bts com ru10
TRANSCRIPT
1 © Nokia Siemens Networks Presentation / Author / DateFor internal use
Nokia Siemens Networks Flexi WCDMA BTS Commissioning(WN5.0 – RU10)
2 © Nokia Siemens Networks Presentation / Author / DateFor internal use
Flexi WCDMA BTS Commissioning
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Commissioning overview
Commissioning Step
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Flexi WCDMA BTS Element Manager Overview
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Flexi WCDMA BTS Element Manager Task Selection Create Commissioning File
Select Commissioning TargetBTS Site : to configure BTS and Transmission parameterBTS : to configure BTS parameter onlyTRS : to configure Transmission parameter only
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Flexi WCDMA BTS Element Manager Task Selection Create Commissioning File
Create Commissioning File using existing template file
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Flexi WCDMA BTS Element Manager Task Selection Create Commissioning File
Select Flexi WBTS Module type
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Flexi WBTS Element Manager User InterfacePlug-in manager’s Task View=content areaNSN bar
View Bar
Alarm view Status Bar
Title bar
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Flexi WCDMA BTS Commissioning using Commissioning Wizard
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Commissioning Target
BTS – Create commissioning file for BTS only.TRS – Create commissioning file for Transmission Sub-module (TRS) only.BTS Site - Create commissioning files for BTS and TRS
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Commissioning Type
Reconfiguration option is available only in on-line mode.
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Commissioning Wizard – Backup commissioning file 1/2
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Commissioning Wizard – Backup commissioning file 2/2
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Defining Site Properties
A2EA is disabled here as Flexi Transport mode configured is Iub IP.
BTS Id is unique identifier in Radio Network Subsystem
FHA – Flexi High Speed Adapter (I-HSPA)
RNC Operation and Maintenance Unit (OMU) IP address
NTP Server – Network Time Protocol Server
LDAP – Lightweight Directory Access Protocol
CMP - Certificate Management Protocol
TLS - Transport Layer Security or SSL Secure Sockets Layer
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Defining Physical Layer Configuration – PDH link
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Defining Physical Layer Configuration – IMA Group 1/2
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Defining Physical Layer Configuration – IMA Group 2/2
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Defining Physical Layer Configuration – SDH
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Configuring Iub Transport – ATM
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Iub Transport : ATM over PDH/SDH
PDH/SDH
RNC WCDMA BTS
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Creating Traffic DescriptorsThis page is not available if the Flexi HSPA Adapter (I-HSPA Adapter) is selected to be in use but the ATM Iu-PS/Iur is not in use
If the I-HSPA Adapter is not in use, you need to define at least four traffic descriptors: one for the BTS capacity on the VP level, one for the IUB signalling terminations, one for the AAL2 user path and one for the DCN interface.
If the I-HSPA Adapter is in use and the ATM Iu-PS/Iur is in use, you need to define at least five traffic descriptors: one traffic descriptor for each Iu- PS/Iur termination (Iu-PS Control Plane, Iu-PS User Plane, Iur Control Plane, and Iur User Plane) and one for the DCN interface
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Configuring Iub Termination
Supported ATM interfaces are PDH and SDH interfaces, IMA groups, and pseudowires on a PSN tunnel
The IUB Terminations via One Virtual Path option is disabled and cleared if the configuration contains more than one ATM interface or pseudowire
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UBR+ for Iub User Plane
If the UBR+ is enabled, enter the minimum desired cell rate in the Min. Desired Cell Rate field and the UBR share in the UBR Share field
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UBR+ for Iub User Plane
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Defining Iu-PS/Iur terminations to BTS
This page is available if the I-HSPA Adapter is selected to be in use and the ATM Iu-PS/Iur is selected to be in use
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Defining VCC Bundle in Use
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Configuring Iub Transport – ATM over Ethernet, IP Iub, Dual Iub, DCN and IP Setting
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Defining Physical layer configuration for Ethernet
Only one Ethernet interface can be selected to be in use, except for FTIB with Iub IP transport mode. When FTIB is using Iub IP mode, two Ethernet interfaces can be selected.
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Defining Transport Address and Quality of Servicesettings
IP address/subnet of the enabled Ethernet Interface on TRS and the corresponding bandwidth.
Select ‘Include Ethernet Overhead’ to include Ethernet overhead in shaping.
This page is available if the FTIA, FTIB or FTJA unit is in the TRS and an Ethernet interface has been configured to be in use
In Dual Iub traffic mode, the path is used for user plane traffic, and in Iub IP mode it is used for all traffic
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Defining Transport Address and Quality of Servicesettings
Ethernet Quality of Service parameters
Highest priority
Lowest priority
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Defining Transport Address and Quality of Servicesettings
Mapping of Ethernet QoS to IP QoS.
