremented when the sample of the utilization rate is within (0 - <50)% class. 3.4u
The counter is incremented when the sample of the utilization rate is within (50 - <70)% class. 3.4u
The counter is incremented when the sample of the utilization rate is within (70 - <80)% class. 3.4u
The counter is incremented when the sample of the utilization rate is within (80 - <90)% class. 3.4u
3.4u
The counter is incremented when the sample of the utilization rate is within (90 - <100)% class.
The counter is incremented when the sample of the utilization rate is within (90 - <100)% class.
The counter is incremented when the sample of the utilization rate is (100 or more)%. 3.4u
Document state Product Product SW release SW release increment
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
PUBLISHED Base Station WN7.0 0
Measurement Measurement version
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
WBTS HW Resource 6
PI groupsNo update
500110000
500110000
500110000
500110000
500110000
500110005
500110005
500120004
500120004
500120004
500120004
500120004
500120004
500120004
500120004
500120004
500120004
500120004
500120004
Product level Features Domain level Features System level FeaturesNo update No update No update
1312
1312
1312
1312
1312
1312
1312
1312
1312
1312
1312
1312
Additional informationNo update
The TCOM shall count new values always when it receives HwConfigurationChangeReq message or a new capacity license from BTSOM.
The TCOM shall count new values always when it receives HwConfigurationChangeReq message or a new capacity license from BTSOM.
inc17
inc17
inc17
inc17
inc17
inc17
inc17
inc17
inc17
inc17
inc17
inc17
Aggregation dimension Compatible NMS release Definition updated Dino document identifierNo update No update No update No update
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
LCG WN7.0
Example values Impact InterfaceNo update No update No update
Internal information Internal PI IDNo update No update
Only the resources that have HSUPA user(s) are counted. So resources that are only reserved for HSUPA are not included into this counter.; PR 81868ESPE04; PR 82657ESPE04
The used HSUPA CE capacity means here that only HSUPA L2 consumption and Cluster Fractions with HSUPA user are counted.; PR 81868ESPE04; PR 82657ESPE04
Logical type NetAct release NMS value type NW aggregation functionNo update No update No update No update
Max max
Min min
Average avg
Max max
Max max
Max max
Max max
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Cumulative sum
Object summary levels Optionality informationNo update No update
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
RAN1312
Original release End release Physical type Dependencies with other PIsNo update No update No update No update
WN3.2/WP2.0 WN6.0 EP1
WN3.2/WP2.0 WN6.0 EP1
WN3.2/WP2.0 WN6.0 EP1
WN3.2/WP2.0 WN6.0 EP1
WN3.2/WP2.0 WN6.0 EP1
WN4.0/WP2.0 WN6.0 EP1
WN4.0/WP2.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
WN6.0 WN6.0 EP1
Protocol Range Sampling interval Selected to adaptationNo update No update No update No update
Yes
Yes
5 s Yes
5 s Yes
5 s Yes
Yes
Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
5 seconds Yes
Time aggregation function Time summary levels Trigger pointsNo update No update No update
max
min
avg
max
max
max
max
sum
sum
sum
sum
sum
sum
sum
sum
sum
sum
sum
sum
Trigger type Unit Updating process nameNo update No update No update
Event Integer number WBTS/TCOM
Event Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Event Integer number TCOM
Event Integer number TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Sample Integer number WBTS/TCOM
Internal unitNo update
Internal unit 2No update
Description=Maximum number of available Channel Elements.
Description=Minimum number of available Channel Elements.
Description=The average number of available Channel Elements.
Description=Maximum number of used Channel Elements in Downlink direction.Counter includes all CCH, DCH, HSDPA and HSUPA used resources. HSUPA used resources includes both the Channel Elements reserved statically after HSUPA enabling and later dynamically allocated Channel Elements for HSUPA users. Note: In FlexiBTS, the number of used CEs can temporarily exceed the licensed capacity when PS radio bearer bit rate is upgraded.
Description=Maximum number of used Channel Elements in Uplink direction. Counter includes all CCH, DCH, HSDPA and HSUPA used resources.HSUPA used resources includes both the Channel Elements reserved statically after HSUPA enabling and later dynamically allocated Channel Elements for HSUPA users. Note: In FlexiBTS, the number of used CEs can temporarily exceed the licensed capacity when PS radio bearer bit rate is upgraded.
Description=Maximum number of used Channel Elements for HSUPA in Uplink direction. HSUPA used resources includes Channel Elements reserved for HSUPA users.
Description=Maximum number of used Channel Elements for HSUPA in Downlink direction. HSUPA used resources includes Channel Elements reserved for HSUPA users.
Description=The counter shows how many utilization rate samples have been detected within the (0 - <50)% class per uplink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (50 - <70)% class per uplink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (70 - <80)% class per uplink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (80 - <90)% class per uplink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (90 - <100)% class per uplink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the 100% class per uplink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements. Note: Counter consider utilization of 100% or more, since BTS allows temporarily exceeding the licensed capacity.
Description=The counter shows how many utilization rate samples have been detected within the (0 - <50)% class per downlink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (50 - <70)% class per downlink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (70 - <80)% class per downlink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (80 - <90)% class per downlink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the (90 - <100)% class per downlink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements.
Description=The counter shows how many utilization rate samples have been detected within the 100% class per downlink direction. Each utilization rate sample calculates the total number of CEs in use divided by the number of all available (licensed) channel elements. Note: Counter consider utilization of 100% or more, since BTS allows temporarily exceeding the licensed capacity.
Column name in NE tableNo update
Functional changelogNo update
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
This counter is not supported anymore in Rel2 BTS HW with WN7.0 or later SW . The valid R99 CE and HSPA user amount counters in Rel2 BTS HW are provided by M5006 measurement (counters M5006C0...C38).
Extra textual information 1 Extra textual information 2No update No update
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Responsible Requirement Engineer: Turpeinen Kari L1490
Extra textual information 3 Operability class Operability subclassNo update No update No update
EPmCounterId_MaxAvailCEs = 115
EPmCounterId_MinAvailCEs = 114
EPmCounterId_AvgAvailCEs = 116
EPmCounterId_MaxUsedDlCEs = 121
EPmCounterId_MaxUsedUlCEs = 118
EPmCounterId_MaxUsedUlCEsForHsupa = 845
EPmCounterId_MaxUsedDlCEsForHsupa = 848
EPmCounterId_BtsCETotalUtilUlClass1 = 267
EPmCounterId_BtsCETotalUtilUlClass2 = 268
EPmCounterId_BtsCETotalUtilUlClass3 = 269
EPmCounterId_BtsCETotalUtilUlClass4 = 270
EPmCounterId_BtsCETotalUtilUlClass5 = 271
EPmCounterId_BtsCETotalUtilUlClass6 = 272
EPmCounterId_BtsCETotalUtilDlClass1 = 273
EPmCounterId_BtsCETotalUtilDlClass2 = 274
EPmCounterId_BtsCETotalUtilDlClass3 = 275
EPmCounterId_BtsCETotalUtilDlClass4 = 276
EPmCounterId_BtsCETotalUtilDlClass5 = 277
EPmCounterId_BtsCETotalUtilDlClass6 = 278
Operability subclass 2 (Operability attribute) Cause Codes related to this CounterNo update No update
Standard Causes related to this Counter Cause Explanation PI standardsNo update No update No update
Standard measurement nameNo update
Standard measurement typeNo update
Standard measurement type description IT tested SyVe testedNo update No update No update
not_tested not_tested
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Active errorsNo update
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
CE Utilization and Capacity
Document comments
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Introduction
About worksheets
Worksheet DescriptionCounters Exported Counters.Help Instructions how RISE Counter XML Import Tool is usedDATA_Features Available Features in RISEDATA_PI_Groups Available PI Groups in RISEDATA_Standards Available Standards in RISEDATA_Operability_Classes Available Operability Classes in RISEDATA_Menu_Fields Available Menu Fields in RISE
Updating Counter description(s)
1. Export Counter descriptions from RISE. Select "Excel update template" export option. It is recomended to export only one measurement at a time.
2. Update Counter descriptions.
Each Counter field has update mode attribute.
Update mode DescriptionNo update Counter field in hand is not updated when update import is made.Replace Old value for Counter field in hand is replaced with the new value when update import is made. Replace attribute can be used to clear a text field or to clear a list field.Add New value for Counter field in hand is added to old value when update import is made. Add attribute can be used to join two texts or to add new values to a list.
Field InstructionsSelect Yes = Counter description is included to XML file. No = Counter description is not included to XML file.Database ID Counter's database ID. Give this value when PI ID is not unique within given product or measurement.PI ID Value cannot be updated.Network Element Name -NetAct name -Network Element Abbreviation -Category Select valueDescription -Updated -Version Value cannot be updated.
RISE Counter XML Update Import Tool is intended for updating Counter description(s) in RISE. Tool makes it easy to update Counter description(s) and import them back into RISE.
Workflow is the following:1. Export Counter description(s) from RISE2. Updated Counter description(s)3. Generate Counter XML import file4. Import Counter description(s) to RISE
Only Counter descriptions, which are already in RISE, can be updated with this tool. It is up to each product line how this tool is used in their process. This tool can be obtained from RISE. Do Counter search and select "Excel update template" export option.
Document state Value cannot be updated.Product Value cannot be updated.Product SW release Value cannot be updated.SW release increment Value cannot be updated.Measurement Value cannot be updated.Measurement version Value cannot be updated.PI groups List of values. See DATA_PI_Groups worksheet. PI Groups are separated with comma. Example: “20090000,20090001”.Product level Features List of values. See DATA_Features worksheet. Features are separated with comma. Example: “159753,951753”.Domain level Features List of values. See DATA_Features worksheet. Features are separated with comma. Example: “159753,951753”.System level Features List of values. See DATA_Features worksheet. Features are separated with comma. Example: “159753,951753”.Additional info -Aggregation Dimension -Compatible NMS release -Definition updated -Dino document identifier -Example values -Impact -Interface -Internal information -Internal PI ID -Logical type Select valueNetAct Release -NMS value type -NW Aggregation Function -Object summary levels Select valueOptionality information -Original release Select valueEnd release Select valuePhysical type -Dependencies with other PIs List of PI IDs or Database IDs. See RISE for available PI IDs or Database IDs. References are separated with comma and references with Database ID is are in brackets .Protocol -Range -Sampling interval -Selected To Adaptation -Time Aggregation Function -Time summary levels Select valueTrigger points -Trigger type Select valueUnit Select valueUpdating process name -Internal unit -Internal unit 2 -Column name in NE table -Extra textual information 1 -Extra textual information 2 -Extra textual information 3 -Operability class Operability class OC_ID. See DATA_Operability_Classes worksheet. Example: "10".Operability subclass Operability subclass SC_ID. See DATA_Operability_Classes worksheet. Example: "102".Operability subclass 2 (Operability attribute) Operability subclass 2 SC2_ID. See DATA_Operability_Classes worksheet. Example: "1".Cause Codes related to this Counter List of Cause Code database ids. See RISE for available ids. Cause Codes are separated with comma. Example: “101,102”.Standard Causes related to this Counter List of Standard Cause database ids. See RISE for available ids. Standard Causes are separated with comma. Example: “101,102”.Cause Explanation -PI Standards List of values. See DATA_Standards worksheet. Standards are separated with semicolon. Example: “(3,3);(101,201)”.Standard measurement name -
Standard measurement type -Standard measurement type description -IT tested Select valueSyVe tested Select valueActive Errors -Document comments -
4. Import generated file to RISE. Administrator or Importer rights are needed in RISE for the import. Counters belongling only to one measurement can be imported to RISE at a time.
Version history
Version Date Notes1.0 3/27/2007 First release of the tool.1.1 6/29/2007 RISE search parameters added. Database Id field added. Database Id can be used in Dependencies with other PIs field when PI ID is not unique.1.2 8/28/2007 Appearence update to NSN Look and Feel1.3 10/16/2007 Added "Cause Explanation" field1.4 4/17/2008 Made compatible with RISE Viewer excel export format
3. Select Generate Counter XML Update Import File button to generate import file.
1. Export Counter descriptions from RISE. Select "Excel update template" export option. It is recomended to export only one measurement at a time.
Counter field in hand is not updated when update import is made.Old value for Counter field in hand is replaced with the new value when update import is made. Replace attribute can be used to clear a text field or to clear a list field.New value for Counter field in hand is added to old value when update import is made. Add attribute can be used to join two texts or to add new values to a list.
Yes = Counter description is included to XML file. No = Counter description is not included to XML file.Counter's database ID. Give this value when PI ID is not unique within given product or measurement.
RISE Counter XML Update Import Tool is intended for updating Counter description(s) in RISE. Tool
Only Counter descriptions, which are already in RISE, can be updated with this tool. It is up to each product line how this tool is used in their process. This tool can be obtained from RISE. Do Counter
List of values. See DATA_PI_Groups worksheet. PI Groups are separated with comma. Example: “20090000,20090001”.List of values. See DATA_Features worksheet. Features are separated with comma. Example: “159753,951753”.List of values. See DATA_Features worksheet. Features are separated with comma. Example: “159753,951753”.List of values. See DATA_Features worksheet. Features are separated with comma. Example: “159753,951753”.
List of PI IDs or Database IDs. See RISE for available PI IDs or Database IDs. References are separated with comma and references with Database ID is are in brackets .
Operability class OC_ID. See DATA_Operability_Classes worksheet. Example: "10".Operability subclass SC_ID. See DATA_Operability_Classes worksheet. Example: "102".Operability subclass 2 SC2_ID. See DATA_Operability_Classes worksheet. Example: "1".List of Cause Code database ids. See RISE for available ids. Cause Codes are separated with comma. Example: “101,102”.List of Standard Cause database ids. See RISE for available ids. Standard Causes are separated with comma. Example: “101,102”.
List of values. See DATA_Standards worksheet. Standards are separated with semicolon. Example: “(3,3);(101,201)”.
4. Import generated file to RISE. Administrator or Importer rights are needed in RISE for the import. Counters belongling only to one measurement can be imported to RISE at a time.
RISE search parameters added. Database Id field added. Database Id can be used in Dependencies with other PIs field when PI ID is not unique.
Old value for Counter field in hand is replaced with the new value when update import is made. Replace attribute can be used to clear a text field or to clear a list field.New value for Counter field in hand is added to old value when update import is made. Add attribute can be used to join two texts or to add new values to a list.
