05 mn3515eu50mn 0001 nodeb operation
DESCRIPTION
NB OperationTRANSCRIPT
Fig. 1 NodeB equipment configuration (MN3515EU50MN_0001 NodeB PF2 operation, 6)
Fig
. 2 N
odeB
equ
ipm
ent c
onfig
urat
ion
(MN
3515
EU
50M
N_0
001
Nod
eB P
F2
oper
atio
n, 7
)
Fig. 3 Syntax of nbDatabase (MN3515EU50MN_0001 NodeB PF2 operation, 11)
Fig
. 4 T
he N
amin
g T
ree
(MN
3515
EU
50M
N_0
001
Nod
eB P
F2
oper
atio
n, 1
3)
Fig. 5 NodeB Naming Tree - Equipment Containment (part A) (MN3515EU50MN_0001 NodeB PF2 operation, 15)
Fig. 6 NodeB Naming Tree - Transport Containment (part B) (MN3515EU50MN_0001 NodeB PF2 operation, 15)
Fig. 7 Tree structure of the NB-44x database as shown in XML-editor window (MN3515EU50MN_0001 NodeB PF2 operation, 23)
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Fig. 8 Select XML Database File and press Edit button (MN3515EU50MN_0001 NodeB PF2 operation, 27)
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Fig
. 9 E
dit w
indo
w o
f int
erna
l dat
abas
e ed
itor
(MN
3515
EU
50M
N_0
001
Nod
eB P
F2
oper
atio
n, 2
7)
Table 1value
NodeB_1=1; NodeB_2=2;
NodeB_3=3
NodeB_1=1; NodeB_2=2; NodeB_3=3
NodeB_1=1; NodeB_2=2; NodeB_3=3
60
440
0
Label (Parameter Name)General settingsEquipmentId
nodeBId
managedElementId
isAliveTimeIntervall
NodeBFddE
nodeBTypenumberOfServiceRacks
Remarks
to set in Mib Checker
Unique identifier per NodeB, determined by the operator. Set by nbDatabase.
Unique identifier within containment.
This attribute gives the time interval in seconds and is settable by the operator. value = 0: no ‘isAliveNotification’ is sent to OMC/RC value > 0: interval to send ‘isAliveNotification’ to OMC/RC
Can be: 341 // 420/440/441 or 860/880/881Indicates how many service racks the NodeB consists of
Additonally the unique value „SalesUniqueName“ is to be defined because this value is used for inventoryand licensing of optional features now!
Fig. 10 Example: TI NB-settings (MN3515EU50MN_0001 NodeB PF2 operation, 29)
Fig. 11 Example: Tree view of managedElementId = 1 and NodeB Id = 1. These values can be different. (MN3515EU50MN_0001 NodeB PF2 operation, 31)
Fig. 12 The edit window (MN3515EU50MN_0001 NodeB PF2 operation, 31)
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3
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5
2
Fig. 13 Starting upgrade of Id's in XML file (MN3515EU50MN_0001 NodeB PF2 operation, 33)
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7
8
Fig. 14 Upgrade Id's in XML file (MN3515EU50MN_0001 NodeB PF2 operation, 33)
Table 2 Label (Parameter Name)
Remarks value
localCellId Identifier for local cell managed by RNC sector #1 1234 searchRange 9 sector #2 1235 searchRange 9 sector #3 1236
searchRange 9 site-specific
Fig. 15 Setting the local cell IDs (MN3515EU50MN_0001 NodeB PF2 operation, 35)
Fig. 16 In an 1/1/1-configuration the XML-File contains three times the object class "LocalCellE" (MN3515EU50MN_0001 NodeB PF2 operation, 37)
67
8
9
10
Fig. 17 Change LocalCellId with LMT Database Editor (MN3515EU50MN_0001 NodeB PF2 operation, 37)
Table 3 Label (Parameter Name) Remarks value object: IP Class IpNetToMedia
ipNetToMediaAtmPointer check the correct setting to (ManagedElement.X).(NodeBFunctional.0).(Transport.0).(VpTTP.0).(VcCTP.3)
...(VpTTP.0).(VcCTP.3)
ipNetToMediaNetAddress ATM address of Cisco router (gateway) 10.10.161.254 Class IpAddress ipAddressAddress IP address of NodeB NB_1: 10.10.161.1
NB_2: 10.10.161.2 NB_3: 10.10.161.3
ipAddressNetMask the netmask of the network, where the NodeB is included
0xffffff00 equal to 255.255.255.0
Class IpRoute ipRouteDest IP address of OMP (Radio Commander) 10.10.108.80 ipRouteNextHop ATM address of Cisco router (gateway) 10.10.161.254 ipRouteType remote ipRouteMask 0xffffff00
equal to 255.255.255.0 fixed site-specific
Fig. 18 IP settings for RC connection (MN3515EU50MN_0001 NodeB PF2 operation, 39)
Fig. 19 The object class "IpNetToMedia" defines the UTRAN network parameters for the NodeB /Radio Commander connections
