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eRAN
2G/3G and LTE Co-transmission
Feature Parameter Description
Issue 01
Date 2014-04-26
HUAWEI TECHNOLOGIES CO., LTD.
7/25/2019 2G 3G and LTE Co-transmission(ERAN7.0_01)
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Copyright © Huawei Technologies Co., Ltd. 2015. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior written
consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and the
customer. All or part of the products, services and features described in this document may not be within the
purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information,
and recommendations in this document are provided "AS IS" without warranties, guarantees or representations
of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the
preparation of this document to ensure accuracy of the contents, but all statements, information, and
recommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
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Contents
1 About This Document..................................................................................................................1
1.1 Scope..............................................................................................................................................................................1
1.2 Intended Audience..........................................................................................................................................................1
1.3 Change History...............................................................................................................................................................1
1.4 Differences Between eNodeB Types..............................................................................................................................2
2 Overview.........................................................................................................................................3
2.1 Definition........................................................................................................................................................................3
2.2 Benefits...........................................................................................................................................................................3
2.3 Architecture....................................................................................................................................................................3
3 Feature Component.......................................................................................................................5
3.1 Overview........................................................................................................................................................................5
3.2 Co-transmission with a Convergence Device.................................................................................................................6
3.3 Co-transmission Without a Convergence Device...........................................................................................................7
4 Related Features...........................................................................................................................10
4.1 Features R elated to LOFD-003002 2G/3G and LTE Co-transmission........................................................................10
5 Network Impact...........................................................................................................................11
5.1 LOFD-003002 2G/3G and LTE Co-transmission........................................................................................................11
6 Other Impacts...............................................................................................................................12
6.1 LOFD-003002 2G/3G and LTE Co-transmission........................................................................................................12
6.1.1 NEs............................................................................................................................................................................12
6.1.2 Hardwar e...................................................................................................................................................................12
6.1.3 Inter-NE Interfaces....................................................................................................................................................12
6.1.4 Operation and Maintenance.......................................................................................................................................12
7 Engineering Guidelines.............................................................................................................13
7.1 When to Use LOFD-003002 2G/3G and LTE Co-transmission..................................................................................14
7.2 Required Information...................................................................................................................................................14
7.3 Planning........................................................................................................................................................................14
7.4 Deployment..................................................................................................................................................................14
7.4.1 Process.......................................................................................................................................................................14
7.4.2 Requirements.............................................................................................................................................................14
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description Contents
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7.4.3 Data Preparation........................................................................................................................................................15
7.4.4 Precautions.................................................................................................................................................................23
7.4.5 Hardware Adjustment................................................................................................................................................24
7.4.6 Initial Configuration..................................................................................................................................................24
7.4.7 Activation Observation..............................................................................................................................................28
7.4.8 Reconfiguration.........................................................................................................................................................28
7.4.9 Deactivation...............................................................................................................................................................28
7.5 Performance Monitoring...............................................................................................................................................28
7.6 Parameter Optimization................................................................................................................................................28
7.7 Troubleshooting............................................................................................................................................................28
8 Parameters.....................................................................................................................................29
9 Counters........................................................................................................................................50
10 Glossary.......................................................................................................................................52
11 Reference Documents...............................................................................................................53
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description Contents
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1 About This Document
1.1 Scope
This document describes the LOFD-003002 2G/3G and LTE Co-transmission feature including
implementation principles, feature dependencies, network impact, and engineering guidelines.
The eNodeB servers as a convergence node for the co-transmission.
This document applies to the following types of eNodeBs.
eNodeB Type Model
Macro 3900 series eNodeB
LampSite DBS3900
Any managed objects (MOs), parameters, alarms, or counters described herein correspond to
the software release delivered with this document. Any future updates will be described in the
product documentation delivered with future software releases.
This document applies only to LTE FDD. Any "LTE" in this document refers to LTE FDD, and
"eNodeB" refers to LTE FDD eNodeB.
1.2 Intended Audience
This document is intended for personnel who:
l Need to understand the features described herein
l Work with Huawei products
1.3 Change History
This section provides information about the changes in different document versions. There are
two types of changes, which are defined as follows:
eRAN
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l Feature change
Changes in features and parameters of a specified version as well as the affected entities.
l Editorial change
Changes in wording or addition of information and any related parameters affected by
editorial changes. Editorial change does not specify the affected entities.
eRAN7.0 01 (2014-04-26)
This is the first official release.This issue does not include any changes.
eRAN7.0 Draft A (2014-01-20)
This document is created for eRAN7.0.
1.4 Differences Between eNodeB TypesThe features described in this document are implemented in the same way on macro and
LampSite eNodeBs.
eRAN
2G/3G and LTE Co-transmission Feature Parameter
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2 Overview
2.1 Definition
With the 2G/3G and LTE Co-transmission feature, an eNodeB not only provides LTE services,
but also functions as a hub to provide routing and Dynamic Host Configuration Protocol (DHCP)
Relay functions to lower -level cascaded base stations (including GBTSs, eGBTSs, and NodeBs)
and to transmit data transparently to the base station controllers.
2.2 Benefits
The 2G/3G and LTE Co-transmission feature allows sharing physical ports and transmission bandwidth between radio access networks and simplifies configuration and maintenance
operations for transmission. This reduces capital expenditure (CAPEX) and operational
expenditure (OPEX).
2.3 Architecture
Table 2-1 describes a typical scenario for the 2G/3G and LTE Co-transmission feature.
Table 2-1 Typical scenario for the 2G/3G and LTE Co-transmission feature
CascadedBaseTransceiverStation
Networking
GBTS l The LMPT/UMPT of an eNodeB provides FE/GE ports to connect to
the BSC, MME, and S-GW and provides FE ports to connect to the
GTMU of a GBTS.
l The UMPT of an eNodeB provides IP-over-FE/GE ports to connect to
the BSC, MME, and S-GW and provides IP-over-E1/T1 ports to
connect to the GTMU of a GBTS.
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2G/3G and LTE Co-transmission Feature Parameter
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CascadedBaseTransceiverStation
Networking
eGBTS l The LMPT/UMPT of an eNodeB provides FE/GE ports to connect to
the BSC, MME, and S-GW and provides FE/GE ports to connect to the
UMPT of an eGBTS.
l The UMPT of an eNodeB provides FE/GE ports to connect to the BSC,
MME, and S-GW and provides IP-over-E1/T1 ports to connect to the
UMPT of an eGBTS.
NodeB l The LMPT/UMPT of an eNodeB provides FE/GE ports to connect to
the RNC, MME, and S-GW and provides FE ports to connect to the
WMPT of a NodeB.
l The LMPT/UMPT of an eNodeB provides FE/GE ports to connect to
the RNC, MME, S-GW, and the UMPT of a NodeB.
l The UMPT of an eNodeB provides FE/GE ports to connect to the RNC,
MME, and S-GW and IP-over-E1/T1 ports to connect to the UMPT/
WMPT of a NodeB.
NOTE
A scenario where an eNodeB uses IP-over-E1/T1 ports to connect to the BSC, RNC, MME, and S-GW is
rarely used on live networks and is not, therefore, described in this document. Such a scenario is uncommon
because:l The MME and S-GW generally do not support IP-over-E1/T1 ports.
l The eNodeB itself rarely uses IP-over-E1/T1 ports for transmission due to the low bandwidth provided
by the E1/T1 links.
For details about the cascading between an eNodeB and CDMA/WiMAX base stations, see the cascading
between an eNodeB and GSM/UMTS base stations in this document.
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2G/3G and LTE Co-transmission Feature Parameter
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3 Feature Component
3.1 Overview
This section describes the LOFD-003002 2G/3G and LTE Co-transmission feature.