VLAN ID (12 bits)CFIVLAN Priority
Cannonical format indication (1 bit)
VLAN/User priority (3 bits => values 0…7)7 – highest priority…0 – lowest priority
Not used (2 bits)
DS Differentiated Service field in IP header1 byte (former TOS – Type of Service field)
DSCP (DiffServ Code Points) 6 bits
VLAN Priority and VLAN ID are contained in Ethernet Frame (IEEE802.1Q – VLAN Tagging)
DSCP is a part of IP header
SG – Signaling GroupDCN – Data Communication NetworkBFD – Bidirectional Forwarding DetectionICMP - Internet Control Message ProtocolDSCP – Differentiated Services Code PointTOP – Timing Over Packet
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Defining ATM Over Ethernet settings
You need to have a valid licence before the ATM Over Ethernet functionality can be activated
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Defining ATM Over Ethernet settings – PSN Tunnel
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Defining ATM Over Ethernet settings - Pseudowire
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Dual Iub for Flexi WCDMA BTSAllowing data traffic offload using
Ethernet interfaces at RNC and Flexi BTSsOperator benefits• significant cost savings in backhaul, like
with solution Hybrid Backhaul with Pseudo Wires
• no external pseudo wire gateway required at RNC site
• higher peak rates possible as with n*E1s
Dual Iub allows • offloading data traffic to alternative
Ethernet path using 3GPP Rel-5/Rel-6 compliant Iub/IP protocol stack
• any Ethernet physical layer (e.g. DSL, ng-SDH, adaptive modulation microwave..) may be used
• ATM/TDM for delay critical R’99 voice and data traffic as well as signaling traffic
Packet Network
ATM(TDM Network)
RNC3G BTS
STM-1/OC3E1/T1
Ethernet Ethernet
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Defining Dual Iub settings 1/2
• With the Dual Iub feature it is possible to connect the BTS and the RNC by parallel ATM and IP paths
• The advantage of Dual Iub is that the high volume HSPA traffic which is not sensitive to delay and loss can be offloaded from the ATM path to the IP path.
• In Dual Iub configuration, the DCN is completely separated from the IP network for the User Plane
• These pages are available if :– the Flexi HSPA Adapter (FHA) is not in the configuration– there are FTIA, FTIB, or FTJA units in the TRS– an Ethernet interface with the Dual Iub transport mode has been configured
to be in use
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Defining Dual Iub settings 2/2
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IP based Iub for Flexi WCDMA BTS
• Flexi WCDMA BTS, Ultrasite WCDMA BTS and RNC support 3GPP Rel-5/Rel- 6 compliant Iub/IP protocol stack via integrated Ethernet interfaces
• Based on IPv4• Reduced planning and configuration effort due to
complete absence of ATM layer• Reduced maintenance costs, e.g. BTS rehosting is
basically just a change of an IP address• Priority marking on IP (ToS/DSCP) and Ethernet (VLAN
priority bits) layer
OPEX/CAPEX reduction by using cost efficient packet transport with 3GPP compliant IP/Ethernet Iub stack
Ethernet
Iub/IP
IPSCTP
NBAP
UDP
FP LayerIub Control Plane Iub User Plane
Packet Network(Ethernet)
3G BTS RNC
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Defining Iub IP settings 1/2
• In Iub IP, the BTS and the RNC are connected via an IP/Ethernet network.
• Since all traffic is transported via the IP/Ethernet network, the network must be reliable enough and its delay and delay variation suitably low.
• These pages are available if :– the Flexi HSPA Adapter (FHA) is not in the configuration – there are FTIA, FTIB, or FTJA units in the TRS– an Ethernet interface with the Iub IP transport mode has been configured to
be in use
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Defining Iub IP settings 2/2
IP signaling subnet within RNC. ICSU must be in this subnet!
ICSU – Interface Control and Signalling UnitSCTP – Stream Control Transmission Protocol UDP – User Datagram ProtocolCAC – Connection Admission ControlBFD – Bidirectional Forwarding Detection
BFD is a network protocol used to detect faults between two forwarding engines.
Far end IP address for BFD.
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Timing over Packet
• Synchronization information, needed for running air interface with required frequency accuracy, can be provided to BTSs over high quality packet network (e.g. Metro Ethernet)
• Allows to keep costs low by obsolescing use of GPS or Hybrid Backhaul (simultaneous usage of TDM and packet backhaul) for synchronization
Solution includes:• Timing over Packet (ToP) Master Clock at RNC sending synchronization information to
BTSs. RNC site node can be used to connect ToP Master• FTIB in Flexi BTS (ToP Slave) for recovering clock signal from Timing over Packet data
Taking full advantages of packet transport for BTS backhaul
Packet NetworkRouter
RNC
1588master
IEEE1588v2 PTP (unicast)
3G BTS
Ethernet
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Defining Timing over Packet settings
This page is available if the transmission sub-module used is FTIB and an Ethernet interface has been configured to be in use
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Defining BTS routes
This page is not available if the Flexi HSPA Adapter (I-HSPA Adapter) is selected to be in use but the ATM Iu-PS/Iur is not in use
Default Gateway for BTS OAM, Control and User plane.