List of PI IDs or Database IDs. See RISE for available PI IDs or Database IDs. References are separated with comma and references with Database ID is are in brackets .
91000 NSN_THROUGHPUT_1 SYSTEM91001 NSN_THROUGHPUT_2 SYSTEM
FEATUREEthernet TerminationMultiple VLAN InterfacesIu-PS Throughput Measurement for GTP TrafficLatency Statistics for UE PositioningFast Call Setup from Cell_PCH StateQoS Aware HSPA SchedulingHSDPA Inter-frequency HandoverPower BalancingHSDPA 64 Users per CellHSUPA 60 Users per BTSAutomatic Definition of Neighbouring CellsLCS - Cell Coverage Based (RTT) with Geographical CoordinatesRRC Connection Re-establishmentUE Based A-GPS Using External Reference NetworkCPICH Ec/No Coverage Measurements and OptimisationHSPA Multi NRT RABsHSDPA Dynamic Resource AllocationEnhanced Priority Based Scheduling for NRT TrafficThroughput Based Optimisation of the Packet Scheduler AlgorithmPoint-to-Point Iu-PC InterfaceNetwork Based A-GPS Using External Reference NetworkHSUPA HandoverSDCCH HandoverDirected RetryTraffic Reason HandoverTrunk ReservationHandover Adjacent Cell MeasurementQueuing and PriorityIntelligent Underlay-OverlayBTS Testing: Scheduled MOCGeneral Packet Radio Service (GPRS)Adaptive Multi Rate (AMR) Speech CodecReversed HuntingMS Location Services Common BCCH ControlFER MeasurementDynamic AbisMulti BCF ControlAutomated Frequency PlanningPBCCH/PCCCH in BSC, GPRS Release 2Enhanced GPRSPriority Based Scheduling in BSC (GPRS QoS Phase 1)Support for 850MHzSystem Level TraceEDGEInter-System HandoverGb over IPPCU Capacity EvolutionText Telephone (TTY) support in BSC
Common BCCH for GSM800/GSM1900Legacy Abis Support with AOIP (TC In MGW)Support for Commercial Mobile Alert SystemAir Path Loss MeasurementPrecise RX Level measurementPrecise Timing Advance MeasurementPrecise Power Level MeasurementAdjacent Cell RX Level MeasurementSDCCH Statistics EnhancementASCI Performance MeasurementsCSD for AoIP (TC IN MGW)Dynamic Frequency and Channel Allocation (DFCA)Support for Cell Global IdentityMeasurement ImprovementsAutomated Planning EnhancementsSupport for Enhanced Measurement ReportGSM-WCDMA Interworking EnhancementsEnhanced Quality of Service (EQoS)Network-Controlled Cell Re-selection (NCCR)Lb Interface to BSCWireless Priority Service (WPS)Extended UL TBFEGPRS Packet Channel Request on CCCH (EPCR on CCC)BTS object amount increase in BSC (Larger Number of BTS Ids)Network Assisted Cell ChangeBSS LicensingCS Statistics ImprovementsDynamic Abis EnhancementsPCU Measurement EnhancementsSoft Channel CapacityIMSI-based Handover (IBHO)CS Statistics EnhancementsDrop Call Breakdown ObservationGPRS ResumeBSC Integrated SMLC CapacitySingle Antenna Interference Cancellation (SAIC)Inter-BSC NACCMultipoint Gb InterfaceDual Transfer Mode (DTM)Extended Dynamic Allocation (EDA)Multipoint A interfaceA5/3 CipheringExtended Cell for GPRS/EDGEPacket Control Unit (PCU2) PoolingTCSM3iBSC3i 1000/2000Packet Data Optimisation PackageWeighted TSL allocation countersTRAU Bicasting in AMR FR/HR HandoverVolume Based LLC Throughput Counters
Paging Coordination in BSCAMR Progressive Power ControlCell Downtime MonitoringEnd to End Downlink Abis Performance MonitorRLC/MAC Block Counter EnhancementSIGTRANMarket Expansion ToolkitRobust AMR SignallingEnergy Saving Mode for BCCH TRXWideband AMR2G TRX Automatic Power DownNew Counters for Handover MeasurementInter System NACCConnection Error Handling EnhancementsTTY Call Monitoring CounterEnhancement for Lb InterfacePCU2 HW EvolutionFlexi BSCIntegrated IP card for BSC and TCSMSDCCH and PS Data Channels on DFCA TRXStatistics for SigtranData and Signaling TBF Failure CountersEnergy Optimised TCH AllocationDownlink Dual CarrierSupport of Flexi PWE Counters105km Extended Cell for GPRS/EDGEAbis Delay Measurement (TDM, PWE3)Long Reach TSL (2G BTS)105km Extended Cell CSOSC Half Rate with SAIC MSOSC Support For VAMOS Handsets8K TRAU FOR OSC AMR FRLocal Switching For Packet AbisPrecise PagingA over IPDLDC Territory ProceduresInter System NACC for LTEDFCA Support For OSCTRX Specific Link Adaptation for DLDCPacket Abis over TDMPacket Abis over IP/EthernetImproved AMR packing and unpackingFlexible MCPA TX Power PoolingISHO acceleration via Iur-gmcBSCOSC Full Rate with SAIC MSAQPSK Support With VAMOS2 HandsetsOSC Capability Test For HandsetsTD-SCDMA Incoming HO SupportA over IP, Transcoder in MGW
Circuit Switched Dynamic Abis PoolPacket Abis delay measurementSmart Resource AdaptationInstant QoS Signaling Enhanced Packet SchedulerAdmission Control For EGPRSHalf RateGSM Tracing, initialEnhanced Trunk ReservationDistance Checking in Resource AllocationFACCH Call Setup due to SDCCH CongestionIntelligent Underlay-Overlay ImprovementsTarget Cell Identifier Checking in External HandoverExtended Cell RangeCall Trace EnhancementsEnhanced Full Rate Codec (ETSI)C/I Ratio StatisticsMS Speed DetectionHandover EnhancementsRadio Channel Allocation EnhancementsTRX Level Performance StatisticsHigh Speed Circuit Switched Data (HSCSD)Soft CapacityEnhanced Rapid Field DropDynamic SDCCH AllocationMeasurement ImprovementsObservation ImprovementsCCCH ImprovementsDirect Access to Super Re-use TRX in IUOHandover Support for ICEInter Super-Reused Layer HandoverET Downtime StatisticsCall Success FactorsDirect Access to Desired Layer/BandPETS Transmission OperabilityTrace Window for Dropped CallsAdvanced Multilayer HandlingRuntime diagnostics and BTS alarmsMobile Station Capability IndicationChannel Finder MeasurementInterfrequency hard-handover from Femto cell to macro cellIdle mode mobility between Femto cell and 2G and 3G cellsDedicated mode handover from Femto cell to 3G cellsNumber of supported connectionsNumber of camped usersConversational or speech CS RAB with UL and DL 12.2kbpsConversational/speech CS RAB UL/DL 12.2, 7.95, 5.9 and 4.75kbpsConversational or unknown CS RAB with UL and DL 64kbpsInteractive or background PS RAB with UL and DL 64kbpsInteractive or background PS RAB with UL and DL 128kbps
Interactive or background PS RAB with UL 64kbps and DL 384kbpsConversational/speech CS RAB UL/DL 12.65, 8.85 and 6.6kbpsCS RAB UL/DL 12.2kbps + I/B PS RAB UL/DL 64kbpsCS RAB UL/DL 12.2kbps + I/B PS RAB UL/DL 128 kbpsCS RAB UL/DL 12.2kbps + I/B PS RAB UL/DL 384 kbpsHSDPA 3.6Mbps 5 codes, combined with UL 64, 128 and 384kbpsHSDPA 7.2Mbps 10 codes, combined with UL 64,128,384kbpsCS RAB UL/DL 12.2kbps, PS RAB UL 64,128,384kbps and DL HSDPAHSUPA 1.4Mbps serviceCS RAB UL/DL 12.2kbps, PS RAB with UL HSUPA and DL HSDPAStandalone SRB with UL and DL 3.4kbpsDedicated mode handover from Femto cell to 2G cellsNumber of authorized usersFemto gateway connectivity of 20k CPEsFemto gateway capacity of 200 Mbps CS and 200 Mbps PS throughputPS streaming and PS interactive/background, with/without AMRStandalone SRB with UL and DL 13.6kbpsFemto gateway capacity of 50k simultaneous connectionsFemto gateway capacity of 10k simultaneous AMR12.2 callsRoaming between Femto system and GSM/UMTS networks Technology Development featureCommon application SW adaptation for FSM-r3 - Base servicesRNC PM FT: Available ResourcesRNC PM FT: Connection QualityRNC PM FT: RNC External SignalingRNC PM FT: MobilityRNC PM FT: Resource UsageRAB modificationHandover between Satellite System and I-HSPAI-HSPA CS Service Enabling Hand OverRole switch during Inter Adapter HOPaging for terminals in URA_PCH stateI-BTS sharingI-HSPA support for two frequency layers / six cellsUE Based A-GPS Using External Reference Network enhancementFast HSPA call set upRel 99 PS data support in downlink rxPowerScaling not support in radio modul hot insert CAC solution for Monsho 11B-003Minor Corrections in Inc 22Medusa single mode support for LTETechnical Log and Memory DumpRF sharing WCDMA-LTE Support for legacy MHAS1/X2 data path management EPS bearers for conversational voice Outer loop link adaptation for PDCCH3GPP baseline R10 06/2011 feature4th OBSAI Interface support for WMPFlexi Lite BTS 750
Robust header compression Synchronization via GPS connected RRH/RFM for BTS hotelingTraffic prioritization on Ethernet layerRate cappingTraffic prioritization on IP layer (Diffserv)VLAN based traffic separationLTE Timing over PacketTraffic shaping (UL)Ethernet OAMTransport admission controlRadio Network Configuration via RROMLTE Software ManagementLTE Hardware ManagementLTE OAM Transport Layer Security (TLS) SupportAutonomous LTE eNB OperabilityLTE Feature ManagementNTP clock time synchronizationHistory Buffer and MAC TTI TraceSubscriber and Equipment TraceSubscriber and Equipment Trace (vendor specific extensions)LTE System MaintenanceEmergency call handlingOpen loop UL power control and DL power setting Closed loop UL power control S1, X2 and RRC common signalingLink adaptation by AMC (UL/DL) Multi-Operator Core NetworkPDCP, RLC & MAC supportDRX in RRC connected mode Automatic interface alarm correlationSupport of 64 QAM in DL DL power boosting for control channelsCell Outage DetectionBasic Cell Trace adaptationsNetwork Assisted Cell Change to GSM SW support for RF sharing GSM-LTEFair scheduler (UL/DL) MME capacity value changeLTE Timing Advance EvaluationIntegrated CESoPSNExtended DRX settingsDNS support for certificate examinationSPID selective mobility profilesAutomated Neighbor Relation support for LTE with OAM extensionBeamforming - Operability & Configuration supportSupport of QCI 2, 3 and 4Smart admission controlC-plane exception handlingLTE505 Transport Separation for RAN sharingOperator specific QCI
S1 partial reset Multi-Layer Certificate AuthoritiesMobility Robustness ARP based admission control for E-RABsIntra-LTE handover via S1Dual Stream beamforming Converter for OBSAI and CPRI interfacesInter-frequency handover Radio parameter online changeableInter RAT handover to WCDMACSFB to UTRAN or GSM via redirectIMS emergency sessionsTransport network measurementFSMr3b: O&M feature support - Recovery adaptationBidirectional Forwarding DetectionFSMr3b: RP3-01 operation modePerformance Management add. features from RL10ToP resiliencyDistributed SiteUsage based PDCCH adaptationInterference aware UL schedulingFSMr3: Startup for 2 antenna configurationIMS emergency sessions for FWA R8 UEs Configurable cell trace contentQoS aware Ethernet SwitchingPerformance Monitoring I LTE Configuration ManagementLTE Configuration Management 1/2Configuration of Vendor Specific ParametersLTE Software ManagementLTE Fault ManagementLTE transport protocol stack on IPv4Configurable MTU sizeLTE Certificate ManagementLTE User Account ManagementLTE Local User Account ManagementSupport of cell based location serviceLTE IPsec Support for control and user planeLTE Interface Trace Support LTE Interface Trace Support Trace message format enhancement of the LTE 690 for RL20/RL15TDLTE Firewall SupportSupport of multiple EPS bearerDownlink adaptive open loop MIMO for two antennasDownlink adaptive closed loop MIMO for two antennasTransport Sub-module FTIBSynchronization from PDH interfaceRL D1 Capacity and DimensioningRRC Connection Re-establishment CS fallback to UTRAN
Link adaptation for PDCCH Additional User Plane Measurements for DoCoMo L3 algorithmsSystem Module Fault Management in DoCoMo architectureDammari diagnosis off BBAdvanced target cell selection and HO retry for intra- freq HOSupport of aperiodic CQI reports Basic Performance Counter Collection II ANR Fully UE basedPM Counter Collection IIIInterference Mitigation by Reduced UL Bandwidth, PUCCH BlankingPerformance Counter Plus Package for Handover I Performance Counter Histogram Package I GPS SynchronisationTransport sub-module FTLBPerf Counter Plus Package for Res Utilization and Throughput I Performance Counter Plus Package for Transport IIncreased uplink MCS rangeFast IP rerouting (Transport Path Protection)SRVCC to WCDMARelationship Model GERAN changes in eNBDifferent IP addresses for U/C/M-planeSystem Upgrade with Backward Compatibility - FDD - conversionTiming over Packet with Phase Synchronization for TDDService differentiationFSMr3b: L3 call support - Feature porting to FSM-R3RF chainingDSP StatisticsGSM -WCDMA Inter System HandoverWCDMA - GSM Inter System HandoverTransmission capacity sharing with Fractional E1/JT1RAN overload protectionFast Moving UE in HCSBlind HandoverNokia UltraSite WCDMA BTS Supreme IndoorRNC Site SolutionRAN Procedures for the idle MSsRAN - MS Connection EstablishmentManagement of the Connected Mode MSRAN Radio Access Bearer ServicesMS Location Management with Handover proceduresRadio Link Allocation for Real-Time Radio Access BearersLayer 2 for the Real-Time Radio Access BearersMacro Diversity Combining and SplittingPacket Data Transfer StatesLayer 2 for the Non-Real-Time Radio Access BearersTransport Channels and physical channelsTransport Channel coding and multiplexingSpreading and modulationEncryption and integrity protectionBTS Logical Resource Management