NOTE
The difference between the LOFD-003002 2G/3G and LTE Co-transmission feature and the
MRFD-231501 IP-Based Multi-mode Co-Transmission on BS side(eNodeB) feature is that the eNodeB
cascaded with single-mode base stations implement the former, whereas a multi-mode base station using
panel-based or backplane-based interconnection implement the latter. For details about the MRFD-231501
IP-Based Multi-mode Co-Transmission on BS side (eNodeB) feature, see Common Transmission Feature
Parameter Description for SingleRAN.
With this feature, you can deploy eNodeBs in areas where Huawei base stations of other radio
access technologies (RATs), including GBTSs, eGBTSs, and NodeBs, have been deployed.
Using FE/GE ports and IP-over-E1/T1 ports, the eNodeBs can be cascaded with and share the
transmission resources of these base stations.
Figure 3-1 shows the co-transmission networking supported by an eNodeB.
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2G/3G and LTE Co-transmission Feature Parameter
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Figure 3-1 Co-transmission networking
In 2G/3G and LTE co-tr ansmission, an eNodeB, functioning as a convergence node, provides
the DHCP Relay function to the lower-level cascaded base stations. The eNodeB configures
routes for transit data flows, based on shared transmission resources, to forward the data flows.
In addition, users can configure the bandwidths of the specified resource groups to ensure the
transmission fairness between local data flows and transit data flows.
There are two scenarios for 2G/3G and LTE co-transmission:
l Co-transmission with a convergence device
l Co-transmission without a convergence device
3.2 Co-transmission with a Convergence Device
If a convergence device is used, data flows (for services, signaling, and O&M) of a GSM/UMTS
base station and an eNodeB converge at the device and are then transmitted over the IP network.
Figure 3-2 shows co-transmission with a convergence device.
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 3 Feature Component
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Figure 3-2 Co-transmission with a convergence device
In this scenario, the convergence device provides the data convergence function. This does not
affect eNodeB operations; however, it does increase the OPEX and management workload
because an NE must be deployed.
NOTE
In this scenario, a router is generally used as the convergence device. The detailed functions of a router are
not described in this document.
3.3 Co-transmission Without a Convergence Device
If a convergence device is not used, GSM/UMTS base stations use IP-over-E1/T1 or IP-over-
FE/GE ports to connect to an eNodeB. Data flows (for services, signaling, and O&M) from the
GSM/UMTS base stations and those from the eNodeB converge at the eNodeB and are then
transmitted over the IP network. Figure 3-3 shows co-transmission without a convergence
device.
eRAN
2G/3G and LTE Co-transmission Feature Parameter
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Figure 3-3 Co-transmission without a convergence device
The eNodeB implements co-transmission based on multiple ports, IP routing, DHCP Relay and
weighted round robin (WRR) scheduling.
Multiple Ports
To achieve co-transmission, the eNodeB must provide at least two E1/T1 or FE/GE physical
ports. One port connects to a base station of another RAT and the other connects to the bearer
network for IP transmission.
IP Routing
The eNodeB, functioning as a convergence node, uses IP routing to forward uplink and downlink
data flows of the lower-level cascaded base stations. By doing this, the eNodeB implements co-
transmission in IP networking mode.
The eNodeB considers data flows of cascaded base stations as transit data flows and performs
differentiated service scheduling based on the value of the Differentiated Services Code Point
(DSCP). The eNodeB cannot identify the service types of transit data flows. The eNodeB
functions as a router to forward the transit data flows based on their destination IP addresses.
DHCP Relay
Generally, a base station uses DHCP to obtain the IP address of packets, requiring that the DHCP
client (the base station) and DHCP server to be in the same broadcast domain.
In co-transmission mode, however, the cascaded GSM/UMTS base stations are not in the same
broadcast domain as the DHCP server. This requires that the eNodeB perform the DHCP Relay
function to complete the layer-3 DHCP process for all cascaded base stations. The eNodeB
converts DHCP broadcast messages from the cascaded GSM/UMTS base stations into unicast
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messages and then sends them to the DHCP server. After receiving a response from the DHCP
server, the eNodeB forwards the response to the GSM/UMTS base stations through the original
port.
The eNodeB configures the DHCP Relay function based on the parameters specified in the
configuration file. If it must configure the DHCP function, the eNodeB obtains information about
the DHCP server. The DHCP Relay function can also be manually enabled and applies to all
ports on the eNodeB. Up to four DHCP servers can be configured for an eNodeB.
WRR Scheduling
To prevent GSM/UMTS transit data flows from affecting eNodeB data flows, the eNodeB uses
dedicated transmission resource groups for the transit data flows. The eNodeB data flows
consume resources in other groups. The WRR scheduling function helps to control the data flows
between the transmission resource groups to ensure scheduling fairness.
To perform scheduling for queues in a transmission resource group, the LMPT/UMPT uses
priority queue (PQ) or WRR scheduling (non-PQ) so that each queue has a chance to be
scheduled. Each queue is assigned a weighted value based on the bandwidth of each transmission
resource group. The weighted value specifies how much group bandwidth each queue can use
for transmission. This ensures the fairness between transmission resource groups, while
maintaining the differentiation.
NOTE
If the eNodeB provides IP Protocol Security (IPSec) for the cascaded GSM/UMTS base stations, correct
Access Control List (ACL) rules must be configured for the cascaded base stations on the eNodeB. If the
ACL rules are incorrect, the transmission for the cascaded base stations will fail.
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4 Related Features
4.1 Features Related to LOFD-003002 2G/3G and LTE Co-transmission
This section describes the dependency of the LOFD-0030002 2G/3G and LTE Co-transmission
feature on other features.
Prerequisite Features
None
Mutually Exclusive Features
None
Impacted Features
None
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5 Network Impact
5.1 LOFD-003002 2G/3G and LTE Co-transmission
This section describes the network impact of the LOFD-003002 2G/3G and LTE Co-
transmission feature.
System Capacity
After you enable this feature, the eNodeB forwards the data flows of cascaded base stations. The
uplink and downlink traffic of the cascaded base stations occupies the transmission bandwidth
and affects the forwarding performance of the eNodeB.
Network Performance
After you enable this feature, services of the cascaded base stations will fail if the eNodeB is
faulty, being upgraded, or experiences transmission interruption.
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6 Other Impacts
6.1 LOFD-003002 2G/3G and LTE Co-transmission
6.1.1 NEs
No impact.
6.1.2 Hardware
No impact.
6.1.3 Inter-NE Interfaces
No impact.
6.1.4 Operation and Maintenance
License
N/A
Configuration Management
N/A
Performance Management
N/A
Fault management
N/A
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7 Engineering Guidelines
This chapter describes the engineering guidelines for 2G/3G and LTE Co-transmission
deployment, including when to use the feature, requirements, deployment process, data
preparation, and initial configuration.
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7.1 When to Use LOFD-003002 2G/3G and LTE Co-
transmissionCo-transmission mainly involves the DHCP Relay function, routing and address planning for
IP addresses of cascaded nodes, and transmission bandwidth planning for the eNodeB. IP-over-
FE/GE transmission is recommended for 2G/3G and LTE co-transmission because, due to the
low bandwidth provided by the E1/T1 links, the eNodeB rarely uses IP-over E1/T1 transmission.
This document provides engineering guidelines only for IP-over-FE/GE scenarios.
For information about the cascaded base station types and networking modes for 2G/3G and
LTE co-transmission, see Table 2-1.
7.2 Required InformationUsers can deploy the 2G/3G and LTE Co-transmission feature when the common transmission
parameters have been configured. For details about the configurations of common transmission
parameters, see IP Transmission Feature Parameter Description.
