3G Analysis using actix
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Transcript of 3G Analysis using actix
Remark(before analysising)
1. Once you get the log file ,first check if all the route in the cluster has
been covered,ifnot,the log is useless,tell the DT Teams to test again
2. If you are now using the logs for ATP report ,check if the time reached 4
hours.If not, the log is useless,tell the DT Teams to test again
3. When you are analysisingthe Log file ,make sure you have selected the
right Log files,if the log file is not right ,all the KPI you get is useless.
4. In the bracket of the name of each KPI is the services we need the
pictures.If there are many service ,it means all these services’s pictures is
need
5. Some pictures and KPIs are together ,we can finish it at the same time to
save our time.
6. The Threshold and the coloer must be the same as the picture.
7. Combine all the logs if there are many logs with the same service.
Here shows how to Combine:
8. Log name: when you get a log ,the name of it may be very long ,so in the
lengend it will be
very long ,it’s not good to see ,such like follow:
So we need to change the log names like this:
Cluster 6 -short call
Cluster 7 –HSDPA short call
It’s short and easy to see
So please rename the log before analysising(if the log with 2 MS,copy 2
with different names)
★★★Drive Route & Collected Samples(Part 3
in report)
Pictures:
Position:
★★★Belows are picture we need:(Part
5/6 in report)
★★★ Total List ★★★:
Servic
es
Pictures We Need check
Scanne
r
Best Server
RSCP
RSCP-Histogram
RSCP-Graph
EcIo
EcIo Histogram
EcIo-Graph
Long
Call
Best Server
RSCP
RSCP-Histogram
RSCP-Graph
EcIo
EcIo Histogram
EcIo-Graph
TxPower
Pilot Pollution
Active Set Size
Droped Call
Short Best Server
Call-to
Mobile
RSCP
RSCP-Histogram
RSCP-Graph
EcIo
EcIo Histogram
EcIo-Graph
TxPower
Pilot Pollution
Active Set Size
Droped Call
Access Failures
HSDPA
Long
Best Server
RSCP
RSCP-Histogram
RSCP-Graph
EcIo
EcIo Histogram
EcIo-Graph
TxPower
Pilot Pollution
HSDPA Throughput
HSDPA CQI
Droped Call
HSUPA
Long
Best Server
RSCP
RSCP-Histogram
RSCP-Graph
EcIo
EcIo Histogram
EcIo-Graph
TxPower
Pilot Pollution
HSUPA Throughput
Droped Call
R99 PS Best Server
RSCP
RSCP-Histogram
RSCP-Graph
EcIo
EcIo Histogram
EcIo-Graph
Pilot Pollution
R99 Throughput DL
R99 Throughput UL
Access Failures
Droped Call
HS
Short
Access Failures
Short
Call to
PSTN
\
★★★ Example and Notice ★★★
Some other Notice:
1. In the picture, no need to show PSC\NodeB ID\Sector ID, just show the
sites, and the site should be on the front layer.
2. In the picture ,the route should be full-screen,the cluster boundary
\PreDT route should be shown on the map ,don’t show other things.