Packet data handling on IuRadio Network PlanningHandover Control algorithm Power Control AlgorithmLoad Control AlgorithmAdmission Control AlgorithmResource Manager AlgorithmPacket Scheduler AlgoritmsJT1 Physical InterfaceSTM-1 Physical Interface (Japan)STM-0 Physical Interface (Japan)E1 Physical InterfaceSTM-1 Physical InterfaceSynchronising WCDMA RANATM based Iub/IurATM-based IuUse of GSM TransmissionRadio Network StatisticsNokia UltraSite WCDMA BTS Optima Compact2G-3G ISHO: Multi RAB (AMR + PS 64/64)3G-2G ISHO: Multi RAB (AMR + PS 64/64)Inter Frequency HHOTransmission capacity sharing with Fractional E1/JT1BTS Flexbus interfaceRNC STM-0/VC-3 interfaceRNC STM-1/3xVC-3 interfaceRNC STM-1/VC-4 interfaceMSP Protection for RNC STM-0 and STM-1Nokia UltraSite WCDMA BTS Optima IndoorNokia MetroSite WCDMA BTSTriple-Mode Nokia UltraSite EDGE BTS Indoor and OutdoorNokia UltraSite WCDMA BTS Supreme OutdoorTransmission capacity sharing with Unstructured CESBTS AAL2 Multiplexing FunctionEfficient ATM capacity sharing using Circuit EmulationBaseband Extension for Flexi WCDMA BTSStreaming QoS for HSPAStreaming QoS for HSPAHSPA Layering for UEs in Common ChannelsHSPA Layering for UEs in Common Channels16 kbit/s Return Channel DCH Data Rate Support for HSDPAHigh Capacity System ModuleHSDPA 48 users per cellShared HSDPA Scheduler for Baseband EfficiencyRNC196 step6 and step7 capacity upgradesFlexi WCDMA BTS Baseband Capacity EnhancementDirect Resource AllocationHybrid BTS BackhaulEthernet+E1/T1/JT1 Interface Unit (Iub User Plane) for FlexiBTS3GPP TS 32.403 Related Counter Additions for RAN
AXC ATM Interface Oversubscription HSDPA Resumption TimerUBR+ for Iub User PlaneTransport Bearer TuningEthernet+E1/T1/JT1 Interface Unit (Iub User Plane) for AXCDynamic scheduling for HSDPA with Path selectionDynamic Scheduling for NRT DCH with Path SelectionCell Throughput Measurements in BTSIntegrated ATM FunctionalityHSDPA Congestion ControlSimultaneous AMR voice and PS dataConversational CS 64 kbps (video call)Conversational AMR 12.2 kbps (voice service)Streaming CS Data 14.4 & 57.6 kbpsInteractive & background PS data 8 & 16 kbps uplink&downlink Interactive & background PS data 32 & 64 kbps uplink&downlink Interactive & background PS data 128 kbps uplink Interactive & background PS data 128 kbps downlink Interactive & background PS data 384 kbps uplinkInteractive & background PS data 384 kbps downlink Paging Channel State (Cell_PCH)Counters for RAB and DCH Setups and Failure CasesExtended cell 180 kmAlternative AAL2 Routing for Iu-csSeparate Counters for RelocationsComplementary Counters in RAS05.1Iu-PS Throughput Measurement for GTP TrafficEmergency Call Redirect to GSMEmergency Call ISHO Initiation Logic ChangeWireless Priority ServiceUTRAN-GAN InterworkingLCS Support in Drift RNCLCS Support in Drift RNCRNC450SAS-Centric IupcSAS-Centric IupcPre-Aggregation of RCPM Data in RNCCPICH Ec/No Difference Counters per Cell PairInteractive & Background PS Data 256 kbps Uplink&DownlinkDetected Set Reporting and MeasurementsDetected Set Reporting and MeasurementsUBR+ for Control Plane and Iu/Iur User PlaneRNC2600SW License Key Controlled RNC CapacityI&B PS data PackageFractional DPCHFractional DPCHLatency Statistics for UE PositioningHSDPA Dynamic Power AllocationHSPA over Iur
HSPA over IurFast Call Setup from Cell_PCH StateMBMS BroadcastMBMS Broadcast with High CapacityMBMS Broadcast Data 128 kbpsMBMS Broadcast Data 256 kbpsMBMS LayeringService Area BroadcastMBMS Soft CombiningSpectral Efficient Link Adaptation for HSDPAHHO Signal Strength CountersHSDPA 10.1 MbpsIub Transport QoS Timing over Packet for BTS Application SWHSDPA 14 Mbps3GPP IubQoS Aware HSPA Scheduling Generic RAKE for HSPA baseband efficiency final implementation 4-way RX diversityHSPA pre-emptionInter-System Handover CancellationRAN1275 Inter-System Handover CancellationHSDPA Inter-frequency HandoverPDC 20424 RTT improvement (Autonomous RTT measurement)LCS Periodical ReportingLCS Periodical ReportingHSDPA 14.4 Mbps per CellHSUPA Interference Cancellation ReceiverHSUPA Interference Cancellation ReceiverRAB QueuingPosition Information in Subscriber Trace ReportPosition Information in Subscriber Trace ReportChannel Element Utilization in WBTS Robust Header Compression - RFC3095Support for Tandem/Transcoder Free Operations (TFO & TrFO)Simultaneous Support of AMR Speech and 384 kbps Packet DataSupport of Paging over Iur in DRNCLoad and Service Based IS/IF HandoverLoad and Service Based IS/IF HandoverBusy Hour Modification for AMR ModeDedicated NRT Traffic CapacityHSDPA 3GPP TS32.405 Required CountersHSDPA 3GPP TS32.405 Required CountersDual Iub for FlexiBTS WCDMA BTSInternal Improvements for WN6.0RNC196Power BalancingHSDPA 64 users per cellHSUPA 60 users per BTSRRC Connection Setup Redirection
HSUPA 2 ms TTI RAB Bit Rate CountersBTS SDH interface protection using standard MSPNumber of supported HS-DSCH users in RNC196 and RNC450HSPA Inter-RNC Cell ChangeHSPA Capability Based HOComplementary Counters in RU10 Coverage Counters and ParametersCoverage Counters and ParametersDual Iub for Ultrasite WCDMA BTSIP Based Iub for Ultra WCDMA BTSHigh Speed Cell_FACH DLHigh Speed Cell_FACH DLFlexible RLC (DL)Flexible RLC (DL)MIMO 28 MbpsHSDPA 64QAM Continuous Packet Connectivity Continuous Packet ConnectivityHSUPA 16QAM Inter-System PS HandoverHSUPA Inter-frequency HandoverHSUPA Inter-frequency HandoverEnhanced UltraSite Base Band (EUBB)RRM and Telecom Agreed Corrections and AdditionsHSPA 72 Users Per CellHSPA 72 Users Per CellCS Voice Over HSPACS Voice Over HSPAAXCF unit for UltraSite WCDMA BTSTransport Sub-module FTFB for Flexi WCDMA BTSFlexi WCDMA Integrated CESoPSNBTS Synchronous EthernetVLAN Traffic DifferentiationEthernet QoS monitoring in BTSRRC Re-establishment for Real Time ServicesRRC Re-establishment for Real Time ServicesIP SecurityBTS Firewall24 External Alarm interface for Flexi WCDMA BTSMultiple BSIC IdentificationMultiple BSIC IdentificationDirect Resource Allocation for HSPADirect Resource Allocation for HSPAOBSAI Interface SupportQOS aware Ethernet SwitchingRF Sharing in WCDMA-GSMCommon Channel SetupCommon Channel SetupTransport Sub-module FTLB for Flexi Multimode BTS
Internal Improvements for WN7.0BTS Licensing - Logical Target ID for Flexi BTSBTS Licensing - Configuration and Alarm enhancementsEnd-user experienced DL Throughput IP over ML-PPP on E1/T1 InterfacesDynamic Routing for the IubEthernet OAMRF chainingEfficient Transport for small IP packetsAutomatic Definition of Neighbouring CellsOperability and Performance Monitoring Agreed CorrectionsRadio Connection Performance MeasurementsIP Transport Network MeasurementsDC-HSUPA 23 MbpsDual-Cell HSDPA 42MbpsDual-Cell HSDPA 42MbpsDC-HSDPA with MIMO 84Mbps DC-HSDPA with MIMO 84MbpsUE DRX in Cell_FACHHigh Speed Cell_PCHFlexible RLC in ULFlexible RLC in ULMIMO 42MbpsMIMO 42MbpsHigh Speed Cell_FACHHigh Speed Cell_FACHI-HSPA CS Service Enabling Hand Over Service Area BroadcastOnline Monitoring EnhancementsRNC Sonet OC-3c InterfaceLCS - Cell Coverage Based (RTT) with Geographical CoordinatesDouble Code Channel Capacity (WSPC)Streaming Packet Switched Quality of ServiceIMSI Based HandoverIMSI Based HandoverAXC ATM Performance MonitoringDirected RRC Connection SetupDirected RRC Connection SetupPacket scheduler DCH timer for low troughput usersService Differentiation and Iu CS Throughput CountersOptimized Iub AAL2 reservations for Common channelsCN Overload HandlingOSPF for Iu-PS RedundancyRAB Statistics EnhancementsInter-RNC Intra-Frequency Hard HandoverRRC Connection re-establishmentHSDPA parameterisationPaging OptimizationsConversion of a BTS to I-BTSLTE Interworking
LTE InterworkingSynchronous Ethernet RegeneratorSupport for certificate revocationEnhancing RCPM by DL Power MeasurementBandwidth utilization classes counters for VC and bundleBandwidth utilization classes counters for IP2X Rake and Centralized TX CoreFlexi WCDMA Software Download Capability for AntennaLine DevicesRNC2600 Cositing with Multicontroller RNCHSUPA Preemption LightFlexi BTS Gigabit Baseband HSPA 128 users per cell HSPA 128 users per cellAutomatic Licence Distribution to Flexi BTS Layering in RRC Connection ReleaseFast DormancyFast DormancyI-HSPA CS Voice EnablerRapid Spanning Tree (RSTP) in BTSFlexi Medium Area BTSClimate Control System for Flexi MA BTSCompensated CQI measurementState Transition CountersState Transition CountersMulti-Band Load BalancingMulti-Band Load BalancingLTE PS HandoverLTE PS HandoverTiming over Packet ResilienceUE Based A-GPS Using External Reference NetworkATM VP/VC traffic measurement Operability and PMO Agreed Corrections and Additions RU30IP Transport Network Measurement Initiated from RNC and I-BTSFlexi Multimode System Modules FSMF and FSMGFlexi System Module Release3 Ext support for WCDMA FSM3 + FSM3 Flexi Multimode System Modules FSMF and FSMG RecoveryLegacy module support for WCDMA FSM1 + FSM3 Legacy module support for WCDMA FSM3 + FSM1Legacy RF module support for WCDMA - Rel1.x RFsMulti-Layer Certificate AuthoritiesBlind IFHO in RAB Setup PhaseBlind IFHO in RAB Setup PhaseTransport Sub-module FTIF Eth+E1/T1/JT1 Sub-ModuleCPICH Ec/No Coverage Measurement and OptimizationFlexiPacket Radio Power plus Ethernet feature (P+E)HSDPA Channel SwitchingHSDPA Transport with Best Effort AAL2 QoS Flexi BTS DHCP extensions for GPON/FTTH RNC ERM / Relocation load from adaptersRNC ERM / Relocation load from adapters
Extended BTS site capacityExtended BTS Site Capacity SM2-SM2 up to 24 CellsSystem Module ChainingDynamic scheduling for NRT-DCH with Path selectionInter Circle RoamingSRVCC from LTE and CSFB with HOSystem upgrade to RU40HSDPA Flow ControlFast Dormancy ProfilingHSDPA RRC State HandlingHSUPA TTI switching 2ms to 10ms based on throughputInter Circle Roaming for HSDPARFMs connection to master SMBaseband Load MonitoringRCPM performance monitoring for I-HSPASmart LTE LayeringHSPA Multi NRT RABsHSDPA Dynamic Resource AllocationDynamic HSDPA Transport SchedulingEmergency HandoverEnhanced Priority Based Scheduling and NRT Overload ControlThroughput Based Optimisation of the Packet Scheduler AlgorithmSRNS RelocationMultiRAB: AMR + 3 PS dataMultiRAB: CS data + PS dataDSP StatisticsLoad Based AMR Codec Mode SelectionLoad Based AMR Codec Mode SelectionMetroSite50Support for 100000 RRC Connected Mode UEs in RNCUS-WCDMA 1900MHzPS Conversational QoS for HSPAMultiple Read Sessions for BTS EMIP Based Iub for Flexi WCDMA BTSIP Based Iu-CSIP Based Iu-PSPath SelectionIP Based IurSupport for 60000 RRC Connected Mode UEs in RNCBasic HSDPA with QPSK and 5 CodesHSDPA 16 QAM supportHSDPA Shared Control Channel Power ControlRNC Ethernet Physical InterfaceLimited anchoring supportAAL2 Resource Reservation Statistics Point-to-Point Iu-pc InterfaceHSDPA with Additional RAB InitiationHSDPA Resource AllocationHSDPA 10 CodesBasic HSUPA
HSDPA with Simultaneous AMR Voice CallHSDPA with Simultaneous AMR Voice CallHSDPA Serving Cell ChangeHSDPA Soft/softer Handover for Associated DPCHWideband AMR Codec Set (12.65, 8.85, 6.6)Wideband AMR Codec Set (12.65, 8.85, 6.6)PS UE States: URA PCHHSDPA 16 Users per CellHSDPA Proportional Fair Packet SchedulerHSDPA 15 CodesHSDPA Code MultiplexingCell Throughput Measurements in RNCHSPA Load and Capability Based IFHOHSDPA BTS Packet SchedulerNetwork Based A-GPS Using External Reference NetworkBroadcast of A-GPS Assistance DataBroadcast of A-GPS Assistance DataRAN885 Remote BTS SCF Management for Flexi/Ultra/MetroSite BTSsNokia Flexi WCDMA BTSFlexi WCDMA BTS 1900Flexi WCDMA BTS 900Flexi WCDMA BTS 850Selective NRT DCH Data Rate SetDirected RetryPS RAB ReconfigurationHSUPA with Simultaneous AMR Voice CallOptimized Iub AAL2 Reservations for SRBsRedundant Static Routes at Iu-PSPower Saving Mode for BTSPower Saving Mode for BTSBTS Channel Element Capacity MeasuringHSUPA BTS Packet SchedulerHSUPA HandoversHSUPA Downlink Physical Channel Power Control HSUPA Transport SolutionHSUPA Basic RRMHSUPA with Simultaneous AMR Voice CallHSUPA 2.0 MbpsHSUPA 5.8 Mbps for Flexi WCDMA BTS HSDPA 10 CodesHSUPA Congestion Control3GPP R6 BaselineFlexi WCDMA BTS 1700/2100Packet Abis For Installed BaseBL-PWS TRX Blocked For Power Save CounterCiphering Mode Usage CountersSDCCH Drop Counters due to Clear Request(E)GPRS DL Power Control IS-NCCR for TD-SCDMAInter-System NCCR for LTE
Multipoint A MeasurementTCH Assignment Failure due to T3107 expiry in phase 3 counter High Speed Rail HOIPv6 User LayerPriority Based QoSStreaming QoSCompressionSMS SupportGPRS Mobility ManagementGPRS Session ManagementChargingStatisticsMultipoint GbRIM Procedure SupportQoSSecurity Enhancements for User ManagementSGSN Overload ControlTCP/IP OptimisationServer Based PrePaidGb over IPReal-time traffic QoS prioritisationIPv6 Header CompressionCamel 3Large Routing Area Support, (LRAS)640k subscriber capacity to 2G SGSNAPN dedicated prepaidQoS control for roaming subscribersCDR backup on discThroughput Statistics EnhancementsMulti Operator Core Network (MOCN)Multipoint IuDirect TunnelDetach TimerHLR based 2G/3G access controlRAN PM SyVe: Services and Control Plane ConnectionsTrial LTE Configuration ManagementLTE Configuration Management 1/2Autonomous Flexi LTE BTS OperabilityGPS SynchronisationWCDMA Application layer ThroughputPrepaid (online) chargingE911 emergency call with location informationWM0175HotliningCentralised User Information ManagementCentralized Licence ManagementLocal Licence ManagementMIMO 2x2 DL SWExtended fibre length for Remote RF headWM0569