7.3 Planning
RF Planning
N/A
Network Planning
N/A
Hardware Planning
N/A
7.4 Deployment
7.4.1 Process
You must configure the common transmission parameters before enabling the 2G/3G and LTE
Co-transmission feature. For details about how to configure these parameters, see IP
Transmission Feature Parameter Descr iption.
7.4.2 Requirements
Operating Environment
None
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Transmission Networking
None
LicenseThis feature requires the purchase and activation of a license. Table 7-1 lists the license
information.
Table 7-1 License information for 2G/3G and LTE Co-transmission
Feature ID Feature Name LicenseControl Item
NE Sales Unit
LOFD-003002 2G/3G and LTE
Co-
transmission
2G/3G and LTE
Co-
transmission(FDD)
eNodeB per eNodeB
7.4.3 Data Preparation
This section describes the data that you need to collect for setting parameters. Required data is
data that you must collect for all scenarios. Collect scenario-specific data when necessary for a
specific feature deployment scenario.
There are three types of data sources:
l Network plan (negotiation required): parameter values planned by the operator and
negotiated with the EPC or peer transmission equipment
l Network plan (negotiation not required): parameter values planned and set by the operator
l User-defined: parameter values set by users
Prepare the following data before the deployment:
l The ETHPORT MO, which specifies the attribute of the Ethernet port for cascading on
the eNodeB. The key parameters in this MO are described in the following table.
Paramete
r Name
Paramete
r ID
Data Source Setting Notes
Subboard
Type
ETHPOR
T. SBT
Network plan
(negotiation not
required)
This parameter specifies the type of the
sub-board on the board where the
Ethernet port is located.
Set this parameter to BASE_BOARD
(Base Board).
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Parameter Name
Parameter ID
Data Source Setting Notes
Port
Attribute
ETHPOR
T. PA
Network plan
(negotiation notrequired)
This parameter specifies whether an
Ethernet port is an electrical port or optical port.
The port attribute of the physical port
must be consistent with that of the peer
port. You are advised to set this parameter
to AUTO(Automatic Detection).
You can also set this parameter based on
the attribute of the physical port.
NOTE
When the parameter is set to AUTO
(Automatic Detection), it takes about 1
minute to activate the port. If the electrical/optical attribute of peer port is modified, run
the RST ETHPORT command to reset the
peer port or the local Ethernet port.
Maximum
Transmissi
on Unit
ETHPOR
T. MTU
Network plan
(negotiation
required)
This parameter specifies the maximum IP
packet size (including the IP header) at the
Ethernet port.
Set this parameter according to the
transport network plan.
Speed ETHPOR
T. SPEED
Network plan
(negotiation
required)
This parameter specifies the speed mode
of the Ethernet port. This parameter must
be set to the same value as that of the peer
port.
Duplex ETHPOR
T.
DUPLEX
Network plan
(negotiation
required)
This parameter specifies the duplex mode
of the Ethernet port. This parameter must
be set to the same value as that of the peer
port.
l The DEVIP MO, which specifies the IP address of the port for cascading on the eNodeB.
The key parameters in this MO are described in the following table.
Parameter Name
Parameter ID
Data Source Setting Notes
Subboard
Type
DEVIP.
SBT
Network plan
(negotiation not
required)
This parameter specifies the type of the
sub-board on the board where a port is
located.
Set this parameter to BASE_BOARD
(Base Board).
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Parameter Name
Parameter ID
Data Source Setting Notes
IP Address DEVIP. IP Network plan
(negotiation notrequired)
This parameter specifies the IP address
configured for a port. The IP address must be in the same network segment as those
of the lower-level cascaded base stations.
Mask DEVIP.
MASK
Network plan
(negotiation not
required)
This parameter specifies the subnet mask
of the device IP address configured on a
port.
The device IP address must be in the same
network segment as the port IP addresses
of the cascaded base stations.
Port Type DEVIP.
PT
Network plan
(negotiation notrequired)
This parameter specifies the type of the
physical port.l If the eNodeB uses the E1/T1 port to
connect to the transport network, set
this parameter to PPP(PPP Link) or
MPGRP(Multi-link PPP Group).
l If the eNodeB uses the Ethernet port
to connect to the transport network, set
this parameter to ETH(Ethernet
Port) or ETHTRK(Ethernet
Trunk).
l In cascading scenarios, set this
parameter to the IP address of the
physical port.
l The IPRT MO, which specifies a route from the co-transmission port on the eNodeB to
the port of a lower-level cascaded base station. If the cascaded base station is a GBTS or a
NodeB, routes to the BSC or to the RNC and M2000 must be set, respectively. The key
parameters in this MO are described in the following table.
Parameter Name
Parameter ID
Data Source Setting Notes
Route
Index
IPRT.
RTIDX
Network plan
(negotiation not
required)
This parameter specifies the route index
of an IP route.
Destinatio
n IP
IPRT.
DSTIP
Network plan
(negotiation not
required)
l You are advised not to set both of
these parameters to 0.0.0.0.
l In cascading scenarios, a route to the
RNC or BSC must be set. The
destination IP address is the service IP
address of the RNC or BSC.
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Parameter Name
Parameter ID
Data Source Setting Notes
Mask IPRT.
DSTMAS
K
Network plan
(negotiation notrequired)
l In cascading scenarios, a route to the
logical IP address of the cascaded basestation must be set. The destination IP
address is the logical IP address of the
cascaded base station.
Subboard
Type
IPRT. SBT Network plan
(negotiation not
required)
This parameter specifies the type of sub-
board on the board where the IP route is
established.
Set this parameter to BASE_BOARD
(Base Board).
Route
Type
IPRT.
RTTYPE
Network plan
(negotiation not
required)
This parameter specifies the type of route.
l If the eNodeB uses the Ethernet port
to connect to the transport network, set
this parameter to NEXTHOP(Next
Hop).
l If the eNodeB uses the E1 port to
connect to the transport network, set
this parameter to IF(Exit Interface).
Port Type IPRT. IFT
Network plan(negotiation not
required)
This parameter specifies the type of a port.
If the eNodeB uses the E1 port to connect
to the transport network, set this
parameter to PPP(PPP Link) or
MPGRP(Multi-link PPP Group).
Next Hop
IP
IPRT.
NEXTHO
P
Network plan
(negotiation not
required)
This parameter specifies the IP address of
the next hop.
l This parameter is valid only when the
IPRT. RTTYPE parameter is set to
NEXTHOP(Next Hop).
l Set this parameter to the IP address of
the gateway on the transport network
to which the eNodeB is connected.
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Parameter Name
Parameter ID
Data Source Setting Notes
Priority IPRT.
PREF
Network plan
(negotiation notrequired)
This parameter specifies the priority of
the route.If a backup IP route is required, this
parameter is required to specify the
priorities of the active and backup routes.
The route with a higher priority is selected
as the active route. A smaller value
indicates a higher priority.
The eNodeB does not support route-level
load balancing. Therefore, routes to the
same destination network segment must
have different priorities.
l (Optional) The DHCPRELAYSWITCH MO, which specifies whether to turn on the
DHCP Relay switch on the eNodeB. This switch is turned on only when plug-and-play
(PnP) is used to deploy the base stations cascaded to the eNodeB. The key parameter in
this MO is described in the following table.
Parameter Name
Parameter ID
Data Source Setting Notes
DHCP
Relay
Switch
DHCPRE
LAYSWI
TCH. ES
Transport
planning
(internal
planning)
This parameter specifies whether to turn
on the DHCP Relay switch.
Set this parameter to ENABLE(Enable).
l (Optional) The DHCPSVRIP MO, which specifies the IP address of the DHCP server for
the cascaded base stations. The key parameter in this MO is described in the following
table.