3. The legend and the color should allow the pictures below.
4. The names of superscream should be like this:
Cluster6-Long Call
Cluster6-Short Call to Mobile
Cluster6-Short Call to PSTN
Cluster6-HSDPA Long
Cluster6-HSUPA Long
Clusetr6-R99
CLuset6-Scanner
Cluster6-HS Short
KPI:Best Server
Snapshot:
Position:
KPI:Best Server(Just for Scanner)
Position:
KPI:RSCP
Snapshot:
Position:
KPI:RSCP -Histogram
Snapshot
Position:
Method : fill the percentage into the Excel(only the GREEN colum) file
which I send to you,and then the graph will appear automaticly。
automati c generate graph for RSCP and ECNO. zi p
-----this Excel file
KPI : RSCP-Graph
Position:
Method : fill the percentage into the Excel(only the GREEN colum) file
which I send to you,and then the graph will appear automaticly。
automati c generate graph for RSCP and ECNO. zi p
-----this Excel file
KPI:RSCP(Just for scanner)
Snapshot:
Position:
KPI:RSCP(Just for scanner)-Histogram
The method as the same as KPI:RSCP-Histogram
KPI:RSCP(Just for scanner)-Graph
The method as the same as KPI:RSCP-Graph
KPI:Ec/Io
Snapshot:
Position:
KPI:Ec/Io –Histogram
For scanner may be different ,ask ZhuJin
Snapshot:
Position:
Method : fill the percentage into the Excel(only the GREEN colum) file
which I send to you,and then the graph will appear automaticly。
automati c generate graph for RSCP and ECNO. zi p
-----this Excel file
KPI : Ec/Io –Graph
Position:
Method : fill the percentage into the Excel(only the GREEN colum) file
which I send to you,and then the graph will appear automaticly。
automati c generate graph for RSCP and ECNO. zi p
-----this Excel file
KPI:Ec/Io(Just for scanner)
Snapshot:
Position:
KPI:Ec/Io(Just for scanner)-Histogram
The method as the same as KPI:Ec/Io-Histogram
KPI:Ec/Io(Just for scanner)-Graph
The method as the same as KPI:Ec/Io-Graph
KPI:TxPower
Snapshot:
Position:
KPI:Pilot Pollution
Snapshot:
Position:
The definination of PilotPollution:
KPI:Active Set Size
Snapshot:
Position:
KPI:HSDPA Throughtput
Snapshot:
Position:
KPI:R99 Throughtput DL
Snapshot:
Position:
KPI:HSUPA Throughtput
Snapshot:
Position:
KPI:R99 Throughtput UL
Snapshot:
Position:
KPI:HSDPA CQI(DL )
Snapshot:
Position:
KPI:Access Failures
Snapshot:
Position:
KPI:Droped Call
Snapshot:
Position:
★★★Belows are DT KPIs we need :( part
9/10/11 in report)
★★★ Total List ★★★:
Part 9
Devi
ce
Type
of
Call
Information
Element
Mode Total
attempts
Actu
al
valu
e
Accept
Limit(As Per
SOW) (%)
Accept
ance
Comm
ents
Voice
Short(
1-
MS2
CSV Access
Failure Rate
Setup
-A
CS Setup
Calls
<1.0% Yes
to
Mobil
e)
*Voice Call
Setup time
(Mobile to
Mobile)
Setup
-A
CS Setup
Calls
95th percentile
≤ 9 seconds
Yes
PS
DL/UL
1-
MS3
PSD Access
Failure Rate
Setup
-B
PS
Setup
Calls
≤ 1.0 % Yes
PSD Drop
Rate
Setup
-B
PS
Setup
Calls
≤ 1.0 % Yes
PSD R99
Average DL
throughput
(kbps) Loaded
Setup
-B
PS
Setup
Calls
≥ 210 Yes
PSD R99
Average UL
throughput
(kbps)-
Loaded
Setup
-B
PS
Setup
Calls
≥ 180 Yes
PSD Call
Setup time
Setup
-B
PS
Setup
Calls
95th percentile
sessions ≤ 3
seconds
Yes
Voice
Short(
to
PSTN
)
2-
MS1
*Voice Call
Setup time
(Mobile to
PSTN)
Setup
-A
CS
Setup
Calls
95th percentile
≤ 5 seconds
Yes
HSUP
A