WM0624WM0626WM0628field report of routing componentTCP/IP measurementEnhancements to Circuit-Switched Data Traffic StatisticsLAPD measurementSS7 statistics measurementIN Protocol MeasurementsSMS MeasurementInter-PLMN handover support in MSC&HLRVLR Capacity Improvements and Telemetric SubscribersUMTS security in MSC/VLRNationally restricted roamingInter System handover and UMTS Changes in MSCData calls in MSC ServerTraffic MeasurementStatistics of Mobility management for UMTS subscribersMegaco interface measurementTrFO and TFOMSS Statistics EnhancementsSequential Alerting for MultiSIM serviceCall re-establishmentSupport of Optimum Routing for basic call casesParallel Alerting for MultiSIMCalling Name PresentationTraffic measurement for IP/ATM backboneRoute measurementPre-pagingSuper Charger in HLRCDR MeasurementSIP ServicesPaging enhancementNVS StatisticsTraffic Control in VLRHLR Front EndMAP and CAP measurements enhancementsSIP measurementWireless Priority Service for UMTSMulti-Operator Core NetworkAdditional Traffic MeasurementsPre-page and PRN retry in HLRVLR backup solutionBack End interface of datafull DX 200 HLRiMSC Server - IP RealmsMultiSIM without HLRCS Fallback in EPS for MSC ServerTraffic Measurement per BSC/RNCLong Term Evolution (LTE) in DX HLRI-HSPA Support in MSC Server
Capacity License Utilization MeasurementFast Track Voice in NVSSupport of IP-SM-Gateway in MSSMSC Server SRVCC functionalityMaintenance supervisionAC MeasurementsEIR MeasurementsCompletion of Calls to busy subscribers (CCBS)LAN measurementSONET/SDH/STM measurementM3UA statisticsCommon Trunk Network MaintenceA-Interface Priority Control and eMLPPSignalling Specific Clear CodeMAP StatisticsHandover measurementVLR measurementHLR MeasurementCircuit Group MeasurementCell MeasurementControl Unit MeasurementTraffic ObservationDirectional MeasurementsAnnouncement measurementPerformance management: Load observationField reportingTraffic category measurementSupport of Interaction with SGSN in MSC/VLRLTE IPsec Support for control and user planeEcho Cancellation and Speech Enhancement in MGWLicence handling and connection capacity in MGWFax and CS data call detection in MGWCore Network Node Selection in MGW IP Connection Admission ControlH248 Load Balancing in MGWRound Trip TimeCall Setup Time - MOC for Idle modeCall Setup Time - MTC for Idle modeCall Setup Time - Standby modeHandover Break Time - Control PlaneHandover Break Time - User PlaneConnection quality - Connection-oriented; User ExperienceConnection quality - Connectionless; MOSUE Battery Consumption - DTX excludedUE Battery Consumption - DTX includedCall Setup Success Rate - MOC for Idle modeCall Setup Success Rate - MTC for Idle modeCall Setup Success Rate - Standby modeCall Success Rate - Full Network releaseCall Success Rate - Data Connection release only
.Traffic prioritization on Ethernet layerRadio Resource Management and Telecom Traffic prioritization on IP layer (Diffserv)VLAN based traffic separationLTE Timing over PacketTraffic shaping (UL)Ethernet OAMTransport Feature.LTE Software ManagementLTE Hardware ManagementLTE OAM Transport Layer Security (TLS) Support..NTP clock time synchronization....Radio Resource Management and Telecom....*.Radio Resource Management and Telecom ...Network Monitoring and Maintenance. Radio Resource Management and Telecom....Transport FeatureRadio Resource Management and Telecom DNS support for certificate examinationRadio Resource Management and Telecom ..FB11.09...Radio Resource Management and Telecom
.Multi-Layer Certificate AuthoritiesConfiguration Management FB11.10Radio Resource Management and Telecom FB11.05.Radio Resource Management and Telecom .FB11.03Radio Resource Management and TelecomRadio Resource Management and Telecom Transport Feature.Bidirectional Forwarding Detection.LTE Performance ManagementTransport Feature.FB11.03Radio Resource Management and Telecom.Radio Resource Management and Telecom .QoS aware Ethernet Switching.LTE Configuration Management..LTE Software Management.LTE transport protocol stack on IPv4Configurable MTU sizeLTE Certificate ManagementLTE User Account ManagementLTE Local User Account ManagementFB11.03LTE IPsec Support for control and user plane...LTE Firewall Support..Downlink adaptive closed loop MIMO for two antennasTransport Sub-module FTIBSynchronization from PDH interface.Radio Resource Management and Telecom FB11.07
.Additional User Plane Measurements for DoCoMo L3 algorithms.. ...FB11.03FB11.06....Transport sub-module FTLB.Performance Counter Plus Package for Transport I Radio Resource Management and Telecom Transport FeatureFB11.07Relationship Model GERAN changes in eNBDifferent IP addresses for U/C/M-plane.Transport Feature.*.Counter FeatureRadio Resource Management FeatureRadio Resource Management FeatureTransport FunctionalityTelecom FunctionalityRadio Resource Management FeatureRadio Resource Management FeatureBTS Site SolutionRNC Site SolutionTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom FunctionalityTelecom Functionality
Telecom FunctionalityRadio Resource Management AlgoritmRadio Resource Management AlgoritmRadio Resource Management AlgoritmRadio Resource Management AlgoritmRadio Resource Management AlgoritmRadio Resource Management AlgoritmRadio Resource Management AlgoritmTransport FunctionalityTransport FunctionalityTransport FunctionalityTransport FunctionalityTransport FunctionalityTransport FunctionalityTransport FunctionalityTransport FunctionalityTransport FunctionalityCounter FeatureBTS Site SolutionRadio Resource Management FeatureRadio Resource Management FeatureRadio Resource Management FeatureTransport FeatureTransport InterfaceTransport InterfaceTransport InterfaceTransport InterfaceTransport FeatureBTS Site SolutionBTS Site SolutionBTS Site SolutionBTS Site SolutionTransport FeatureTransport FeatureTransport FeatureBTS Site SolutionHSPA Service.HSPA Feature.HSDPA FeatureBTS Site SolutionHSPA FeatureHSDPA FeatureRNC Site SolutionBTS Site SolutionRadio Resource Management FeatureTransport FeatureBTS Site SolutionCounter Feature
HSPA FeatureCounter FeatureTransport FeatureRNC Site SolutionHSPA FeatureHSPA FeatureCounter FeatureCounter Feature.Dual Iub for Ultrasite WCDMA BTSTransport Feature..Telecom Feature.Radio Resource Management FeatureHSPA FeatureTelecom Feature.HSPA FeatureRadio Resource Management Feature..BTS Site SolutionTelecom FeatureHSPA Feature.RAN Service.AXCF unit for UltraSite WCDMA BTSTransport Sub-module FTFB for Flexi WCDMA BTSFlexi WCDMA Integrated CESoPSNBTS Synchronous EthernetTransport FeatureTransport FeatureTelecom Feature.IP SecurityBTS Site Solution.Radio Resource Management Feature.HSPA Feature..QOS aware Ethernet SwitchingMedusaTelecom Feature.Transport Sub-module FTLB for Flexi Multimode BTS
Internal Improvements for WN7.0..End-user experienced DL Throughput IP over ML-PPP on E1/T1 InterfacesDynamic Routing for the IubEthernet OAM.Efficient Transport for small IP packetsCounter FeatureCounter FeatureCounter FeatureIP Transport Network MeasurementsDC-HSUPA 23 Mbps HSDPA Feature.DC-HSDPA with MIMO 84Mbps ..........Telecom FeatureOnline SFSTransport InterfaceTelecom FunctionalityBTS Site SolutionRAN ServiceRadio Resource Management Feature.Counter FeatureTelecom Feature.Radio Resource Management FeatureCounter FeatureTelecom FeatureTelecom FeatureTelecom FeatureCounter FeatureRadio Resource Management FeatureTelecom FeatureHSPA Radio Resource Management.Conversion of a BTS to I_BTS.
Flexi WCDMA BTS Site Solutions and Features..Transport Feature..*HSDPA Telecom Functionality.HSDPA Telecom Functionality......HSPA ServiceHSPA Radio Resource ManagementHSDPA Transport featureRadio Resource Management FeatureRadio Resource Management FeatureRadio Resource Management FeatureTelecom FunctionalityRAN ServiceRAN ServiceCounter FeatureRadio Resource Management Feature.BTS Site SolutionRNC Site SolutionTelecom Functionality.nsport FeatureTransport FeatureTransport FeatureTransport FeatureTransport FeatureTransport FeatureRNC Site SolutionHSDPA Telecom FunctionalityHSDPA FeatureHSDPA Telecom FunctionalityRNC Site SolutionTelecom FeatureCounter FeatureTelecom FeatureHSPA ServiceHSDPA FunctionalityHSDPA FeatureHSPA Radio Resource Management
HSDPA Feature.HSDPA FunctionalityHSDPA FeatureRAN Service.Telecom FeatureHSDPA FeatureHSDPA FeatureHSDPA featureHSDPA featureCounter FeatureHSPA FeatureHSPA Radio Resource ManagementTelecom FeatureTelecom Feature..BTS Site SolutionBTS Site SolutionBTS Site SolutionBTS Site SolutionRadio Resource Management FeatureTelecom FeatureTelecom Feature.Transport FeatureTransport FeatureRadio Resource Management Feature.Counter FeatureHSPA Radio Resource ManagementHSPA FeatureHSPA FeatureTransport FeatureHSPA Radio Resource ManagementHSPA ServiceHSPA FeatureHSPA FeatureHSPA FeatureHSPA FeatureTelecom FeatureBTS Site Solution-------
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.-................LTE IPsec Support for control and user plane......DelaysDelaysDelaysDelaysDelaysDelaysQuality and UsageQuality and UsageQuality and UsageQuality and UsageServicesServicesServicesServicesServices
NAME001 - Traffic PI Group002 - Resource Availability CuDo PI Group002 - Resource Availability PI Group003 - Resource Access PI Group004 - Handover PI Group005 - Power Control PI Group006 - Load PI Group007 - Availability PI Group008 - OSI/X.25 PI Group013 - Undefined Adjacent Cell CuDo013 - Undefined Adjacent Cell PI Group014 - RX Quality Statistics CuDo014 - RX Quality Statistics PI Group015 - Handover Adjacent Cell CuDo015 - Handover Adjacent Cell PI Group016 - SDCCH Observation PI Group017 - TCH Observation PI Group018 - Internal Handover Observation CuDo018 - Internal Handover Observation PI Group019 - Incoming Handover Observation CuDo019 - Incoming Handover Observation PI Group020 - Outgoing Handover Observation CuDo020 - Outgoing Handover Observation PI Group021 - Radio Measurement Reports CuDo021 - Radio Measurement Reports PI Group022 - Clear Code Observation PI Group024 - Dropped Call Observation CuDo024 - Dropped Call Observation PI Group025 - TBF Observation for GPRS Trace CuDo025 - TBF Observation for GPRS Trace PI Group027 - GPRS Cell Reselection Report PI Group028 - GPRS RX Level and Quality Report CuDo028 - GPRS RX Level and Quality Report PI Group029 - Drop Call Breakdown Observation PI Group030 - Position Based Services Observation PI Group050 - BSC Level Clear Code PI Group051 - BSC Level Clear Code (PM) CuDo051 - BSC Level Clear Code (PM) PI Group052 - Underlay-Overlay Statistics CuDo052 - Underlay-Overlay Statistics PI Group053 - RX Level Statistics CuDo053 - RX Level Statistics PI Group054 - Link Balance on per MS Classmark CuDo054 - Link Balance on per MS Classmark PI Group055 - Timing Advance Statistics CuDo055 - Timing Advance Statistics PI Group056 - Resource Availability per BSC PI Group057 - BSC Level Clear Code (SERLEV) PI Group058 - MS Speed Detection PI Group
059 - Dual Band PI Group060 - C/I Ratio PI Group061 - Hot Spot CuDo061 - Hot Spot PI Group062 - DMR PI Group063 - DN2 PI Group064 - TRU/BIE PI Group065 - ET BSC PI Group066 - ET TCSM PI Group067 - High Speed Data PI Group068 - Transmission Equipment PI Group069 - Selective Transmission Equipment PI Group070 - Channel Finder CuDo070 - Channel Finder PI Group071 - MS Capability Indication CuDo071 - MS Capability Indication PI Group072 - Packet Control Unit PI Group073 - RLC Blocks per TRX PI Group074 - Frame Relay CuDo074 - Frame Relay PI Group075 - Defined Adjacent Cell CuDo075 - Defined Adjacent Cell PI Group076 - Dynamic Abis PI Group077 - Frame Erasure Rate CuDo077 - Frame Erasure Rate PI Group078 - Position Basic Service PI Group079 - Coding Scheme PI Group089 - Reversed Hunting PI Group090 - Quality of Service PI Group091 - PBCCH Availability PI Group092 - Non-BCCH Layer Offset CuDo092 - Non-BCCH Layer Offset PI Group093 - UTRAN Handover Adjacent Cell CuDo093 - UTRAN Handover Adjacent Cell PI Group094 - UTRAN Neighbouring Cell Signal Level CuDo094 - UTRAN Neighbouring Cell Signal Level PI Group095 - GPRS Cell Reselection PI Group096 - GPRS RX Level and Quality CuDo096 - GPRS RX Level and Quality PI Group097 - Enhanced Quality of Service PI Group098 - GB over IP PI Group099 - Total FEP CuDo099 - Total FEP PI Group100 - DFCA CuDo100 - DFCA PI Group101 - DFCA Assignment CuDo101 - DFCA Assignment PI Group102 - BSC-BSC PI Group103 - WPS PI Group104 - IMSI Based Handover CuDo
104 - IMSI Based Handover PI Group105 - PS DTM PI Group106 - CS DTM PI Group107 - AMR RX Quality CuDo107 - AMR RX Quality PI Group108 - DFCA SAIC CuDo108 - DFCA SAIC PI Group109 - Soft Channel Capacity PI Group110 - PCU Utilization PI Group111 - AMR PPC CuDo111 - AMR PPC PI Group112 - AMR Signalling PI Group113 - Power Saving PI Group114 - Pseudo Wire BSC PI Group115 - Ethernet BSC PI Group116 - Pseudo Wire TCSM PI Group117 - Ethernet TCSM PI Group118 - Pseudo Wire Tunnel BTS PI Group119 - TRE Ethernet PI Group120 - Abis Delay PI Group121 - Circuit-switched Dynamic Abis Pool122 - OSC RX Quality 123 - Packet Abis BTS124 - Packet Abis Traffic 125 - Packet Abis SCTP 126 - Packet Abis Delay 127 - Packet Abis Congestion Control 128 - ETP Ethernet BSC 129 - ETP Ethernet TCSM 130 - AoIP Traffic BSC 131 - AoIP Traffic TCSM 132 - BCF Group Traffic PI Group133 - Ethernet mcTC 134 - Ethernet mcBSC135 - Precise RX Level Measurement135 - Precise RX Level Measurement CuDo136 - Precise Timing Advance Measurement136 - Precise Timing Advance Measurement CuDo137 - Precise Power Level Measurement137 - Precise Power Level Measurement CuDo138 - Adjacent Cell RX Level Measurement138 - Adjacent Cell RX Level Measurement CuDo139 - Air Path Loss Measurement139 - Air Path Loss Measurement CuDo140 - GSM_R PI Group141 - Multipoint A Measurement226 - Abis D-channel PI Group513 - STM-1 Interface PI Group516 - SONET/SDH Protection Group PI Group661 - M3UA Association Set PI Group