ParameterName
Parameter ID
Data Source Setting Notes
DHCP
Server IP
Address
DHCPSV
RIP.
DHCPSV
RIP
Transport
planning
(internal
planning)
This parameter specifies the IP address of
the DHCP server.
l If the cascaded base station is a
NodeB, set this parameter to the IP
address of the M2000 or RNC.
l If the cascaded base station is a GBTS,
set this parameter to the IP address of
the BSC.
l (Optional) The RSCGRP MO, which specifies dedicated transmission resource groups for
services of the cascaded base stations. The eNodeB data flows use different transmission
resource groups with data flows of the cascaded base stations. The key parameters in this
MO are described in the following table.
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Parameter Name
Parameter ID
Data Source Setting Notes
Transmissi
onResource
Group ID
RSCGRP.
RSCGRPI
D
Network plan
(negotiation notrequired)
Set this parameter based on the network
plan.You are advised to set different
transmission resource groups for data
flows of the cascaded base stations and
the eNodeB.
Add transmission resource group ID only
if you need to measure the performance
counters.
Subboard
Type
RSCGRP.
SBT
Network plan
(negotiation not
required)
This parameter specifies the type of sub-
board on the board where the IP route is
established.
Set this parameter to BASE_BOARD
(Base Board).
Bearing
Port Type
RSCGRP.
PT
Network plan
(negotiation not
required)
This parameter specifies the type of a port
where a transmission resource group is
carried.
Set this parameter according to the type
of the physical port connecting the MME
and S-GW.
Tx
Bandwidth
RSCGRP.
TXBW
Network plan
(negotiation notrequired)
This parameter specifies the uplink
transport admission bandwidth for atransmission resource group that carries
eNodeB data flows and TX traffic
shaping bandwidth. This parameter is
used in single-rate mode. Set this
parameter based on the network plan.
Rx
Bandwidth
RSCGRP.
RXBW
Network plan
(negotiation not
required)
This parameter specifies the downlink
transport admission bandwidth for a
transmission resource group that carries
eNodeB data flows and has no impact on
transit data flows. This parameter is used
in single-rate mode. Set this parameter
based on the network plan.
Tx
Committed
Burst Size
RSCGRP.
TXCBS
Network plan
(negotiation not
required)
This parameter specifies the TX
committed burst size of a transmission
resource group.
Set this parameter based on the network
plan. The value of RSCGRP.TXCBS
must be greater than or equal to that of
RSCGRP.TXBW for traffic shaping of
the transmission resource group.
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Parameter Name
Parameter ID
Data Source Setting Notes
TX
ExcessiveBurst Size
RSCGRP.
TXEBS
Network plan
(negotiation notrequired)
This parameter specifies the TX
excessive burst size of a transmissionresource group.
Set this parameter based on the network
plan. You are advised to set this
parameter to two times that of the TX
Bandwidth value.
Scheduling
Weight
RSCGRP.
WEIGHT
Network plan
(negotiation not
required)
This parameter specifies the scheduling
weight of a transmission resource group.
This parameter is used in calculating the
bandwidth scheduled to a resource group,
which helps achieve the user admission
control.
Set this parameter based on the network
plan in case of physical bandwidth
restriction. You are advised to retain the
default value.
TX
Committed
Informatio
n Rate
RSCGRP.
TXCIR
Network plan
(negotiation not
required)
This parameter specifies the transmit
committed information rate (CIR) of the
transmission resource group, which is a
guarantee rate assigned by the operator.
Set this parameter based on the network
plan. This parameter is used in double-rate mode. The parameter value is used as
the uplink transport admission bandwidth
for a transmission resource group that
carries eNodeB data flows and TX traffic
shaping bandwidth for eNodeB or transit
data flows.
RX
Committed
Informatio
n Rate
RSCGRP.
RXCIR
Network plan
(negotiation not
required)
This parameter specifies the receive CIR
of the transmission resource group, which
is a guarantee rate assigned by the
operator. This parameter value is used as
the downlink transport admission
bandwidth for services that do not need
flow control.
Set this parameter based on the network
plan. This parameter is used in double-
rate mode. The parameter value is used as
the downlink transport admission
bandwidth for a transmission resource
group that carries eNodeB data flows.
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Parameter Name
Parameter ID
Data Source Setting Notes
TX Peak
Information Rate
RSCGRP.
TXPIR
Network plan
(negotiation notrequired)
This parameter specifies the peak
information rate (PIR) of thetransmission resource group.
Set this parameter based on the network
plan. This parameter is used in double-
rate mode. The parameter value is used as
the uplink transport admission bandwidth
for a transmission resource group that
carries eNodeB data flows and TX traffic
shaping bandwidth for eNodeB or transit
data flows.
RX Peak
Information Rate
RSCGRP.
RXPIR
Network plan
(negotiation notrequired)
This parameter specifies the receive PIR
of the transmission resource group. This parameter value is used as the downlink
transport admission bandwidth for a
transmission resource group.
This parameter is used in double-rate
mode. Set this parameter based on the
network plan.
TX Peak
Burst Size
RSCGRP.
TXPBS
Network plan
(negotiation not
required)
This parameter specifies the size of the
peak burst transmitted from the
transmission resource group.
Set this parameter based on the network plan. The value of RSCGRP.TXPBS
must be greater than or equal to that of
RSCGRP.TXCBS . The
RSCGRP.TXPBS must be greater than
or equal to that of RSCGRP.TXPIR.
l (Optional) The IP2RSCGRP MO, which specifies a dedicated transmission resource group
for services of the cascaded base stations. This document does not describe how to specify
a transmission resource group for local data flows. For detailed operations, see Transport
Resource Management Feature Parameter Description. The key parameters in this MOare described in the following table.
Parameter Name
Parameter ID
Data Source Setting Notes
Mapping
Index
IP2RSCG
RP .
MAPIDX
Network plan
(negotiation
not required)
This parameter specifies the mapping
between an IP address and the
transmission resource group. This
parameter is used to specify the mapping
transmission resource group for transit
data flows.
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Parameter Name
Parameter ID
Data Source Setting Notes
Transmissi
onResource
Group Bear
Type
IP2RSCG
RP .BEAR
Network plan
(negotiationnot required)
This parameter specifies the bearer type
of a transmission resource group. Set this parameter to IP(IP).
Bearing
Port Type
IP2RSCG
RP .PT
Network plan
(negotiation
not required)
This parameter specifies the type of a port
where a transmission resource group is
carried. This parameter is used to specify
the type of an eNodeB port, through
which transit data flows are transmitted.
Bearing
Port No.
IP2RSCG
RP .PN
Network plan
(negotiationnot required)
This parameter specifies the number of a
port where a transmission resource groupis carried. This parameter is used to
specify the number of an eNodeB port,
through which transit data flows are
transmitted.
Transmissi
on
Resource
Group ID
IP2RSCG
RP .
RSCGRPI
D
Network plan
(negotiation
not required)
This parameter specifies the ID of a
transmission resource group. This
parameter is used to specify the ID of a
transmission resource group for transit
data flows that are transmitted through
the eNodeB.
Destinatio
n IP
IP2RSCG
RP .DSTIP
Network plan
(negotiation
not required)
This parameter specifies the destination
IP address of the data flow that is bound
to a transmission resource group. This
parameter is used to specify a destination
IP address for transit data flows.
Mask IP2RSCG
RP .
DSTMAS
K
Network plan
(negotiation
not required)
This parameter specifies the subnet mask
of the destination IP address of the data
flow that is bound to a transmission
resource group. This parameter is used to
specify a subnet mask of the destination
IP address for transit data flows.