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Defining DCN Interface
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Defining DCN Routes
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Defining IP Filtering
It is not recommended to set the restricted mode off. The restricted mode is a security feature for the DCN network
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Configuring BTS Setting
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Defining BTS Setting
At least one of the synchronisation sources must be selected to be in use for BTS fault management
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Defining Passive Units
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Defining Local Cell Resources
Local cell identifiers are determined at the network planning stage. It is essential that the value input matches the expected value in the radio network plan. You should not select the values arbitrarily
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TX 1
TX 2RX 1 M
RX 2 M
RX 1 D
RX 2 D
PA
TX 3
TX 4RX 3 M
RX 4 M
RX 3 D
RX 4 D
PA
RF - DE
RF - DE
ANT 1
ANT 4
ANT 3
ANT 2
RX switch
RX switch
feedback
feedback
Sector 1
Sector 2
RF signal path options: “A type” configuration
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TX 1
TX 2RX 1 M
RX 2 M
RX 1 D
RX 2 D
PA
TX 3
TX 4RX 3 M
RX 4 M
RX 3 D
RX 4 D
PA
RF - DE
RF - DE
ANT 1
ANT 4
ANT 3
ANT 2
RX switch
RX switch
feedback
feedback
Sector 1
RF signal path options: “B type” configuration
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Defining Local Cell Setting
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Defining WCDMA carrier candidates and local cellgroups
WCDMA carrier candidates are determined at the network planning stage. It is essential that the value input matches the expected value in the radio network plan. You should not select the values arbitrarily
Up to four different values can be defined for each frequency band. The frequencies are calculated according to the entered channel numbers and displayed in the Frequency MHz column
Note that if the System Module FSMB is used in the configuration, it is mandatory to use the Extension System Module to get the Local cell groups in useLocal cells with the same UARFCN value must belong to the samelocal cell group.
Parameter can be used to override nominal filter tuning to minimize noise to neighboring frequency band
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WCDMA Carrier Candidates and Local Cell Group settings
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Defining HSPA settings
•HSDPA Shared Scheduler for BTS license overrides Minimum Baseband and 16 HSDPA Users per Cell•Full Baseband HSDPA Resource Allocation overrides the HSDPA Shared Scheduler for BTS license
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HSDPA Congestion Control Settings
M-ECN Multilevel Explicit Congestion NotificationDRT Delay Reference Time FSN Frame Sequence Number Parts of HS-DSCH Frame
FSN – 4 bits in FP headerDRT – 16 bits in payload
Moderate delay region between Minimum and Middle.Severe delay region between Middle and Maximum.
Probability value for data rate reduction increases with increased delay rate.
M-E
CN
rela
ted
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Defining HSUPA Setting
In case of ‘Default in Use’ is selected for HSUPA Resource Allocation, baseband resources for HSUPA are allocated dynamically.In case of user defined resource allocation baseband resources are allocated statically based on number of HSUPA users and Minimum Baseband Decoding Capacity in Mbps.
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HSUPA Happy Bit Measurement Setting
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Defining HSPA Quality of Service settings
For traffic without rate guarantees
For traffic with rate guarantees
GBR - Guaranteed Bit Rate (GBR) to a SPI value selected for streaming NBR - Nominal Bit Rate (NBR) to Interactive traffic classes
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Defining AISG MHA settings
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Antenna Line Settings 1/7
MHA type: Other• the BTS doesn’t provide DC power to MHA, nor generates MHA alarm• MHA power supply has to be fed from an external source• UL/DL Delay in the MHA can be user-defined
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Antenna Line Settings 2/7
NOKIA MHAs:WMHA – Single MHAWMHB – 2 single MHAs, separate power feedWMHC – Dual MHA, single power feed through its “BTS2” port.
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Antenna Line Settings 3/7
for WMHC/WMHD only the WMHC/WMHD requires power supply through its “BTS2” port. This selection is made for the FRxx ANT port which is connected it.
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Antenna Line Settings 4/7
for WMHC/WMHD only If an additional equipment behind the MHA requires power supply through antenna feeder, the voltage can be defined by the user or automatically set by the BTS.