A-GPS Server interface countersA-GPS position calculationsAAL2 Path CAC resourceAAL2 Scheduling Performance in RNCAAL2 handling internal CAC resourceAAL2 resource reservationAAL2 signalling at NNIAAL2 signalling protocol at NNIAAL2 signalling protocol at UNIAAL5 protocol measurement in ChorusAAL5 protocol measurement in DMXADDF Performance MeasurementAMR FR quality AMR HR quality AMR target ATM Interface MeasurementATM Interface specific TC measurementATM Route Load measurementATM VC connection measurementATM VP connection measurementATM based Iu measurementsATM based Iub/Iur measurementsATM layer performance measurementAXC - IFUC unitAXC - AXCF unitAXC - IFUA unitAXC - IFUD unitAXC - IFUE unitAXC - IFUF unitAXC - IFUH unitAXC AAL2 countersAXC AAL5 countersAXC ATM countersAXC AXUA-CIF - unitAXC AXUB - unitAXC IFUA-IMA - unitAXC IFUD-IMA - unitAXC IFUE-IMA - unitAXC IFUF-IMA - unitAXC IMA countersAXC PDH countersAXC SDH countersAXCC/D - unitAXCC/D-IMA - unitAcoustic Echo Cancellation measurementActive UE ProfileActive UE per CellActive UE per PLMN-IDActive UE per eNBActive UEs per QCI
Active users with buffered dataAdapter role switch signallingAllocations for CS Voice Calls (AMR)Allocations for CS Voice Calls (AMR), DRNCAllocations for compressed modeAllocations for compressed modeAllocations for data calls, DRNCAllocations for signalling linksAllocations for signalling linksAnnouncement MeasurementAnnouncement Measurement in Open MGWAvailability performance measurementAverage downlink BLER from Quality measurementsAverage downlink BLER from Quality measurementsBCH TransmissionsBICC IP Bearer Control Protocol MeasurementBID Protocol MeasurementBLERBLER First TransmissionBSC Intra-cell handover BSC incomingBSC internal intra-cell handoverBSC outgoing BSC primary inter-cell or external handoverBSC secondary inter-cell and external handoverBSS Internal Handover BSSAP Protocol MeasurementBSSGPBTS CS over HSPA channel element capacity measurementBTS CS over HSPA channel element utilizationBTS Channel Element UtilizationBTS HSPA amount of user utilization ratioBTS HSPA channel element utilizationBTS HSUPA CE capacityBTS HSUPA resource statusBTS HSUPA resource statusBTS MBMS CE capacityBTS R99 channel element capacity measurementBTS R99 channel element utilizationBTS R99 channel element utilization ratioBTS channel element capacity measurementBTS channel element utilizationBearer Bit Error Ratio (BER) based signal qualityBlade Level DSP Load MeasurementBroadcast of A-GPS Assistance DataCCE usageCDSCDS_ASSO_INDEXCDS_ASSO_SETNAME
CDS_CALLTYPECDS_PCM_TSLCDS_PGICDS_SETCDS_TCP_IP_STACKCDS_UNITCDS_UNIT_PIU_INTERFACECDS_UNIT_PIU_INTERFACE_TRANSDIRCGI reportsCPC activity ratioCPC efficiencyCPICH Ec/No and RSCPCPICH Ec/No distributionCPICH EcNo distributionCPICH EcNo in RRC Connection RequestCPICH EcNo in RRC Connection RequestCPICH RSCP in RRC Connection RequestCPICH RSCP in RRC Connection RequestCQI OffsetCQI measurementCRC times and error CS Fallback attemptsCS Voice HSPA frame countersCS Voice HSPA frame countersCS Voice over HSPACS Voice over HSPACS Voice over HSPA Iub delayCS Voice over HSPA Iub delayCS Voice over HSPA jitterCS Voice over HSPA jitterCS service enabling and UE capability based handoverCS service enabling and UE capability based inter-system handoverCapacity Licence Utilization MeasurementCapacity Licence Utilization Measurement in Open MGWCell Throughput in CCHCell Throughput in E-DCHCell Throughput in HS-DSCHCell availabilityCell availabilityCell availabilityCell throughputCell throughput in EFACHCell throughput in MC HSDPAChannel assigned DFCA SAIC C/I Channel element usageChannel type selectionChannel type switch and layeringChannel type switchingCircuit groupCircuit-switched inter-system hard handover/Iu release request (Iu)/Iu release request for inter-system HHO relocation (by Source RNC)
Circuit-switched inter-system hard handover/Iu release request (Iu)/Iu release request for inter-system HHO relocation (by target RNC)Circuit-switched inter-system hard handover/Relocation Cancellation (by source RNC) (Iu)Circuit-switched inter-system hard handover/Relocation commit (Iur)/Relocation commit (by source RNC) (Iur)Circuit-switched inter-system hard handover/Relocation commit (Iur)/Relocation commit (by target RNC) (Iur)Circuit-switched inter-system hard handover/Relocation commit (Iur)/Relocation preparation (by source RNC) (Iu)/Inter-system hard handover relocation attemptsCircuit-switched inter-system hard handover/Relocation commit (Iur)/Relocation preparation (by source RNC) (Iu)/Inter-system hard handover successful relocation preparations (Iu)Circuit-switched inter-system hard handover/Relocation commit (Iur)/Relocation preparation (by source RNC) (Iu)/Inter-system hard handover unsuccessful relocation preparations (Iu)Circuit-switched inter-system hard handover/Relocation complete (by Target RNC) (Iu)Circuit-switched inter-system hard handover/Relocation resource allocation (by target RNC) (Iu)/Inter-system hard handover relocation attemptsCircuit-switched inter-system hard handover/Relocation resource allocation (by target RNC) (Iu)/Inter-system hard handover successful relocation preparations (Iu)Circuit-switched inter-system hard handover/Relocation resource allocation (by target RNC) (Iu)/Inter-system hard handover unsuccessful relocation preparations (Iu)Code occupancyCommon BCCH ControlCommon Channel LoadCommon EDCH resourcesCommon hard handover attempt counters for RT trafficCommon hard handover failure counters for NRT trafficCommon hard handover failure counters for RT trafficCommon hard handover successful counters for RT trafficCommon measurementsCompensated CQI for MIMO DSCompensated CQI measurementCompressed mode allocationsConnection MeasurementConnection Measurement in Open MGW Context requests and data forwardingControl data throughput in EFACHDC-HSDPA MIMO TTI specific user countingDC-HSDPA MIMO user amountDC-HSDPA TTI specific user countingDC-HSDPA user amountDC-HSUPA User AmountDCH allocationsDCH allocations for CS Data CallsDCH allocations for PS CallsDCH reconfiguration failuresDCH request for CS Data CallsDCH request for PS CallsDCH setup failures for CS calls in SRNCDCH setup failures for PS calls in SRNCDCH setup failures in DRNCDCH user plane initial allocation successfulDCH user plane initial requestsDCH user plane upgrade requestsDCH user plane upgrade successfulDL DTCH delayDL HARQ Total size of transmissionDL HARQ responseDL HARQ transmission attempts before acknowledgementDL MAC PDUs
DL PDCP and RLC buffersDL PDCP and RLC buffersDL PDCP and RLC buffersDL PRB UtilisationDL PRB Utilisation HistogramDL PRB allocationsDL PRB usageDL RLC D-PDUsDL RLC PDU discardsDL RLC PDU discardsDL RLC PDU discardsDL RLC PDU throughputDL RLC PDU throughputDL RLC PDU throughputDL RLC PDU transmission qualityDL RLC PDU transmission qualityDL RLC PDU transmission qualityDL RLC PDU transmissionsDL RLC PDU transmissionsDL RLC PDU transmissionsDL RLC SDU transfer delayDL RLC SDU transfer delayDL RLC SDU transfer delayDL RLC SDU transmissionsDL RLC SDU transmissionsDL RLC SDU transmissionsDL RLC SDUsDL TTI usageDL measurementsDL transport block transmissionDL-SCH Transmission sizeDL-SCH TransmissionsDSP Load measurementDSP Resource Utilization in NE levelDSP Service Measurement in Open MGWDSP Service Statistics measurementDSP performance in RNCDSP performance in MGWDSP state changesDTMDTXDTX measurementData Call MeasurementData Radio BearerData volumeDedicated measurementsDedicated measurementsDedicated preambleDiscarded MAC-hs PDUsDisturbances
Downlink Dual Carrier Downlink Frame Protocol data frames in HS-DSCHDownlink power controlDownlink power controlDownlink power measurementsDownlink radio link powerDownlink radio link powerDownlink radio link powerDual Transfer Mode E-DCH TTI efficiencyE-DCH allocations and releasesE-DCH counters / E-DCH allocation releases for PS callE-DCH counters / E-DCH allocations for PS callE-DCH counters / E-DCH in DRNCE-DCH counters / E-DCH setup failuresE-DCH serving cell changesE-RABEFACH user amountEGPRS EPS Bearer ReleaseEPS Bearer SetupEcho Cancellation measurementError Handling Procedures/Error IndicationEstimated usage of BTS channel elementsEthernet interfaceEthernet interface measurementExtended Cell for GPRS/EDGE Extended Dynamic Allocation External IP Connection Admission ControlExternal IP Connection Admission Control for IP Based RouteFP level data frame volume from IUB-interfaceFP level data frame volume to IUB-interfaceFSMr-3Failed HO preparations to WCDMAFast Dormancy ProfilingFlexiBTS FIIB unitFlexiBTS FILB unitFlexiBTS FSIB unitFlexiBTS FSM unitFlexiBTS FTEB unitFlexiBTS FTFA unitFlexiBTS FTFB unitFlexiBTS FTHA unitFlexiBTS FTIA unitFlexiBTS FTIB unitFlexiBTS FTIF unitFlexiBTS FTJA unitFlexiBTS FTLA unitFlexiBTS FTLB unitFlexiBTS FTOA unit
FlexiBTS FTPB unitFlexiLite FQBA unitFlexiLite FQGA unitFractional load in BTSFrame Protocol data frames error rates in DL channelsFrame Protocol data throughput in MBMS FACH_mtchFrame Relay protocol Frame errorsFull Rate AMR codec modesGPRSGTP protocol messagesGTP tunnelsH.223 and H.245 Protocol measurementH.248 MeasurementHLRHLR_ASSO_INDEXHLR_ASSO_SETNAMEHLR_PGIHLR_SETHLR_TCP_IP_STACKHLR_UNITHLR_UNIT_PIU_INTERFACEHLR_UNIT_PIU_INTERFACE_TRANSDIRHLR_UNIT_TICKETSERVHO adjacent identification HO attempts and completions to WCDMA HO in DRX modeHS-DSCH MAC-d flow setupHS-DSCH MAC-d flow setup at IubHS-DSCH and Rel99 DCH return channel allocations and releasesHS-DSCH counters / Direct Resource Allocation for HSPAHS-DSCH counters / HS-DSCH allocation releasesHS-DSCH counters / HS-DSCH allocations for PS callHS-DSCH counters / HS-DSCH in DRNC HS-DSCH counters / HS-DSCH requests for PS callHS-DSCH counters / HS-DSCH setup failures for PS callHS-DSCH serving cell changes/Failed or prevented serving cell changesHS-DSCH serving cell changes/Started serving cell changesHS-DSCH serving cell changes/Successful serving cell changesHS-SCCH powerHSDPA TTI efficiencyHSDPA buffer utilisationHSDPA code multiplexingHSDPA congestion control in IubHSDPA power in BTSHSDPA user amountHSDPA user measurementsHSPA Capability Based HandoverHSPA Inter-RNC hard handoverHSPA Load Based Inter-System Handover
HSPA channel type selectionHSPA inter-frequency handoverHSPA inter-frequency handoverHSPA layeringHSPA power measurementsHSPA serving cell changeHSPA session durationHSPA statisticsHSPA user amount per traffic classHSPA user amount per traffic classHSPA user plane durationHSPA users per WBTSHSUPA AG usageHSUPA Cell LoadHSUPA Cell Load distributionHSUPA DL Physical Channel powerHSUPA E-DCH powerHSUPA Iub congestion controlHSUPA RG usageHSUPA RG usageHSUPA TTI specific user countingHSUPA TTI switchHSUPA Throughput distributionHSUPA UE SIR distributionHSUPA bit rateHSUPA congestion controlHSUPA decoding capabilityHSUPA reduction factorHSUPA resource situationHSUPA throughputHSUPA transport channel durationHSUPA user amountHSUPA user measurementsHalf Rate AMR codec modesHandover PreparationsHandover causeHandover otherHandover spareHappy bit ratioHigh Speed Cell FACH measuringIMA logical interfaceIP Based Route measurementIP QoS measurementIP measurement on IP interfaceIUO direct access to super-reuse TRXIUO handoverIUO identificationIUO other IUO resource availabilityIUO super-reuse frequency usability
IUO trafficIncoming handovers and relocations/Inter-RNC inter-frequency hard handoverIncoming handovers and relocations/Inter-RNC intra-frequency hard handoverIncoming handovers and relocations/Inter-system hard handoverIncoming handovers and relocations/SRNS relocationIncoming relocations and hard handoversIncoming relocations and hard handovers/Common counters for incoming relocation and HHOInitial Context SetupInter PLMN Handover , incomingInter PLMN Handover , outgoingInter RAT HO attemptInter RAT HO cancelInter RAT HO failureInter RAT HO per NB attemptInter RAT HO per NB cancelInter RAT HO per NB failureInter RAT HO per NB successInter RAT HO preparationInter RAT HO preparation failureInter RAT HO successInter System HO attemptInter System HO failureInter System HO preparationInter System HO preparation failureInter System HO successInter System HO to GSM per NB attemptInter System HO to GSM per NB failureInter System HO to GSM per NB preparationInter System HO to GSM per NB preparation failureInter System HO to GSM per NB successInter System HO to UTRAN per NB attemptInter System HO to UTRAN per NB failureInter System HO to UTRAN per NB preparationInter System HO to UTRAN per NB preparation failureInter System HO to UTRAN per NB successInter eNB HO per NB attemptInter eNB HO per NB cancelInter eNB HO per NB dropsInter eNB HO per NB failureInter eNB HO per NB preparation failureInter eNB HO per NB successInter eNB Handover AttemptsInter eNB Handover CancellationsInter eNB Handover DropsInter eNB Handover FailuresInter eNB Handover Preparation FailuresInter eNB Handover PreparationsInter eNB Handover SuccessInter frequency type (FRT) underlay-overlay handoverInter-RNC hard handover/Forward SRNS Context (Iu)/Forward SRNS Context (by Source RNC) (Iu)