7.4.4 Precautions
If a lower-level base station is a NodeB,
l The destination IP address of the DHCP Relay route to the NodeB is the IP address of an
eNodeB port. If the eNodeB has multiple port IP addresses, the routes to all the ports must
be set. You can set the destination IP address on the M2000.
l The next hop of the route from the NodeB to the RNC is the IP address of the eNodeB port
connected to the NodeB.
If a lower-level base station is a GBTS/eGBTS,
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l The next hop of the route from the GBTS/eGBTS to the BSC is the IP address of the eNodeB
port connected to the GBTS/eGBTS.
l The destination IP address of the DHCP Relay route to the GBTS is the IP address of an
eNodeB port. If the eNodeB has multiple port IP addresses, the routes to all the ports must
be set. You can set the destination IP address on the BSC.
l The destination IP address of the DHCP Relay route to the eGBTS is the IP address of an
eNodeB port. If the eNodeB has multiple port IP addresses, the routes to all the ports must
be set. You can set the destination IP address on the M2000.
7.4.5 Hardware Adjustment
N/A
7.4.6 Initial Configuration
Using the CME to Perform Batch Configuration for Newly Deployed eNodeBs
Enter the values of the parameters listed in Table 7-2 in a summary data file, which also contains
other data for the new eNodeBs to be deployed. Then, import the summary data file into the
CME for batch configuration. For detailed instructions, see section "Creating eNodeBs in
Batches" in the initial configuration guide for the eNodeB.
The summary data file may be a scenario-specific file provided by the CME or a customized
file, depending on the following conditions:
l The MOs in Table 7-2 are contained in a scenario-specific summary data file. In this
situation, set the parameters in the MOs, and then verify and save the file.
l Some MOs in Table 7-2 are not contained in a scenario-specific summary data file. In thissituation, customize a summary data file to include the MOs before you can set the
parameters.
l The template Basic Scenario: using for the scenario of vlan and without security, etc is
used in non-security scenarios.
l The template Security Scenario: using for the Scenario of ACL, Pre-Shared key or RSA
Digital Certificate Signature, etc is used in security scenarios.
Table 7-2 Parameters related to 2G/3G and LTE Co-transmission
MO Sheet in the
SummaryData File
MO Name Parameter Group Remarks
ETHPOR
T
Base Station
Transport
Data
Ethport
Attribute
PortNo1, PortAttr1 -
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MO Sheet in theSummaryData File
MO Name Parameter Group Remarks
DEVIP DevIPPattern DevIPPatter n CabinetNo,SubrackNo, SlotNo,
SubboardType,
PortType, PortNo, IP,
Mask, Description
This sheetreferences the IP
address information
about S1 interface,
X2 interface, OM, or
clock channels in the
Base Station
Transport Data
sheet.
IPRT IPRoutePatter
n
IPRoute CabinetNo,
SubrackNo, SlotNo,
SubboardType,PortType, PortNo,
RouteType, DstIP,
Mask, NextHopIP,
RoutePriority,
*Description Info
This sheet
references the
Destination IP1,Destination
Mask1, and Next
Hop IP Address1 of
the eNodeB
parameter group in
the Base Station
Transport Data
sheet.
DHCPRE
LAYSWI
TCH
Common Data DHCPREL
AYSWITC
H
DHCP Relay Switch -
DHCPSV
RIP
Common Data DHCPSVRI
P
DHCP Server IP
Address
-
Using the CME to Perform Batch Configuration for Existing eNodeBs
Batch reconfiguration using the CME is the recommended method to activate a feature on
existing eNodeBs. This method reconfigures all data, except neighbor relationships, for multiple
eNodeBs in a single procedure. The procedure is as follows:
Step 1 After creating a planned data area, choose CME > Advanced > Customize Summary Data File
(U2000 client mode), or choose Advanced > Customize Summary Data File (CME client mode),
to customize a summary data file for batch reconfiguration.
NOTE
For context-sensitive help on a current task in the client, press F1.
Step 2 Choose CME > LTE Application > Export Data > Export Base Station Bulk Configuration
Data (U2000 client mode), or choose LTE Application > Export Data > Export Base Station
Bulk Configuration Data (CME client mode), to export the eNodeB data stored on the CME into
the customized summary data file.
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Step 3 In the summary data file, set the parameters in the MOs listed in Table 7-2 and close the file.
Step 4 Choose CME > LTE Application > Import Data > Import Base Station Bulk Configuration
Data (U2000 client mode), or choose LTE Application > Import Data > Import Base Station
Bulk Configuration Data (CME client mode), to import the summary data file into the CME,
and then start the data verification.
Step 5 After data verification is complete, choose CME > Planned Area > Export Incremental Scripts
(U2000 client mode), or choose Area Management > Planned Area > Export Incremental
Scripts (CME client mode), to export and activate the incremental scripts.
----End
Using the CME to Perform Single Configuration
On the CME, set the parameters listed in the "Data Preparation" section for a single eNodeB.
The procedure is as follows:
Step 1 In the planned data area, click Base Station in the upper left corner of the configuration window.
Step 2 In area 1 shown in Figure 7-1, select the eNodeB to which the MOs belong.
Figure 7-1 MO search and configuration window
Step 3 On the Search tab page in area 2, enter an MO name, for example, CELL.
Step 4 In area 3, double-click the MO in the Object Name column. All the parameters in this MO are
displayed in area 4.
Step 5 Set the parameters in area 4 or 5.
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Step 6 Choose CME > Planned Area > Export Incremental Scripts (U2000 client mode), or choose
Area Management > Planned Area > Export Incremental Scripts (CME client mode), to export
and activate the incremental scripts.
----End
Using MML Commands
Perform the following steps on the eNodeB:
Step 1 Run the SET ETHPORT command to set the attribute of the Ethernet port cascaded to the
eNodeB.
Step 2 Run the ADD DEVIP command to set the device IP address of the Ethernet port cascaded to
the eNodeB. The IP addresses of the interconnected ports must be in the same network segment.
Step 3 Run the ADD IPRT command to add the routes from the eNodeB to the peer devices of thelower-level cascaded base stations.
l If the cascaded base station is a GBTS/eGBTS, the peer device is the BSC.
l If the cascaded base station is a NodeB, the peer devices are the RNC and M2000.
Step 4 (Optional) Run the SET DHCPRELAYSWITCH command to turn on the DHCP Relay switch.
Step 5 (Optional) Run the ADD DHCPSVRIP command to set the IP address of the DHCP server for
the cascaded base stations.
l If the cascaded base station is a GBTS/eGBTS, the DHCP server is the BSC.
l If the cascaded base station is a NodeB, the DHCP server is the RNC or M2000.
----End
MML Command Examples
To set the attribute of the Ethernet port cascaded to the eNodeB, run the following command:
SET ETHPORT: CN=0, SRN=0, SN=7, SBT=BASE_BOARD, PN=1, PA=FIBER, MTU=1500,
SPEED=1000M, DUPLEX=FULL, ARPPROXY=ENABLE, FC=OPEN, FERAT=10, FERDT=10;
To set the device IP address of the Ethernet port cascaded to the eNodeB, run the following
command:
ADD DEVIP: SN=7, SBT=BASE_BOARD, PT=ETH, PN=1, IP="10.2.2.2", MASK="255.255.255.0";
To add the route from the eNodeB to the peer device of the lower-level cascaded base station
(GBTS in this example), run the following command:
ADD IPRT: SN=7, SBT=BASE_BOARD, DSTIP="100.3.3.3", DSTMASK="255.255.255.0",
RTTYPE=NEXTHOP, NEXTHOP="10.1.1.2", PREF=60;
To turn on the DHCP Relay switch on the eNodeB, run the following command:
SET DHCPRELAYSWITCH: ES=ENABLE;
To set the IP address of the DHCP server for the GBTS, run the following command:
ADD DHCPSVRIP: DHCPSVRIP="100.3.3.3";
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7.4.7 Activation Observation
Perform the following steps on the eNodeB to check whether the transmission links from the
eNodeB to the MME and S-GW are normal:
Step 1 Ping the IP addresses of the MME and S-GW on the eNodeB. If the ping operations succeed,
the transmission links are normal.