2-
MS2
HSUPA
Average UL
Setup
-B
Time
(XXXmin
> 0.8 Mbps Yes
Long Throughput
(kbps) for UE
category 3
under load
s)
HSUPA Drop
Rate
Time
(XXXmin
s)
≤ 1.0 %
Voice
Long
3-
MS1
CSV Drop
Rate
Setup
-A
Time
(XXXmin
s)
<1.0% Yes
CSV Quality
(DL)
Setup
-A
95th percentile
of samples ≤
2.0 % BLER
Yes
Soft/Softer Setup <1.6 Yes
Handover
Overhead
-A
HSDP
A
Long
3-
MS2
HSDPA
Average DL
Throughput
(kbps) for UE
category 8
under load
Setup
-B
> 2 Mbps Yes
HSDPA Drop
Rate
Setup
-B
≤ 1.0 % Yes
HS
Short
4-
MS2
HSDPA
Access Failure
Rate
Setup
-B
≤ 1.0 % Yes
HSUPA Setup ≤ 1.0 % Yes
Access Failure
Rate
-B
Part 10
Devi
ce
Type
of
Call
Information
Element
Mode Total
attempts
Actu
al
valu
e
Accep
t
Limit(
As Per
SOW)
(%)
Accepta
nce
Comments
5-
DC1
HSPA
Ping
HSDPA
Latency-
Stationary
5-DC1 HSPA Ping 1000
0
95th
percenti
le
session
s ≤ 100
ms
Yes
HSUP
A
Long
Stationary
Maximum UL
HSUPA Bit
Rate (kbps)
under no load
(UE Category
3)
HSUPA
Long
N/A > 1.2
Mbps
Yes
HSDP
A
Long
Stationary
Maximum DL
HSDPA Bit
Rate (kbps)
under no load
(UE Category
8)
HSDPA
Long
N/A > 6
Mbps
Yes
HS
Short
HSDPA
Session
HS Short Count 95th
percenti
Yes
Activation
time-
Statianary
le
session
s < 5
second
s
5-
DC2
PS
Ping
PSD Latency 5-DC2 PS Ping 1000
0
95th
percenti
le
session
s ≤ 100
ms
Yes
Part 11
Devi
ce
Type
of
Call
Information
Element
Mode Total
attempts
Actu
al
valu
Accep
t
Limit(
Accepta
nce
Comments
e As Per
SOW)
(%)
4-
MS1
GSM
Short
Call
CSV Access
Failure Rate
Setup
-A
Setup OK
+ Setup
Fail
/ Yes
CSV Drop
Rate
Setup
-A
Call
Complete
Time
+Drop
Time
/ Yes
KPI:CSV Access Failure Rate–From short call
(Mobile to Mobile)
If this value don’t meet’s our target (1%),Check that if CS Call Setups
>400,if not ,tell me
Position:
Description:
CSV Access Failure= CS Failed Setups / CS Call Setups *100%
Example:
CSV Access Failure = 1/7 *100% = 14.28%
KPI : *Voice Call Setup time (Mobile to
Mobile)–From Short Call (Mobile to Moble)
Position:
Description:
From RRCConnectionReq to Alerting
Example:
In the picture ,the percent of the time less than 9s is 100%
KPI:PSD Access Failure Rate – PS R99
Position:
Description:
HSDPA Access Failure= PS Failed Setups / PS Call Setups *100%
Example:
HSDPA Access Failure = 0/12 *100% = 0%
KPI:PSD Drop Rate – PS R99
Position:
Decription:
PSD Drop Rate = PS Dropped Calls / PS Successful Calls *100%
Example:
In this picture, PSD Drop Rate = 0/9*100% =0%
KPI:PSD average DLThroughput–From PS-R99
Position:
Open the two workbook,then operate like this:
Description:
Example:
In this picture ,its 285kbps.
KPI : PSD average UL Throughput–From PS-
R99
Position:
Open the two workbook,then operate like this:
Description:
Example:
In this picture ,it’s 165 kbps.
KPI:PSD Call Setup time–from R99 PS
Position:
Description:
From RRCConnectionReq to PDPActive Complete
Example:
In this picture,the percent of time less than 3s is 99.4%
KPI:Voice Call Setup time (Mobile to PSTN)–
From Short Call (Mobile to PSTN)
Position:
Description:
From RRCConnectionReq to Alerting
Example:
In the picture ,the percent of time less than 5s is 98.8%
KPI : HSUPA Average UL Throughput –HSUPA
Long
Position:
Decription:
Example:
In this picture, it’s 299.16kbps.