Inter-RNC hard handover/Forward SRNS Context (Iu)/Forward SRNS Context (by Target RNC) (Iu)Inter-RNC hard handover/Iu release request (Iu)/Iu release request for inter-RNC HHO relocation (by source RNC)Inter-RNC hard handover/Iu release request (Iu)/Iu release request for inter-RNC HHO relocation (by target RNC)Inter-RNC hard handover/Relocation cancel (by source RNC) (Iu)Inter-RNC hard handover/Relocation commit (Iur)/Relocation commit (by source RNC) (Iur)Inter-RNC hard handover/Relocation commit (Iur)/Relocation commit (by target RNC) (Iur)Inter-RNC hard handover/Relocation complete (by target RNC) (Iu)Inter-RNC hard handover/Relocation detect (by target RNC) (Iu)Inter-RNC hard handover/Relocation preparation (by source RNC) (Iu)/Inter-RNC hard handover relocation attemptsInter-RNC hard handover/Relocation preparation (by source RNC) (Iu)/Inter-RNC hard handover successful relocation preparations (Iu)Inter-RNC hard handover/Relocation preparation (by source RNC) (Iu)/Inter-RNC hard handover unsuccessful relocation preparations (Iu)Inter-RNC hard handover/Relocation resource allocation (by target RNC) (Iu)/Inter-RNC hard handover relocation attemptsInter-RNC hard handover/Relocation resource allocation (by target RNC) (Iu)/Inter-RNC hard handover successful relocation preparations (IU)Inter-RNC hard handover/Relocation resource allocation (by target RNC) (Iu)/Inter-RNC hard handover unsuccessful relocation preparations (Iu)Inter-System HandoverInter-adapter HSPA handoverInter-frequency HOInter-frequency hard handover for NRT trafficInter-frequency hard handover for RT trafficInter-system handoverInter-system handover cancellationInter-system handover cancellationInter-system handover for NRT trafficInter-system handover for RT trafficInter-system handover/Incoming relocation preparationInter-system handover/Iu release request during incoming relocationInter-system handover/Outgoing relocation cancellationInter-system handover/Outgoing relocation preparationInterferenceIntra eNB HO per NB attemptIntra eNB HO per NB cancelIntra eNB HO per NB dropsIntra eNB HO per NB failureIntra eNB HO per NB preparation failureIntra eNB HO per NB successIntra eNB Handover AttemptsIntra eNB Handover CancellationsIntra eNB Handover DropsIntra eNB Handover FailuresIntra eNB Handover Preparation FailuresIntra eNB Handover PreparationsIntra eNB Handover SuccessIntra-segment handoverIu interface availabilityIu interface availabilityIu-PC interface countersIu-PS Performance MeasurementIu-PS interface countersIu-PS throughputIur interface availability
Iur interface availabilityIur user plane throughputIur user plane throughputJitter Measurement for IP Based RouteL2 resource allocationsLCS Periodical ReportingLTE handoverLTE handover/Incoming CS handover from LTELTE handover/Incoming PS handover from LTELTE_FTLALTE_FTLBLink AdaptationLoad based AMR codec mode selectionLoad based AMR codec mode selection thresholdsLoad based AMR codec mode selection thresholdsLocation calculationsLocation calculations based on cell ID/RTT methodLocation calculations using UE based A-GPS methodLocation calculations using network based A-GPS methodLocation related data requestsLocation related data requestsLocation requestsLocation requestsLocation services latencyLocation services latency/Latency for emergency requestsLocation services latency/Latency of A-GPS methodLocation services latency/Latency of CI+RTT methodLocation services latency/Latency of Emergency ISHOLocation services latency/Total latencyM3UA Association Set MeasurementMAC LoadMAC ThroughputMAC data volumeMAC-D PDU dataMAC-D PDU data for MC HSDPAMAC-D PDUsMAC-D throughputMAC-E Data Volume per SPIMAC-HS Data Volume per SPIMAC-HS PDU retransmission distributionMAC-e PDU failureMAC-e PDU lossMAC-e PDU transmissionMAC-ehs PDUMAC-ehs PDU by 64QAMMAC-hs TTI efficiency measurementMBMS Soft CombiningMBMS session managementMBMS session usageMCS usage on PDSCH
MCS usage on PUSCHMCU load measurementMIMOMIMO TTI amountMIMO dual stream CQI distributionMIMO user amountMME_UNITMSCMSC _TCATMSC incomingMSC outgoingMSC_AIURMSC_ANNMSC_ASSO_INDEXMSC_ASSO_SETNAMEMSC_BSCMMSC_CALLTYPEMSC_CCMSC_CGR_CGRNAMEMSC_CGR_CGRNAME_CGRDIRMSC_CGR_CGRNAME_DESTTYPE_DESTMSC_CODECMSC_DESTMSC_DESTTYPE_DEST_DESTDIRMSC_DEST_ALT_ATTRNAME_DTYPE_DID_DMODEMSC_DEST_CCMSC_DEST_SUBDEST_ROUTEMSC_D_CHMSC_FNURMSC_INDESTTYPE_INDEST_OUTDESTTYPE_OUTDESTMSC_INSERVICEMSC_LAC_CIMSC_MGWMNAME_TERMMSC_MGWMNAME_UPDMSC_PCM_TSLMSC_PGIMSC_PROTOCOL_CCMSC_PROTOCOL_CGR_CCMSC_PROTOCOL_FQDN_CCMSC_PROTOCOL_MCCM_MNCM_RNCM_CCMSC_PROTOCOL_SNET_SPC_CCMSC_RNCM_MNCM_MCCMMSC_SERVICEMSC_SETMSC_SMSCMMSC_TCP_IP_STACKMSC_UMTSAIURMSC_UMTSFNURMSC_UNITMSC_UNIT(ET_INDEX)
MSC_UNITTYPE(ET_TYPE)MSC_UNIT_PIU_INTERFACEMSC_UNIT_PIU_INTERFACE_TRANSDIRMSC_UNIT_TICKETSERVMSC_UPDMSC_UPD_DESTTYPE_DESTMSC_VMSCMTCH establishmentMTCH radio resource allocationsMTCH usageMTP Signalling link availabilityMTP Signalling link set and route set availabilityMTP Signalling traffic report of signalling pointsMTP Signalling traffic report of user partsMTP matrix signalling trafficMTP signalling link performanceMTP signalling link utilizationMTP signalling point statusMeasurement Procedures/Assistance Data DeliveryMeasurement Procedures/Measurement ReportingMeasurement controlMeasuring Dedicated NRT capacityMeasuring LRT and LNRT estimationsMeasuring Ptx_RT and Ptx_NRT estimationsMeasuring the BTS HW ResourcesMeasuring the RACH channelMeasuring the Radio Link ReportsMeasuring the SCCPCH channelMeasuring the code treeMeasuring the code tree / Measuring HSDPA code downgradesMeasuring the code tree / Measuring HSDPA code usageMeasuring the code tree / Measuring code requestsMeasuring the code tree/Measuring code blockingMeasuring the code tree/Measuring code occupancyMedium Access Control Most interfered connection DFCA SAIC C/I Multi BCF ControlMulti Party Call MeasurementMulti RAB/RAB accessMulti RAB/RAB active completionsMulti RAB/RAB active failuresMulti RAB/RAB setupMulti-RAB countersMulti-band load balancing handoverMulti-band load balancing handoverMultipoint GbNBAP Radio Link proceduresNBAP common procedures/Block Resource ProceduresNBAP common procedures/Common Measurement ProceduresNBAP common procedures/Forced handover/HO requests
NBAP common procedures/Forced handover/HO responsesNBAP common procedures/Information Exchange Procedures/Information Exchange Failure IndicationNBAP common procedures/Information Exchange Procedures/Information Exchange InitiationNBAP common procedures/Information Exchange Procedures/Information Exchange ReportNBAP common procedures/Information Exchange Procedures/Information Exchange TerminationNBAP common procedures/Radio link setup/Radio link setup attemptsNBAP common procedures/Radio link setup/Radio link setup failures (3GPP NBAP)NBAP common procedures/Radio link setup/Radio link setup failures (Nokia NBAP)NBAP common procedures/Radio link setup/Radio link setup successesNBAP common procedures/Reset ProceduresNBAP dedicated procedures/ Radio Link RestorationNBAP dedicated procedures/Compressed mode command procedureNBAP dedicated procedures/Dedicated Measurement Procedures/Dedicated Measurement Failure IndicationNBAP dedicated procedures/Dedicated Measurement Procedures/Dedicated Measurement InitiationNBAP dedicated procedures/Dedicated Measurement Procedures/Dedicated Measurement ReportingNBAP dedicated procedures/Dedicated Measurement Procedures/Dedicated Measurement TerminationNBAP dedicated procedures/Downlink Power ControlNBAP dedicated procedures/Radio link addition/Radio link addition attemptsNBAP dedicated procedures/Radio link addition/Radio link addition failures (3GPP NBAP)NBAP dedicated procedures/Radio link addition/Radio link addition failures (Nokia NBAP)NBAP dedicated procedures/Radio link addition/Radio link addition successesNBAP dedicated procedures/Radio link deletion/Radio link deletion responses on DRNC sideNBAP dedicated procedures/Radio link deletion/Radio link deletion responses on SRNC sideNBAP dedicated procedures/Radio link deletion/Radio link deletions (3GPP NBAP)NBAP dedicated procedures/Radio link deletion/Radio link deletions on DRNC sideNBAP dedicated procedures/Radio link deletion/Radio link deletions on SRNC sideNBAP dedicated procedures/Radio link failure/Radio link failures on DRNC side (3GPP NBAP)NBAP dedicated procedures/Radio link failure/Radio link failures on DRNC side (Nokia NBAP)NBAP dedicated procedures/Radio link failure/Radio link failures on SRNC side (3GPP NBAP)NBAP dedicated procedures/Radio link failure/Radio link failures on SRNC side (Nokia NBAP)NBAP dedicated procedures/Synchronised radio link reconfiguration/Radio link reconfiguration failures (3GPP NBAP)NBAP dedicated procedures/Synchronised radio link reconfiguration/Radio link reconfiguration failures (synchronised) (Nokia NBAP)NBAP dedicated procedures/Synchronised radio link reconfiguration/Radio link reconfiguration preparations (synchronised)NBAP dedicated procedures/Synchronised radio link reconfiguration/Radio link reconfiguration preparations ready (synchronised)NBAP dedicated procedures/Synchronised radio link reconfiguration/Synchronised radio link reconfiguration cancellationNBAP dedicated procedures/Synchronised radio link reconfiguration/Synchronised radio link reconfiguration cancellation (3GPP NBAP)NBAP dedicated procedures/Synchronised radio link reconfiguration/Synchronised radio link reconfiguration commitNBAP global proceduresNE Level DSP Load MeasurementNRI Routing measurementNRT traffic: Common inter-system handover failuresNRT traffic: Common intra-system handover failuresNRT traffic: Inter-frequency measurement counters/Inter-frequency measurements with compressed modeNRT traffic: Inter-frequency measurement counters/Inter-frequency measurements without compressed modeNRT traffic: Inter-system HO counters after positive HO decision / retry due to Multiple BSIC Identification NRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to CPICH Ec/NoNRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to CPICH RSCPNRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to DL DPCH powerNRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to Immediate IMSI-basedNRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to UE Trx Power
NRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to UL DCH qualityNRT traffic: Inter-system measurement counters/Inter-system measurements with compressed modeNRT traffic: Inter-system measurement counters/Inter-system measurements without compressed modeNRT traffic: Inter-system measurement counters/Result of inter-system measurements: no cells good enoughNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to DL capa request rejectionsNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to HW or logical resourcesNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to MBMS layeringNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to PrxTotalNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to PtxTotalNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to Service basedNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to UL capa request rejectionsNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to block resourceNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to cell shutdownNRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to lack of spreading codesNRT traffic: inter-frequency HO counters after positive HO decision per type/Inter-RNC inter-frequency handoverNRT traffic: inter-frequency HO counters after positive HO decision per type/Intra-RNC inter-BTS inter-frequency handoverNRT traffic: inter-frequency HO counters after positive HO decision per type/Intra-RNC intra-BTS inter-frequency handoverNRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to CPICH Ec/NoNRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to CPICH RSCPNRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to DL DPCH powerNRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to UE Tx powerNRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to UL DCH qualityNRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to immediate IMSI-basedNRT traffic: inter-frequency measurement counters/Result of inter-frequency measurements: no cells good enoughNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to DL capa request rejectionsNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to HW or logical resourcesNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to PrxTotalNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to PtxTotalNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to Service basedNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to UL capa request rejectionsNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to block resourceNRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to cell shutdown NRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to lack of spreading codesNRT traffic: intra-frequency hard HO counters after positive HO decision/Intra-frequency hard handover due to SHO incapabilityNRT traffic: intra-frequency hard HO reason countersNRT user plane allocation failuresNeighbour cells in inter-system handoversNeighbour cells in inter-system handoversNeighbour cells in intra-system hard handoversNeighbour cells in intra-system hard handoversNeighbour cells in soft handoversNeighbour cells in soft handoversNetwork Service (NS) protocol Noise Suppression MeasurementNon-Serving UPH in BTSNumber of active HSDPA usersNumber of allocated HSDPA usersOperator share configurationOriginal MAC-hs PDU by 16QAMOriginal MAC-hs PDU by QPSK