Step 2 Ping the IP address of the NodeB on the RNC and the IP addresses of the GBTS and eGBTS on
the BSC. If the ping operations succeed, the feature has been enabled.
----End
7.4.8 Reconfiguration
None
7.4.9 Deactivation
None
7.5 Performance Monitoring
None
7.6 Parameter Optimization
N/A
7.7 Troubleshooting
For details about IP transmission fault location and troubleshooting, see eRAN Troubleshooting
Guide.
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8 Parameters
Table 8-1 Parameter description
MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
ETHPO
RT
SBT ADD
ETHPO
RT
DSP
ETHPO
RT
RMVETHPO
RT
RST
ETHPO
RT
SET
ETHPO
RT
LST
ETHPO
RT
None None Meaning: Indicates the type of sub-board on the board
where the Ethernet port is located.
GUI Value Range: BASE_BOARD(Base Board),
ETH_COVERBOARD(Ethernet Cover Board)
Unit: None
Actual Value Range: BASE_BOARD,
ETH_COVERBOARD
Default Value: None
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
ETHPORT PA ADDETHPO
RT
SET
ETHPO
RT
DSP
DHCPR
SLT
DSP
ETHPO
RT
LST
ETHPO
RT
WRFD-050402
GBFD-1
18601
IPTransmi
ssion
Introduc
tion on
Iub
Interface
Abis
over IP
Meaning: Indicates whether an Ethernet port is anelectrical port or optical port. When the system starts,
the system binds an Ethernet port to an optical port
preferentially if the default value of the port attribute is
AUTO. If the BS does not support cascading, the port
attribute is set to AUTO. If this parameter is incorrectly
set, services of a base station will be interrupted after
the base station is reset.
GUI Value Range: COPPER(Copper), FIBER(Fiber),
AUTO(Automatic Detection)
Unit: None
Actual Value Range: COPPER, FIBER, AUTO
Default Value: None
ETHPO
RT
MTU ADD
ETHPO
RT
SET
ETHPO
RT
DSP
ETHPO
RT
LST
ETHPO
RT
WRFD-
050402
GBFD-1
18601
IP
Transmi
ssion
Introduc
tion on
Iub
Interface
Abis
over IP
Meaning: Indicates the maximum IP packet size
(including the IP header) at the Ethernet port. For the
UMPT, LMPT, and UTRPc, the value of this parameter
ranges from 46 to 1800. For the WMPT, UQEC, and
UEOC, the value of this parameter ranges from 46 to
1500. If this parameter is set to a value greater than the
maximum allowed value, the maximum allowed valuetakes effect. A value greater than or equal to 776 is
recommended, because broadcast packets, such as
DHCP packets, may experience reception or
transmission failures if the maximum transmission unit
is smaller than 776. If the Ethernet port is added to an
Ethernet trunk, this parameter becomes invalid. The
actual maximum transmission unit depends on the value
set for the Ethernet trunk.
GUI Value Range: 46~1800
Unit: byte
Actual Value Range: 46~1800
Default Value: 1500
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
ETHPORT SPEED ADDETHPO
RT
SET
ETHPO
RT
DSP
DHCPR
SLT
LST
ETHPO
RT
WRFD-050402
GBFD-1
18601
IPTransmi
ssion
Introduc
tion on
Iub
Interface
Abis
over IP
Meaning: Indicates the speed mode of the Ethernet port.This parameter must be set to the same value as that of
the peer port. GE electrical ports of base board support
1000 Mbit/s only when working in auto-negotiation
mode. If SPEED of a GE optical port is set to AUTO,
the port works at 1000 Mbit/s in auto-negotiation mode.
If SPEED of a GE optical port is set to 1000M, the port
works at 1000 Mbit/s in manual configuration mode.
GUI Value Range: 10M(10M), 100M(100M), 1000M
(1000M), AUTO(Automatic Negotiation)
Unit: None
Actual Value Range: 10M, 100M, 1000M, AUTO
Default Value: AUTO(Automatic Negotiation)
ETHPO
RT
DUPLE
X
ADD
ETHPO
RT
SET
ETHPO
RT
DSP
DHCPR
SLT
LST
ETHPO
RT
WRFD-
050402
GBFD-1
18601
IP
Transmi
ssion
Introduc
tion on
Iub
Interface
Abis
over IP
Meaning: Indicates the duplex mode of the Ethernet
port.
GUI Value Range: FULL(Full Duplex), AUTO
(Automatic Negotiation)
Unit: None
Actual Value Range: FULL, AUTO
Default Value: FULL(Full Duplex)
DEVIP SBT ADD
DEVIP
MOD
DEVIP
RMV
DEVIP
DSP
DEVIP
LST
DEVIP
None None Meaning: Indicates the type of sub-board on the board
where a port is located.
GUI Value Range: BASE_BOARD(Base Board),
E1_COVERBOARD(E1 Cover Board),
BACK_BOARD(Back Board), ETH_COVERBOARD
(Ethernet Cover Board)
Unit: None
Actual Value Range: BASE_BOARD,
E1_COVERBOARD, BACK_BOARD,
ETH_COVERBOARD
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
DEVIP IP ADDDEVIP
MOD
DEVIP
RMV
DEVIP
DSP
DEVIP
DSP
MULTI
CASTIP
LST
DEVIP
WRFD-050402
WRFD-
050411
GBFD-1
18601
GBFD-1
18611
IPTransmi
ssion
Introduc
tion on
Iub
Interface
Fraction
al IP
Function
on Iub
Interface
Abis
over IP
Abis IP
over E1/
T1
Meaning: Indicates the IP address configured for the port.
GUI Value Range: Valid IP address
Unit: None
Actual Value Range: Valid IP address
Default Value: None
DEVIP MASK ADD
DEVIP
DSP
DEVIP
LST
DEVIP
WRFD-
050402
WRFD-
050411
GBFD-1
18601
GBFD-1
18611
IP
Transmi
ssion
Introduc
tion onIub
Interface
Fraction
al IP
Function
on Iub
Interface
Abis
over IP
Abis IPover E1/
T1
Meaning: Indicates the subnet mask of the device IP
address configured on the port.
GUI Value Range: Valid Mask address
Unit: None
Actual Value Range: Valid Mask address
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
DEVIP PT ADDDEVIP
MOD
DEVIP
RMV
DEVIP
DSP
DEVIP
LST
DEVIP
None None Meaning: Indicates the type of the physical port. TheUMTS currently does not support SUBIF.
GUI Value Range: PPP(PPP Link), MPGRP(Multi-link
PPP Group), ETH(Ethernet Port), ETHTRK(Ethernet
Trunk), LOOPINT(Loopback Interface), SUBIF(Sub-
interface)
Unit: None
Actual Value Range: PPP, MPGRP, ETH, ETHTRK,
LOOPINT, SUBIF
Default Value: None
IPRT RTIDX ADDIPRT
MOD
IPRT
RMV
IPRT
LST
IPRT
GBFD-118601
GBFD-1
18611
Abisover IP
Abis IP
over E1/
T1
Meaning: Indicates the index of an IP route.