KPI:HSUPA Drop Call Rate–From HSUPA Long
call
Position:
Here is the time lasts:
Description:
Drop times= 1
The lasting time: from 15:05 to 16:55 ,it’s totally 111 minutes. (make
sure the time is coutinuous, if not ,we need to minus the time it inturrupt)
The HSUPA Drop Rate = Drop times /The lasting time(minute)*1.5
Example:
The HSUPA Drop Rate = 1/111*1.5 = 1.35%
KPI:CSV Drop Rate–From Long call
Position:
Here is the times it droped
Here is the time lasts:
Description:
Drop times= 2
The lasting time: from 15:05 to 16:55 ,it’s totally 111 minutes. (make
sure the time is coutinuous, if not ,we need to minus the time it inturrupt)
The CSV Drop Rate = Drop times /The lasting time(minute)*1.5
Example:
The CSV Drop Rate = 2/111*1.5 = 2.7%
KPI:CSV Quality (DL)–From Long call
Position:
Description:
The BLER which below 2 percent
Example:
In the picture ,the CSV Quality(DL) = 95%
KPI : Soft/Softer Handover Overhead–From
Longcall
Position:
Description:
Example:
2838*1:(2838 means the point nums of 1 pilot, 1 means that are 1 pilot in
the ActiveSet)
217*2 : (217 means the point nums of 2 pilot, 2 meast that are 2 pilots in
the ActiveSet)
19*3(19 means the point nums of 3 pilot, 3 meast that are 3 pilots in the
ActiveSet)
The Soft/Softer Handover Overhead = (2838*1+217*2+19*3)/
(2838+217+19) = 1.115
KPI : HSDPA Average DL Throughput –HSDPA
Long
Position:
Decription:
Example:
In this picture ,it’s 309.87kbps
KPI:HSDPA Drop Call Rate–From HSDPA Long
call
Position:
Here is the time lasts:
Description:
Drop times= 1
The lasting time: from 15:05 to 16:55 ,it’s totally 111 minutes. (make
sure the time is coutinuous, if not ,we need to minus the time it inturrupt)
The HSDPA Drop Rate = Drop times /The lasting time(minute)*1.5
Example:
The HSDPA Drop Rate = 1/111*1.5 = 1.35%
KPI : HSDPA AccessFailure Rate–From HS
Short Call
Position:
Description:
HSDPA Access Failure= PS Failed Setups / PS Call Setups *100%
Example:
HSDPA Access Failure = 0/12 *100% = 0%
KPI : HSUPA Access Failure Rate–From HS
Short call ( It’s the same as HSDPA Access
Failure Rate)
Position:
Description:
HSUPA Access Failure= PS Failed Setups / PS Call Setups *100%
Example:
HSUPA Access Failure = 0/12 *100% = 0%
KPI:HSDPA Latency-Stationary
Positon:
Description:
Example:
In this picture,it’s 100%.
KPI:Stationary Maximum UL HSUPA Bit Rate
(kbps) under no load (UE Category 3)
Position:
1
Example:
In this picture,It’s 1.448Mbps
KPI:Stationary Maximum DL HSDPA Bit Rate
(kbps) under no load (UE Category 8)
Position:
Example:
In this picture,it’s 7.2Mbps.
KPI : HSDPA Session Activation time-
Statianary
Position:
Example:
In this picture,it’s 100%.
KPI:PSD Latency
Positon:
Description:
Example:
In this picture,it’s 100%.
KPI:CSV Access Failure Rate-GSM
Position:
Description:
CSV Access Failure Rate = Setup Fail / (Setup OK + Setup Fail) *100%
Example:
In the picture:
CSV Access Failure Rate = 7 / (214 + 7) *100% = 3.2%
KPI:CSV Drop Call Rate-GSM
Position:
Description:
CSV Drop Call Rate = Call Dropped / (Call Complete + Call
Dropped)*100%
Example:
In this picture,it’s 2/(208+2) = 0.95%
★★★UMTS KPI Summary – OSS
Counters:(Part 8 in report)
We need the OSS KPIs like this:
Cl
us
te
r
6
K
PI
Rat
io
of
suc
ces
sful
RR
C
con
nec
tio
n
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
CS
RA
B
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
DP
A)
(%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
UP
A)
(%)
R
at
io
of
C
S-
S
p
e
e
c
h
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
D
P
A