(MN3515EU50MN_0001 NodeB PF2 operation, 41)
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3
2
15
Fig. 20 Change IP-configuration with LMT Database Editor (MN3515EU50MN_0001 NodeB PF2 operation, 41)
Table 4 Label (Parameter Name)
Remarks value
VPI/VCI settings VCI link VPI PCR PId
ALCAP 34 0 0 150
NBAP 35 0 0 150
NodeSync 64 0 0 75
ftpOAndMCommand 37 0 0 500
AAL2 65 0 0 3652
AAL2 operator-specific
Fig. 21 VPI-/VCI settings for RC connection (MN3515EU50MN_0001 NodeB PF2 operation, 43)
Fig. 22 Used object classes for the VPI/VCI settings (MN3515EU50MN_0001 NodeB PF2 operation, 45)
Fig
. 23
Inte
rcon
nect
ion
of V
pTT
P, V
cTT
P a
nd V
cCT
P a
nd T
raffi
c D
escr
ipto
r by
the
exam
ple
of th
e V
cCT
PId
=0
(ALC
AP
) (M
N35
15E
U50
MN
_000
1 N
odeB
PF
2 op
erat
ion,
47)
Table 5 Label (Parameter Name) Remarks value
additional RAN-Parameters
object: E1TTP e1TTPId Indicates the link number/line number 0 up to 15
e1LineCode Defines the E1 line Code e1HDB3
crcOperationMode Determines the operation of the 2Mbits/s trail termination [crcAutomatic]
crcForced
lineCircuitAddress Corresponds to the e1TTPId 0 up to 15
usedForFractionalAtm It marks whether Fractional ATM is used or not (yes=TRUE, no=FALSE). Default: FALSE
FALSE
fractionalAtmProfilePointer To be defined if usedForFractionalAtm = TRUE. Default: empty
" "
cableType Indicates cable type in use: CoaxCable, TwistedPair
TwistedPair
site-specific
Fig. 24 Additional RAN parameters (MN3515EU50MN_0001 NodeB PF2 operation, 49)
Fig. 25 E1-settings in the object class "E1TTP" for the first E1-line according to table 5 (MN3515EU50MN_0001 NodeB PF2 operation, 51)
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3
2
1
Fig. 26 E1-settings (MN3515EU50MN_0001 NodeB PF2 operation, 51)
Table 6 Label (Parameter Name) Remarks value object: imaGroup imaGroupId Indicates the IMA group id Depends on the no. of
groups, here: 0
imaGroupTxTimingRefLink Defines the E1 reference link (normally ImaLink = 0)
(ManagedElement.X).(NodeBFunctional.0).(Transport.0). (ImaGroup.0). here: (ImaLink.0)
imaLinkId Indicates the IMA link id Depends on the no. of links, here: 0
imaLinkPhysLine Pointer to the physical line where the IMA link is connected (e. g. E1 link no. 0)
(ManagedElement.X).(NodeBFunctional.0).(Transport.0). here: (E1TTP.0)
imaLinkGroupIndex Indicates the IMA group where the link belongs to
Depends on the group id, here: 0
site-specific
Fig. 27 Timing reference link (MN3515EU50MN_0001 NodeB PF2 operation, 53)
Fig. 28 Setting the timing reference link for IMA group 0 (MN3515EU50MN_0001 NodeB PF2 operation, 55)
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Fig. 29 Setting the timing reference link for IMA group 0 (MN3515EU50MN_0001 NodeB PF2 operation, 55)
Fig
. 30
Cro
ss r
efer
ence
s be
twee
n ra
dio
acce
ss n
etw
ork
para
met
ers
for
Nod
eB P
F 2
- R
NC
(M
N35
15E
U50
MN
_000
1 N
odeB
PF
2 op
erat
ion,
56)
Fig
. 31
Cro
ss r
efer
ence
s be
twee
n tr
ansp
ort n
etw
ork
laye
r pa
ram
eter
s fo
r N
odeB
PF
2 –
RN
C (
MN
3515
EU
50M
N_0
001
Nod
eB P
F2
oper
atio
n, 5
7)
Fig. 32 Software management of NodeB PF2 (MN3515EU50MN_0001 NodeB PF2 operation, 59)
Fig. 33 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 70)
Fig. 34 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 71)
Fig. 35 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 72)
Fig. 36 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 73)
Fig. 37 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 74)
Fig. 38 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 75)
Fig. 39 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 76)
Fig. 40 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 77)
Fig. 41 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 78)
Fig. 42 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 79)
Fig. 43 Solution 1 (MN3515EU50MN_0001 NodeB PF2 operation, 80)