GUI Value Range: 0~131
Unit: None
Actual Value Range: 0~131
Default Value: None
IPRT DSTIP ADD
IPRT
MOD
IPRT
DSP
IPRT
LST
IPRT
WRFD-
050402
WRFD-
050107
GBFD-1
18601
GBFD-1
18611
LOFD-0
03006
IP
Transmi
ssion
Introduc
tion on
Iub
Interface
IP
routing
Based
Hub
Node B
Abisover IP
Abis IP
over E1/
T1
IP Route
Backup
Meaning: Indicates the destination IP address of the
route.
GUI Value Range: Valid IP address
Unit: None
Actual Value Range: Valid IP address
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IPRT DSTMASK ADDIPRT
MOD
IPRT
DSP
IPRT
LST
IPRT
WRFD-050402
WRFD-
050107
GBFD-1
18601
GBFD-1
18611
LOFD-0
03006
IPTransmi
ssion
Introduc
tion on
Iub
Interface
IP
routing
Based
Hub
Node B
Abis
over IP
Abis IP
over E1/
T1
IP Route
Backup
Meaning: Indicates the subnet mask for the destinationIP address of the route.
GUI Value Range: Valid Mask address
Unit: None
Actual Value Range: Valid Mask address
Default Value: None
IPRT SBT ADD
IPRT
MOD
IPRT
LST
IPRT
None None Meaning: Indicates the type of sub-board on the board
where the IP route is established.
GUI Value Range: BASE_BOARD(Base Board),
UNCHANNELLED_COVERBOARD(Unchannelled
Cover Board), E1_COVERBOARD(E1 Cover Board),
BACK_BOARD(Back Board), ETH_COVERBOARD
(Ethernet Cover Board)
Unit: None
Actual Value Range: BASE_BOARD,
UNCHANNELLED_COVERBOARD,
E1_COVERBOARD, BACK_BOARD,
ETH_COVERBOARD
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IPRT RTTYPE ADDIPRT
MOD
IPRT
DSP
IPRT
LST
IPRT
WRFD-050402
WRFD-
050107
GBFD-1
18601
GBFD-1
18611
LOFD-0
03006
IPTransmi
ssion
Introduc
tion on
Iub
Interface
IP
routing
Based
Hub
Node B
Abis
over IP
Abis IP
over E1/
T1
IP Route
Backup
Meaning: Indicates the type of route. If this parameter is set to NEXTHOP, all the IP packets that meet the
route direction are first forwarded to the specified next
hop IP address. If this parameter is set to IF, all the IP
packets that meet the route direction are first forwarded
to the specified egress port.
GUI Value Range: NEXTHOP(Next Hop), IF(Exit
Interface)
Unit: None
Actual Value Range: NEXTHOP, IF
Default Value: None
IPRT IFT ADD
IPRT
MOD
IPRT
LST
IPRT
WRFD-
050402
WRFD-
050107
GBFD-1
18601
GBFD-1
18611
LOFD-0
03006
IP
Transmi
ssion
Introduc
tion on
Iub
Interface
IP
routing
Based
Hub
Node B
Abisover IP
Abis IP
over E1/
T1
IP Route
Backup
Meaning: Indicates the type of port.
GUI Value Range: PPP(PPP Link), MPGRP(Multi-link PPP Group), TUNNEL(Tunnel), IPOA(IP Over ATM
Interface)
Unit: None
Actual Value Range: PPP, MPGRP, TUNNEL, IPOA
Default Value: PPP(PPP Link)
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
35
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IPRT NEXTHOP ADDIPRT
MOD
IPRT
DSP
IPRT
LST
IPRT
WRFD-050402
WRFD-
050107
GBFD-1
18601
GBFD-1
18611
LOFD-0
03006
IPTransmi
ssion
Introduc
tion on
Iub
Interface
IP
routing
Based
Hub
Node B
Abis
over IP
Abis IP
over E1/
T1
IP Route
Backup
Meaning: Indicates the IP address of the next hop.GUI Value Range: Valid IP address
Unit: None
Actual Value Range: Valid IP address
Default Value: 0.0.0.0
IPRT PREF ADD
IPRT
MOD
IPRT
DSP
IPRT
LST
IPRT
WRFD-
050402
WRFD-
050107
GBFD-1
18601
GBFD-1
18611
LOFD-0
03006
IP
Transmi
ssion
Introduc
tion on
Iub
Interface
IP
routing
Based
Hub
Node B
Abisover IP
Abis IP
over E1/
T1
IP Route
Backup
Meaning: Indicates the priority of the routing table
entry. A smaller parameter value indicates a higher
priority.
GUI Value Range: 1~255
Unit: None
Actual Value Range: 1~255
Default Value: 60
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
DHCPR ELAYS
WITCH
ES SETDHCPR
ELAYS
WITCH
LST
DHCPR
ELAYS
WITCH
MRFD-221501
WRFD-
031101
MRFD-
231501
LBFD-0
0300102
/
TDLBF
D-00300
102
LBFD-0
0300103
/
TDLBF
D-00300
103
MRFD-
211501
IP-Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(NodeB)
NodeB
Self-
discover
y Based
on IP
Mode
IP-
Based
Multi-
mode
Co-
Transmi
ssion on
BS side(eNode
B)
Chain
Topolog
y
Tree
Topolog
y
IP-
BasedMulti-
mode
Co-
Transmi
ssion on
BS side
(GBTS)
Meaning: Indicates whether to enable the DHCP relayswitch.
GUI Value Range: DISABLE(Disable), ENABLE
(Enable)
Unit: None
Actual Value Range: DISABLE, ENABLE
Default Value: DISABLE(Disable)
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
DHCPSVRIP DHCPSVRIP ADDDHCPS
VRIP
RMV
DHCPS
VRIP
LST
DHCPS
VRIP
WRFD-031101
MRFD-
211501
LBFD-0
0300102
/
TDLBF
D-00300
102
LBFD-00300103
/
TDLBF
D-00300
103
NodeBSelf-
discover
y Based
on IP
Mode
IP-
Based
Multi-
mode
Co-
Transmission on
BS side
(GBTS)
Chain
Topolog
y
Tree
Topolog
y
Meaning: Indicates the IP address of the DHCP server.GUI Value Range: Valid IP address
Unit: None
Actual Value Range: Valid IP address
Default Value: None
RSCGR P
RSCGR PID
ADDRSCGR
P
DSP
RSCGR
P
MOD
RSCGR
P
RMV
RSCGR P
LST
RSCGR
P
WRFD-0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmission
Recours
e
Sharing
on Iub/
Iur
Interface
Enhance
d
Transmi
ssion
QoS
Manage
ment
IP QOS
Meaning: Indicates the ID of a transmission resourcegroup.When you add a PPP link, an MP group, an
Ethernet port, an Ethernet trunk, a tunnel, or a PPPoE
link, the system automatically creates an algorithm for
the transmission resource group with Transmission
Resource Group ID set to DEFAULTPORT(Default
Port). When you remove any of the preceding objects,
the system automatically removes the algorithm for the
transmission resource group.
GUI Value Range: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12,
13, 14, 15, DEFAULTPORT(Default Port)
Unit: None
Actual Value Range: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, DEFAULTPORT
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
RSCGR P SBT ADDRSCGR
P
DSP
RSCGR
P
MOD
RSCGR
P
RMV
RSCGR
P
LST
RSCGR
P
None None Meaning: Indicates the type of sub-board on thetransmission group. The LTE currently does not support
UNCHANNELLED_COVERBOARD.