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
U
P
A
C
al
l
D
ro
p(
%
)
Sof
tHa
nd
ove
r
Suc
ces
s
Rat
e(
%)
Cel
l
Int
er-
RA
T
CS
Out
goi
ng
Ha
nd
ove
r
Suc
ces
s
Rat
e(
WC
DM
A-
>G
U
L
Bl
o
c
k
Er
ro
r
R
at
e(
%
)
Cl
us
te
r
6
K
PI
Rat
io
of
suc
ces
sful
RR
C
con
nec
tio
n
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
CS
RA
B
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
DP
A)
(%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
UP
A)
(%)
R
at
io
of
C
S-
S
p
e
e
c
h
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
D
P
A
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
U
P
A
C
al
l
D
ro
p(
%
)
Sof
tHa
nd
ove
r
Suc
ces
s
Rat
e(
%)
Cel
l
Int
er-
RA
T
CS
Out
goi
ng
Ha
nd
ove
r
Suc
ces
s
Rat
e(
WC
DM
A-
>G
U
L
Bl
o
c
k
Er
ro
r
R
at
e(
%
)
Cl
us
te
r
6
K
PI
Rat
io
of
suc
ces
sful
RR
C
con
nec
tio
n
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
CS
RA
B
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
DP
A)
(%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
UP
A)
(%)
R
at
io
of
C
S-
S
p
e
e
c
h
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
D
P
A
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
U
P
A
C
al
l
D
ro
p(
%
)
Sof
tHa
nd
ove
r
Suc
ces
s
Rat
e(
%)
Cel
l
Int
er-
RA
T
CS
Out
goi
ng
Ha
nd
ove
r
Suc
ces
s
Rat
e(
WC
DM
A-
>G
U
L
Bl
o
c
k
Er
ro
r
R
at
e(
%
)
Cl
us
te
r
6
K
PI
Rat
io
of
suc
ces
sful
RR
C
con
nec
tio
n
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
CS
RA
B
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
DP
A)
(%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
UP
A)
(%)
R
at
io
of
C
S-
S
p
e
e
c
h
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
D
P
A
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
U
P
A
C
al
l
D
ro
p(
%
)
Sof
tHa
nd
ove
r
Suc
ces
s
Rat
e(
%)
Cel
l
Int
er-
RA
T
CS
Out
goi
ng
Ha
nd
ove
r
Suc
ces
s
Rat
e(
WC
DM
A-
>G
U
L
Bl
o
c
k
Er
ro
r
R
at
e(
%
)
Cl
us
te
r
6
K
PI
Rat
io
of
suc
ces
sful
RR
C
con
nec
tio
n
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
CS
RA
B
est
abli
sh
me
nt(
%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
DP
A)
(%)
Rat
io
of
suc
ces
sful
PS
RA
B
est
abli
sh
me
nt(
HS
UP
A)
(%)
R
at
io
of
C
S-
S
p
e
e
c
h
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
D
P
A
C
al
l
D
ro
p(
%
)
R
at
io
of
P
S-
H
S
U
P
A
C
al
l
D
ro
p(
%
)
Sof
tHa
nd
ove
r
Suc
ces
s
Rat
e(
%)
Cel
l
Int
er-
RA
T
CS
Out
goi
ng
Ha
nd
ove
r
Suc
ces
s
Rat
e(
WC
DM
A-
>G
U
L
Bl
o
c
k
Er
ro
r
R
at
e(
%
)
And we will give you the KPI like this: The KPI template:(fill this)
KPI _CL35_CL32_CL7. xl s
OSS KPI Templ ate. xl sx
★★★Uplink Interference Analysis [RTWP](Part
13 of the report)
We need the Interference KPI like this:
RNCID Cell ID Exist
Interference
Maximu
m Cell
Freq
RTWP(db
m)
Average
Cell Freq
RTWP(db
m)
Minimum
Cell Frep
RTWP(db
m)
36 13301 No -86.2 -106.516 -106.8
RNCID Cell ID Exist
Interference
Maximu
m Cell
Freq
RTWP(db
m)
Average
Cell Freq
RTWP(db
m)
Minimum
Cell Frep
RTWP(db
m)
36 14062 No -63.7 -
106.3173
-112
36 13151 No -79.2 -
106.4029
-106.6
36 14531 No -81.2 -
106.5058
-106.8
36 14523 No -85.3 -
106.5548
-106.7
And we will give you the KPI like this: The KPI template:(fill this)
KPI _CL35_CL32_CL7. xl s
I nterference Anal ysi s KPI . xl sx
Belows are Drop Call List we
need:
List of Dropped Calls
# SITE
ID
CSV /
PSD /
HS
Reason Action Taken Problem
Solved
1
2
3
4
5
We can find the call drops in the pictures below:
In this picture we can find which site it droped .
If you want to know the reason,see the signal .