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Antenna Line Settings 5/7
for all MHA types the existence if Diplexers/Triplexers is to be defined for two reasons:- the additional loss is to be considered by the BTS for correct signal gain.- the additional delay affects the round trip time
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Antenna Line Settings 6/7
for all MHA types - the number of Diplexers/Triplexers is to be defined:1: X-plexer on BTS side only, wideband antenna2: X-plexer on both sides, BTS and antenna3: With broadband antenna and MHAs
Round Trip time Delay:- calculated by the BTS Site Manager or…
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Antenna Line Settings 7/7
Round Trip time Delay:- …user defined (after measurement)
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Defining Siemens Proprietary AISG1.1 TMARETand RET settings 1/2
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Defining Siemens Proprietary AISG1.1 TMARETand RET settings 2/2
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TMA Support
FRGJ – Dual Radio Module with Siemens TMA supportFRGK – Single Radio Module with Siemens TMA supportFRGF – Triple Radio Module with Siemens TMA support
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TMA Support
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TMA Support (cont)
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TMA Support (cont)
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TMA Support (cont)
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Defining RET settings
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Defining external alarm and control settings
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Sending parameters to BTS site – View Parameter 1/2
To view the commissioning parameters before sending them to the site, click the View Parameters button. The Commissioning - View Parameters dialog box opens. The parameters list is split in the sublevels, which you can expand or collapse by clicking the arrow. You can view the contents of the list by scrolling down the list.
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Sending parameters to BTS site – View Parameter 2/2
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Sending parameters to BTS site – Saving Parameter 1/2
To save the commissioning parameters, click the Save Parameters button, and enter the file name and select the location for the file to be saved. Saving the parameters produces a commissioning file that can be used in the template and planned commissioning
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Sending parameters to BTS site – Saving Parameter 2/2
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Sending parameters to BTS site – Send Parameter
In the template, manual and reconfiguration commissioning, if you have not saved the parameters before clicking the Send Parameters button, you will be asked if you want to save the parameters before sending them.
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Defining additional site settings
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Defining additional site settings – Changing user account
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Defining additional site settings – RET Configuration
Changing the default minimum and maximum angle values defined in the selected configuration file may cause incorrect tilt functionality if the values are not in the proper range
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Defining site testing
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Site Test / Ethernet Test
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Site Test / Ethernet Test
FSMD System Module with two FSPs:FSP1: 192.168.255.33FSP3: 192.168.255.35
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WCDMA BTS Loop test
During the test the BTS transmits at nearly full power. Make sure that there is an antenna connected to the antenna connector
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WCDMA BTS Loop test
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WCDMA BTS Loop test report
WCDMA Loop Tests are not executed on reserved DSPs.DSPs can be reserved for Common Channels or for HSPA.
FSP1: DSP1 reserved for Common ChannelsFSP3: DSP1 and DSP2 reserved for HSDPA
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WCDMA Loop Test: HSPA enabled (cont)
Number of “Not Executed“ WCDMA Loop Tests is changed due to the changed HSPA configuration.
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EAC Functionality test
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Saving commissioning report
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Commissioning FTM for I-HSPACommissioning FTM for I-HSPA (IP over ATM)
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IP configuration in i-HSPA Adapter
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Defining i-HSPA Adapter
In the Commissioning - Site Properties page, define the identification information, IP addresses and common configuration options
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Defining physical layer configuration – physical interfaces, synchronization and IMA groups
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Creating Traffic Descriptors
At least five traffic descriptors are needed: one for each Iu-PS/Iur termination (Iu-PS Control Plane, Iu-PS User Plane, Iur Control Plane, and Iur User Plane) and one for the DCN interface.
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Defining Iub Termination 1/5 Iu-PS Control Plane
Define the following terminations: Iu-PS Control Plane (IU-CP), Iu-PS User Plane (IU-UP), Iur Control Plane (IUR-CP), and Iur User Plane (IUR-UP). Click the New Iu-PS/Iur Termination button to open a pop-up menu, and choose the Iu-PS/Iur Termination to be configured.
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Defining Iub Termination 2/5Iu-PS User Plane
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Defining Iub Termination 3/5Iur Control Plane
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Defining Iub Termination 4/5Iur User Plane
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Defining Iub Termination 5/5
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Defining DCN Interfaces
The destination address is the IP address of the remote node to which the DCN interface is connected. The supported format is IPv4
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Commissioning FTM for I-HSPA – IP Configuration
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Defining Site Properties for i-HSPA configuration
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E1, T1 or JT1 as synchronization source
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Timing over Packet (ToP) used for synchronisation
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Timing over Packet (ToP) used for synchronisation
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Defining Transport Address and Quality of Services
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Defining Timing over Packet
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Defining BTS Routes
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Performing Template, Planned and Reconfiguration Commissioning
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Performing template commissioningSteps1. Choose the View → Commissioning menu item or click the Commissioning button on the View Bar.The Commissioning - Introduction page opens.
2. Select the commissioning target by clicking the appropriate option: BTS Site, BTS Only or TRS Only.3. Select the Template option.4. Select the commissioning file.5. Click the Next button.
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Performing planned commissioning
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Performing reconfiguration commissioning