Other RRC protocol proceduresOverload control measurementPCH TransmissionsPCU Frame HandlerPCU spare PDCCH allocationPDCCH loadPDCCH orderPDCP LoadPDCP QCI counter groupPDCP ThroughputPDCP data volumePDDCH allocated subframes with OFDMPDH Statistics MeasurementPIC in BTSPIC indication in BTSPIC pool cancelled fingers in BTSPIC pool cancelled users in BTSPIC pool sum of different cancelled users in BTSPLMN_MSC_MGWMNAME_NMGWNAMEPLMN_MSC_Physical_MGW_address_Virtual_MGW_Name_categoryPLMN_MSC_Physical_MGW_address_categoryPM call attempt and establishment cause PM failure PM handover PM other PM sparePM success PMGWPRACH Propagation DelayPRACH propagation delayPacket Data Optimisation Package Packet call allocationsPacket call attemptsPacket call channel switchesPacket call releasePacket call releasesPacket call setup attemptsPacket call setup failuresPacket call setup failuresPacket session requestsPacket-switched inter-system hard handover/Forwarding of data on Iu (by source RNC) (Iu)Packet-switched inter-system hard handover/Iu release request/Iu release request for inter-system HHO relocation by source-RNCPacket-switched inter-system hard handover/Iu release request/Iu release request for inter-system hard handoverPacket-switched inter-system hard handover/Relocation Cancellation by source-RNCPacket-switched inter-system hard handover/Relocation completePacket-switched inter-system hard handover/Relocation resource allocation by target RNC/Inter-system hard handover relocation attemptsPacket-switched inter-system hard handover/Relocation resource allocation by target RNC/Inter-system hard handover relocation attemptsPacket-switched inter-system hard handover/Relocation resource allocation by target RNC/Inter-system hard handover successful relocation preparationsPacket-switched inter-system hard handover/Relocation resource allocation by target RNC/Inter-system hard handover successful relocation preparations
Packet-switched inter-system hard handover/Relocation resource allocation by target RNC/Inter-system hard handover unsuccessful relocation preparationsPacket-switched inter-system hard handover/Relocation resource allocation by target RNC/Inter-system hard handover unsuccessful relocation preparationsPacket-switched inter-system hard handover/SRNS context request (by source RNC) (Iu)Packet-switched inter-system hard handover/SRNS context response (by source RNC) (Iu)Packet-switched inter-system hard handover/SRNS data forward command (by source RNC) (Iu)Paging RRCPaging S1Paging S1 to be deletedPaging over IurPhysical channel usagePort Type Capacity LicencePort Type Capacity Licence Measurement in Open MGWProtocol states/Operating time of UE in Packet Data Transfer StatesProtocol states/Packet data state transitionQuality Control RA delayRAB accessRAB access/RAB access completions for CS Data CallRAB access/RAB access completions for CS Voice CallRAB access/RAB access completions for PS CallRAB access/RAB access failures for CS Data CallRAB access/RAB access failures for CS Voice CallRAB access/RAB access failures for PS CallRAB activeRAB active/RAB active completions for CS Data CallRAB active/RAB active completions for CS Voice CallRAB active/RAB active completions for PS CallRAB active/RAB active failures for CS Data CallRAB active/RAB active failures for CS Voice CallRAB active/RAB active failures for PS CallRAB active/RAB active releases for CS Data CallRAB active/RAB active releases for CS Voice CallRAB active/RAB active releases for PS CallRAB active/Reference cell changeRAB holding timeRAB holding times/DCH holding timesRAB holding times/RAB holding time in reference cellRAB holding times/RAB holding timesRAB reconfiguration/RAB reconfiguration attemptsRAB setupRAB setup/PS NRT capacity reservation failureRAB setup/RAB setup attempts for CS CallsRAB setup/RAB setup attempts for CS Data CallsRAB setup/RAB setup attempts for CS Voice CallsRAB setup/RAB setup attempts for PS CallsRAB setup/RAB setup completions for CS Data CallsRAB setup/RAB setup completions for CS Voice CallsRAB setup/RAB setup completions for PS CallsRAB setup/RAB setup failures for CS data callsRAB setup/RAB setup failures for CS voice calls
RAB setup/RAB setup failures for PS callsRAB statisticsRACHRACH SetupRACH decodingRACH preamblesRACH preamblesRAN Radio LoadRAN Radio Load/Physical Channel UtilizationRAN Trace: Active Set CellRAN Trace: BTS Transmission PowerRAN Trace: Capability of Traced UERAN Trace: Cell UpdateRAN Trace: Dedicated Transport ChannelRAN Trace: Downlink AM RLCRAN Trace: Downlink performanceRAN Trace: Inter Frequency MeasurementRAN Trace: Inter Frequency Measurement ControlRAN Trace: Inter System MeasurementRAN Trace: Inter System Measurement ControlRAN Trace: Intra Frequency MeasurementRAN Trace: Intra Frequency Measurement ControlRAN Trace: Radio Access BearerRAN Trace: Radio BearerRAN Trace: Signalling ConnectionRAN Trace: Trace report headerRAN Trace: Traffic VolumeRAN Trace: UE Rx Tx Time differenceRAN Trace: UE Transmission PowerRAN Trace: Uplink PerformanceRANAP Protocol MeasurementRANAP procecures/Subscriber trace controlRANAP proceduresRANAP procedures/Error IndicationRANAP procedures/IU Release CompleteRANAP procedures/IU Release CompleteRANAP procedures/Initial UE messageRANAP procedures/Iu release commandRANAP procedures/Iu release requestRANAP procedures/Location Related DataRANAP procedures/Location Related Data FailureRANAP procedures/Location Related Data RequestRANAP procedures/Location ReportRANAP procedures/Location Reporting ControlRANAP procedures/Overload ControlRANAP procedures/Paging messageRANAP procedures/RAB assignment request/RAB assignment requestsRANAP procedures/RAB assignment request/RAB reconfiguration requestsRANAP procedures/RAB assignment request/RAB release requests by CNRANAP procedures/RAB assignment response/RAB assignment not successful
RANAP procedures/RAB assignment response/RAB assignment successfulRANAP procedures/RAB assignment response/RAB reconfiguration not successfulRANAP procedures/RAB assignment response/RAB reconfiguration successfulRANAP procedures/RAB assignment response/RAB release not successfulRANAP procedures/RAB assignment response/RAB release successfulRANAP procedures/RAB release requestRANAP procedures/ResetRCPM OLPC RNCRCPM OLPC WCELRCPM RLC RNCRCPM RLC WCELRLC C-PDUsRLC LoadRLC ThroughputRLC/MAC Block Counter Enhancement RNC IP CACRNC RTP/RTCPRNC capacity usageRNSAP Basic Mobility Procedures/Downlink Signalling TransferRNSAP Basic Mobility Procedures/PagingRNSAP Basic Mobility Procedures/Uplink Signalling TransferRNSAP DCH procedures / HS-DSCH MAC-d flow setupRNSAP DCH procedures/Compressed Mode CommandRNSAP DCH procedures/Dedicated Measurement FailueRNSAP DCH procedures/Dedicated Measurement InitiationRNSAP DCH procedures/Dedicated Measurement ReportingRNSAP DCH procedures/Dedicated Measurement TerminationRNSAP DCH procedures/Downlink Power ControlRNSAP DCH procedures/Physical Channel ReconfigurationRNSAP DCH procedures/Radio Link Pre-emptionRNSAP DCH procedures/Radio Link Restoration IndicationRNSAP DCH procedures/Radio link addition over Iur/Radio link addition failures for inter-RNC soft handover over IurRNSAP DCH procedures/Radio link addition over Iur/Radio link addition requests for inter-RNC SHO over IurRNSAP DCH procedures/Radio link addition over Iur/Radio link addition successess for inter-RNC SHO over IurRNSAP DCH procedures/Radio link deletions over Iur/Radio link deletion for inter-RNC SHO on DRNC side over IurRNSAP DCH procedures/Radio link deletions over Iur/Radio link deletion for inter-RNC SHO on SRNC side over IurRNSAP DCH procedures/Radio link deletions over Iur/Radio link deletion response to inter-RNC SHO (RL setup) on DRNC side over IurRNSAP DCH procedures/Radio link deletions over Iur/Radio link deletion response to inter-RNC SHO on SRNC side over IurRNSAP DCH procedures/Radio link failures over Iur/Radio link failure for inter-RNC SHO on DRNC side over IurRNSAP DCH procedures/Radio link failures over Iur/Radio link failure for inter-RNC SHO on SRNC side over IurRNSAP DCH procedures/Radio link setup over Iur/Radio link setup failures for inter-RNC SHO over IurRNSAP DCH procedures/Radio link setup over Iur/Radio link setup requests for inter-RNC SHO over IurRNSAP DCH procedures/Radio link setup over Iur/Radio link setup successes for inter-RNC SHO over IurRNSAP DCH procedures/Synchronised radio link reconfiguration over Iur/(Synchronised) radio link reconfiguration commits over IurRNSAP DCH procedures/Synchronised radio link reconfiguration over Iur/Radio link reconfiguration failures (synchronised) over IurRNSAP DCH procedures/Synchronised radio link reconfiguration over Iur/Radio link reconfiguration preparations (synchronised) over IurRNSAP DCH procedures/Synchronised radio link reconfiguration over Iur/Radio link reconfiguration preparations ready (synchronised) over IurRNSAP DCH procedures/Synchronised radio link reconfiguration over Iur/Synchronised radio link reconfiguration cancellations over IurRNSAP DCH procedures/Unsynchronised radio link reconfiguration over Iur/Radio link reconfiguration failures (unsynchronised) over IurRNSAP DCH procedures/Unsynchronised radio link reconfiguration over Iur/Radio link reconfiguration preparations (unsynchronised) over Iur
RNSAP DCH procedures/Unsynchronised radio link reconfiguration over Iur/Radio link reconfiguration preparations ready (unsynchronised) over IurRNSAP Global Procedures/Common Measurement Procedures/Common Measurement Failure IndicationRNSAP Global Procedures/Common Measurement Procedures/Common Measurement InitiationRNSAP Global Procedures/Common Measurement Procedures/Common Measurement ReportRNSAP Global Procedures/Common Measurement Procedures/Common Measurement TerminationRNSAP Global Procedures/Error IndicationRNSAP Global Procedures/Information Exchange Procedures/ Information Exchange Failure IndicationRNSAP Global Procedures/Information Exchange Procedures/ Information Exchange InitiationRNSAP Global Procedures/Information Exchange Procedures/ Information Exchange ReportRNSAP Global Procedures/Information Exchange Procedures/ Information Exchange TerminationRNSAP and RANAP procedures for serving RNS relocation/Forwarding of data on Iur (by Source RNC) (Iur)RNSAP and RANAP procedures for serving RNS relocation/Iu release request (Iu)/Iu release request for SRNS relocation (by source RNC)RNSAP and RANAP procedures for serving RNS relocation/Iu release request (Iu)/Iu release request for SRNS relocation (by target RNC)RNSAP and RANAP procedures for serving RNS relocation/Relocation cancel (by source RNC) (Iu)RNSAP and RANAP procedures for serving RNS relocation/Relocation commit (Iur)/Relocation commit (by source RNC) (Iur)RNSAP and RANAP procedures for serving RNS relocation/Relocation commit (Iur)/Relocation commit (by target RNC) (Iur)RNSAP and RANAP procedures for serving RNS relocation/Relocation complete (by target RNC) (Iu)RNSAP and RANAP procedures for serving RNS relocation/Relocation detect (by target RNC) (Iu)RNSAP and RANAP procedures for serving RNS relocation/Relocation preparation (by source RNC) (Iu)/SRNS relocation attemptsRNSAP and RANAP procedures for serving RNS relocation/Relocation preparation (by source RNC) (Iu)/SRNS successful relocation preparations (Iu)RNSAP and RANAP procedures for serving RNS relocation/Relocation preparation (by source RNC) (Iu)/SRNS unsuccessful relocation preparations (Iu)RNSAP and RANAP procedures for serving RNS relocation/Relocation resource allocation (by target RNC) (Iu)/SRNS relocation attemptsRNSAP and RANAP procedures for serving RNS relocation/Relocation resource allocation (by target RNC) (Iu)/SRNS successful relocation preparations (Iu)RNSAP and RANAP procedures for serving RNS relocation/Relocation resource allocation (by target RNC) (Iu)/SRNS unsuccessful relocation preparations (Iu)RNSAP global proceduresRRCRRC Access/RRC Access CompletionsRRC Access/RRC Access FailuresRRC Access/RRC Access ReleasesRRC Active/RRC Active CompleteRRC Active/RRC Active FailuresRRC Active/RRC Active ReleasesRRC Re-EstablishmentRRC Setup / RRC Setup on CCHRRC Setup Causes/Call Re-establishmentRRC Setup Causes/DetachRRC Setup Causes/Emergency CallRRC Setup Causes/Inter-RAT cell change orderRRC Setup Causes/Inter-RAT cell reselectionRRC Setup Causes/MOC High Priority SignallingRRC Setup Causes/MOC Low Priority SignallingRRC Setup Causes/MTC High Priority SignallingRRC Setup Causes/MTC Low Priority SignallingRRC Setup Causes/Mobile Originating Background Call RRC Setup Causes/Mobile Originating Conversational Call RRC Setup Causes/Mobile Originating Interactive Call RRC Setup Causes/Mobile Originating Streaming Call RRC Setup Causes/Mobile Originating Subscribed Traffic Call RRC Setup Causes/Mobile Terminating Background Call RRC Setup Causes/Mobile Terminating Conversational Call
RT traffic: Common inter-system handover failuresRT traffic: Inter-system HO counters after positive HO decision / retry due to Multiple BSIC Identification RT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to CPICH Ec/NoRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to CPICH RSCPRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to DL DPCH powerRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to Immediate IMSI-basedRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to UE Trx PowerRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to UL DCH qualityRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover due to emergency callRT traffic: Inter-system HO counters after positive HO decision/Inter-system handover with CS/PS separationRT traffic: Inter-system measurement counters/Inter-system measurements with compressed modeRT traffic: Inter-system measurement counters/Inter-system measurements without compressed modeRT traffic: Inter-system measurement counters/Result of inter-system measurements: no cells good enoughRT traffic: common intra-system handover failuresRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to DL capa request rejectionsRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to HW or logical resourcesRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to MBMS layeringRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to PrxTotalRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to PtxTotalRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to Service basedRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to UL capa request rejectionsRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to block resourceRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to cell shutdownRT traffic: inter-frequency HO counters after positive HO decision / Inter-frequency handover due to lack of spreading codesRT traffic: inter-frequency HO counters after positive HO decision per type/Inter-RNC inter-frequency handoverRT traffic: inter-frequency HO counters after positive HO decision per type/Intra-RNC inter-BTS inter-frequency handoverRT traffic: inter-frequency HO counters after positive HO decision per type/Intra-RNC intra-BTS inter-frequency handoverRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to CPICH Ec/NoRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to CPICH RSCPRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to DL DPCH powerRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to UE Tx powerRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to UL DCH qualityRT traffic: inter-frequency HO counters after positive HO decision/Inter-frequency handover due to immediate IMSI-basedRT traffic: inter-frequency measurement counters/Inter-frequency measurements with compressed modeRT traffic: inter-frequency measurement counters/Inter-frequency measurements without compressed modeRT traffic: inter-frequency measurement counters/Result of inter-frequency measurements: no cells good enoughRT traffic: inter-system HO counters after positive HO decision / Directed RetryRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to DL capa request rejectionsRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to HW or logical resourcesRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to PrxTotalRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to PtxTotalRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to Service basedRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to UL capa request rejectionsRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to Wireless Priority ServiceRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to block resourceRT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to cell shutdown RT traffic: inter-system HO counters after positive HO decision / Inter-system handover due to lack of spreading codesRT traffic: inter-system HO counters after positive HO decision / Inter-system handover to GANRT traffic: intra-frequency hard HO cause countersRT traffic: intra-frequency hard HO counters after positive HO decision/Intra-frequency hard handover due to SHO incapability
RTP/RTCP Measurement for IP based RouteRTP/RTCP Protocol MeasurementRTP/RTCP Protocol Measurement in MGWRTP/RTCP Protocol Measurement in Open MGWRadio Bearer ReleaseRadio Channel ManagementRadio Interface Power and Quality/MIMORadio Link ControlRadio bearer control procedures/HS-DSCH Mac-d flow setupRadio bearer control procedures/Physical channel reconfigurationRadio bearer control procedures/Radio bearer reconfigurationRadio bearer control procedures/Radio bearer reconfiguration completeRadio bearer control procedures/Radio bearer releaseRadio bearer control procedures/Radio bearer release completeRadio bearer control procedures/Radio bearer setupRadio bearer control procedures/Radio bearer setup completeRadio bearer control procedures/Radio bearer setup using blind HORadio bearer control procedures/Transport channel reconfigurationRadio bearer control procedures/Transport format combination controlRadio bearer downgrades and releasesRadio bearer downgrades and releases due to congestionRadio bearer downgrades and releases due to throughput based optimisationRadio bearer setup using blind HORadio link configuration for HSPARadio link failures and deletionsRadio link failures and deletions over IurRadio link reconfigurationRadio link reconfiguration over IurRadio link setup and additionRadio link setup and addition over IurRadio link setup timeReceived Rel99 wideband powerReceived Total Wideband PowerRejected SRNS relocationsReliability of Measurement LTE Neighbour cell related HandoverReliability of Measurement LTE Cell Load Reliability of Measurement LTE Cell ResourceReliability of Measurement LTE Cell ThroughputReliability of Measurement LTE EPS BearerReliability of Measurement LTE Inter System HandoverReliability of Measurement LTE Inter System Handover Neighbour CellReliability of Measurement LTE Inter eNB HandoverReliability of Measurement LTE Intra eNB HandoverReliability of Measurement LTE Power and Quality DLReliability of Measurement LTE Power and Quality ULReliability of Measurement LTE RRCReliability of Measurement LTE Radio BearerReliability of Measurement LTE S1APReliability of Measurement LTE Transport LoadReliability of Measurement LTE UE State
Reliability of Measurement LTE eNB LoadRequest for data calls, DRNCRequests for CS Voice CallsRequests for CS Voice Calls, DRNCRequests for compressed modeRequests for compressed modeRequests for signalling links (DRNC)Requests for signalling links (SRNC)Resource allocation timeResource allocation timeRetransmitted MAC-hs PDU by 16QAMRetransmitted MAC-hs PDU by QPSKS1 NAS messagesS1 ResetS1 Reset UE releaseS1 SetupS1APSAAL signalling protocol at UNI measurementSABP procedures/Error IndicationSABP procedures/FailureSABP procedures/KillSABP procedures/Load Status EnquirySABP procedures/Message StatusSABP procedures/ResetSABP procedures/RestartSABP procedures/Write-ReplaceSAIC AMR FR quality SAIC AMR HR quality SAIC C/I target value SAS-Centric Iu-pcSCCP Connection Establishment measurementSCCP local subsystem availabilitySCCP signalling pointSCCP single metersSCCP subsystemSCCPCH enhancement measuringSDCCH attemptsSDCCH failureSDCCH successSDH Performance MeasurementSDH Performance PI GroupSGSNSGSN_ASSO_INDEXSGSN_ASSO_SETNAMESGSN_ATMPRGSGSN_FRIU_SET_ETSGSN_INTERFACE_ID_VPI_VCI SGSN_PGISGSN_PHYTTPSGSN_SET
SGSN_SSIFSGSN_TCP_IP_STACKSGSN_UNITSGSN_UNIT_PIUSGSN_UNIT_PIU_INTERFACESGSN_UNIT_PIU_INTERFACE_TRANSDIRSHO branch setup failures due to transmissionSINR PUCCHSINR PUCCH HistogramSINR PUSCHSINR PUSCH HistogramSONET/SDH Protection Group SRB allocations on HSPASRRSRR_UNITSRR_UNIT(ET_INDEX)SRR_UNITTYPE(ET_TYPE)SRR_UNIT_TICKETSERVSTM-0 interface measurementSTM-1 interface measurementSatellite handoverService level failureService level requestService level spare Service level successServing UPH in BTSSignalling Connection EstablishmentSignalling Radio Bearer SetupSignalling Transcoding MeasurementSignalling link allocationsSingle Antenna Interference CancellationSingle Antenna Interference CancellationSlipsSoft handover counters for HSDPA traffic/Cell additions, deletions, and replacementsSoft handover counters for HSDPA traffic/Rx-Tx time difference measurementsSoft handover counters for HSDPA traffic/SHO durations for soft and softer handoversSoft handover counters for HSDPA traffic/SHO durations per active set sizeSoft handover counters for HSDPA traffic/Success of active set update procedureSoft handover counters for HSPA trafficSoft handover counters for HSUPA traffic/Cell additions to E-DCH active setSoft handover counters for HSUPA traffic/SHO durations for soft and softer handoversSoft handover counters for HSUPA traffic/SHO durations per active set sizeSoft handover counters for NRT trafficSoft handover counters for NRT traffic/Cell additions, deletions, and replacementsSoft handover counters for NRT traffic/Rx-Tx time difference measurementsSoft handover counters for NRT traffic/SHO durations for soft and softer handoversSoft handover counters for NRT traffic/SHO durations per active set sizeSoft handover counters for NRT traffic/Success of active set update procedureSoft handover counters for RT trafficSoft handover counters for RT traffic/Cell additions, deletions, and replacements
Soft handover counters for RT traffic/Rx-Tx time difference measurementsSoft handover counters for RT traffic/SHO durations for soft and softer handoversSoft handover counters for RT traffic/SHO durations per active set sizeSoft handover counters for RT traffic/Success of active set update procedureSoft handover failure cause countersState transitionsSuccessful packet call allocationsSuccessful packet call allocations after Inter-RNC HHOSupported in PCU2 and PCUM Supported in all PCU variantsT.38 Fax Measurement for IP Based RouteTCH assignment to the super-reuse TRX in IUOTCH failureTCH request and attemptTCH successTCP/IP protocol measurementTDM HuntingTRFO and TFO measurementTTI usageText Telephone measurementTraffic Profile MeasurementTraffic Profile Measurement in Open MGWTraffic otherTraffic spareTranscoding Measurement in Open MGWTransfer delay of the MAC-D PDUTransmissionTransmission queueTransmitted Carrier PowerTransmitted Code PowerTransmitted Rel99 wideband powerUDP measurement on IP interfaceUE Power HeadroomUE Power Headroom HistogramUE Reported CQI HistogramUE Reported CQI for MIMO DSUE State TransitionsUE delay distributionUE delay spread distributionUE delta TX PUCCHUE delta TX PUSCHUE involved relocation/HHO commitUE involved relocation/Incoming relocation completionUE involved relocation/Incoming relocation preparationUE involved relocation/Iu release request during incoming relocationUE involved relocation/Iu release request during outgoing relocationUE involved relocation/Outgoing relocation cancellationUE involved relocation/Outgoing relocation preparationUE not-involved relocation/Incoming relocation completionUE not-involved relocation/Incoming relocation preparation
UE not-involved relocation/Iu release request during incoming relocation UE not-involved relocation/Outgoing relocation preparationUE not-involved relocation/Relocation commitUE velocity distributionUE-associated logical S1-connectionUL 16QAM retransmission rateUL 16QAM usageUL AM RLC throughputUL AM RLC throughputUL AM RLC throughputUL DTCH delayUL HARQ Total size of receptionsUL HARQ receptions before acknowledgementUL HARQ responseUL MAC PDUsUL PRB UtilisationUL PRB Utilisation HistogramUL PRB allocationsUL PRB usageUL RLC D-PDUsUL RLC SDUsUL TTI usageUL transport block receptionsUL-SCH ReceptionUL-SCH Reception sizeUMA Converter MeasurementUnit load measurementUplink HARQ retransmissionsUplink HARQ retransmissionsUplink HARQ retransmissionsUplink power measurementsUplink radio connection quality / Average experienced Eb/NoUplink radio connection quality / Average experienced Eb/NoUplink radio connection quality / Average experienced Eb/NoUplink radio connection quality / Uplink bit error rate (BER)Uplink radio connection quality / Uplink bit error rate (BER)Uplink radio connection quality / Uplink bit error rate (BER)Uplink radio connection quality / Uplink block error rate (BLER)Uplink radio connection quality / Uplink block error rate (BLER)Uplink radio connection quality / Uplink block error rate (BLER)User Plane Initialization Measurement in Open MGWUser Plane Initialization measurementUser data throughput in EFACHVolume Based LLC Throughput WBTS BB subunits usageWBTS CE utilizationWBTS HSDPA processing sets utilizationWBTS HSDPA throughputWBTS HSDPA users amountWBTS HSPA capability modification
WBTS HSPA commissioned throughputWBTS HSPA commissioned usersWBTS HSUPA processing sets utilizationWBTS HSUPA throughputWBTS HSUPA users amountWBTS Rel99 CE utilizationWBTS available BB subunitsWBTS licensed hardware capacity utilizationWBTS processing sets license capacityWBTS resetsWBTS subunits usage for HSUPAWCEL operators throughputWCELL state changesX2 Throughput/U-planeX2 data volume per eNBX2APeNB Early HOeNB Early HO per NBeNB Handover for IMS emergency sessionseNB Late HOeNB Late HO per NBeNB delaymcRNC co-siting
Counter M5001C21 #N/A CE Utilization and CapacityCounter M5001C22 #N/A CE Utilization and CapacityCounter M5001C23 #N/A CE Utilization and CapacityCounter M5001C24 #N/A CE Utilization and CapacityCounter M5001C25 #N/A CE Utilization and CapacityCounter M5001C26 #N/A CE Utilization and CapacityCounter M5001C15 #N/A CE Utilization and CapacityCounter M5001C16 #N/A CE Utilization and CapacityCounter M5001C17 #N/A CE Utilization and CapacityCounter M5001C18 #N/A CE Utilization and CapacityCounter M5001C19 #N/A CE Utilization and CapacityCounter M5001C20 #N/A CE Utilization and CapacityCounter M5001C0 #N/A CE Utilization and CapacityCounter M5001C1 #N/A CE Utilization and CapacityCounter M5001C2 #N/A CE Utilization and CapacityCounter M5001C3 #N/A CE Utilization and CapacityCounter M5001C4 #N/A CE Utilization and CapacityCounter M5001C9 #N/A CE Utilization and Capacity