GUI Value Range: BASE_BOARD(Base Board),
UNCHANNELLED_COVERBOARD(Unchannelled
Cover Board), E1_COVERBOARD(E1 Cover Board),
BACK_BOARD(Back Board), ETH_COVERBOARD
(Ethernet Cover Board)
Unit: None
Actual Value Range: BASE_BOARD,
UNCHANNELLED_COVERBOARD,
E1_COVERBOARD, BACK_BOARD,ETH_COVERBOARD
Default Value: None
RSCGR
P
PT ADD
RSCGR
P
DSP
RSCGR
P
MOD
RSCGR
P
RMV
RSCGR
P
LST
RSCGR
P
None None Meaning: Indicates the type of port where a
transmission resource group is carried. The LTE
currently does not support STM1, IMA, UNI, or
FRAATM.
GUI Value Range: IMA(IMA Group), UNI(UNI Link),
STM1(STM1), FRAATM(FRAATM Link), PPP(PPP
Link), MPGRP(Multi-link PPP Group), ETH(EthernetPort), ETHTRK(Ethernet Trunk), TUNNEL(Tunnel)
Unit: None
Actual Value Range: IMA, UNI, STM1, FRAATM,
PPP, MPGRP, ETH, ETHTRK, TUNNEL
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
RSCGR P TXBW ADDRSCGR
P
MOD
RSCGR
P
DSP
RSCGR
P
LST
RSCGR
P
WRFD-0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmission
Recours
e
Sharing
on Iub/
Iur
Interface
Enhance
d
Transmi
ssionQoS
Manage
ment
IP QOS
Meaning: Indicates the maximum uplink bandwidth of a transmission resource group at the MAC layer when
the transmission resource group is carried over IP. This
parameter value is used as the uplink transport
admission bandwidth and TX traffic shaping
bandwidth.The LMPT can be configured with a
maximum of 360 Mbit/s TX bandwidth.The WMPT can
be configured with a maximum of 300 Mbit/s TX
bandwidth.The UMPT or UTRPc can be configured
with a maximum of 1 Gbit/s TX bandwidth.The value
of TX bandwidth is set to the maximum value of TX
bandwidth supported by the board when it bigger than
the maximum one. For a WMPT and a UTRP (excluding
UTRPa), this parameter does not specify the TX traffic
shaping bandwidth of the transmission resource group
that is carried on the PPP link.
GUI Value Range: 32~1000000
Unit: None
Actual Value Range: 32~1000000
Default Value: None
RSCGR
P
RXBW ADD
RSCGR P
MOD
RSCGR
P
DSP
RSCGR
P
LST
RSCGR
P
WRFD-
02130406
WRFD-
0106101
0
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-118605
Transmi
ssionRecours
e
Sharing
on Iub/
Iur
Interface
HSDPA
Flow
Control
Enhance
d
Transmi
ssion
QoS
Manage
ment
IP QOS
Meaning: Indicates the RX bandwidth of a transmission
resource group.To LTE, this parameter value is alsoused as the downlink transport admission
bandwidth.The minimum rate supported by the UMPTb
is 64 Kbit/s.The LMPT can be configured with a
maximum of 540 Mbit/s RX bandwidth.The WMPT can
be configured with a maximum of 300 Mbit/s RX
bandwidth.The UMPT or UTRPc can be configured
with a maximum of 1 Gbit/s RX bandwidth.The value
of RX bandwidth is set to the maximum value of RX
bandwidth supported by the board when it bigger than
the maximum one.
GUI Value Range: 32~1000000Unit: None
Actual Value Range: 32~1000000
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
RSCGR P TXCBS ADDRSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmission
Recours
e
Sharing
on Iub/
Iur
Interface
Enhance
d
Transmi
ssionQoS
Manage
ment
IP QOS
Meaning: Indicates the TX committed burst size of atransmission resource group.The LMPT can be
configured with a maximum of 400 Mbit/s TX
committed burst size.The WMPT can be configured
with a maximum of 600 Mbit/s TX committed burst
size.The WMPT can be configured with a maximum of
600 Mbit/s TX committed burst size.The UMPT or
UTRPc can be configured with a maximum of 1 Gbit/s
TX committed burst size.The value of TX committed
burst size is set to the maximum value of TX committed
burst size supported by the board when it bigger than
the maximum one.
GUI Value Range: 64~1000000
Unit: Kbit
Actual Value Range: 64~1000000
Default Value: 64
RSCGR
P
TXEBS ADD
RSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-
0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmi
ssion
Recours
e
Sharing
on Iub/Iur
Interface
Enhance
d
Transmi
ssion
QoS
Manage
ment
IP QOS
Meaning: Indicates the TX excessive burst size of a
transmission resource group.The LMPT can be
configured with a maximum of 450 Mbit/s TX excessive
burst size.The WMPT can be configured with a
maximum of 600 Mbit/s TX excessive burst size.The
UMPTor UTRPc can be configured with a maximum of 1 Gbit/s TX excessive burst size.The value of TX
excessive burst size is set to the maximum value of TX
excessive burst size supported by the board when it
bigger than the maximum one.
GUI Value Range: 64~1000000
Unit: Kbit
Actual Value Range: 64~1000000
Default Value: 1000000
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
Issue 01 (2014-04-26) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
RSCGR P WEIGHT ADDRSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmission
Recours
e
Sharing
on Iub/
Iur
Interface
Enhance
d
Transmi
ssionQoS
Manage
ment
IP QOS
Meaning: Indicates the scheduling weight of atransmission resource group. This parameter is used in
calculating the bandwidth scheduled to a resource
group, which helps achieve the user admission control.
GUI Value Range: 1~100
Unit: None
Actual Value Range: 1~100
Default Value: 100
RSCGR
P
TXCIR ADD
RSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-
0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmi
ssion
Recours
e
Sharing
on Iub/Iur
Interface
Enhance
d
Transmi
ssion
QoS
Manage
ment
IP QOS
Meaning: Indicates the transmit CIR of the transmission
resource group.The LMPT can be configured with a
maximum of 360 Mbit/s TX committed information
rate.The UMPT or UTRPc can be configured with a
maximum of 1 Gbit/s TX committed information
rate.The value of TX committed information rate is setto the maximum value of TX committed information
rate supported by the board when it bigger than the
maximum one.
GUI Value Range: 64~1000000
Unit: None
Actual Value Range: 64~1000000
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
RSCGR P RXCIR ADDRSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmission
Recours
e
Sharing
on Iub/
Iur
Interface
Enhance
d
Transmi
ssionQoS
Manage
ment
IP QOS
Meaning: Indicates the receive CIR of the transmissionresource group. This parameter value is used as the
downlink transport admission bandwidth for non-flow-
control services. The LMPT can be configured with a
maximum of 540 Mbit/s RX committed information
rate. The UMPT or UTRPc can be configured with a
maximum of 1 Gbit/s RX committed information rate.
The value of RX committed information rate is set to
the maximum value of RX committed information rate
supported by the board when it bigger than the
maximum one. Only the LTE supports this function
currently.
GUI Value Range: 64~1000000
Unit: None
Actual Value Range: 64~1000000
Default Value: None
RSCGR
P
TXPIR ADD
RSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-
0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmi
ssion
Recours
e
Sharing
on Iub/Iur
Interface
Enhance
d
Transmi
ssion
QoS
Manage
ment
IP QOS
Meaning: Indicates the transmit PIR of the transmission
resource group.The LMPT can be configured with a
maximum of 360 Mbit/s TX peak information rate.The
UMPT or UTRPc can be configured with a maximum
of 1 Gbit/s TX peak information rate.The value of TX
peak information rate is set to the maximum value of TX peak information rate supported by the board when
it bigger than the maximum one.
GUI Value Range: 64~1000000
Unit: None
Actual Value Range: 64~1000000
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
RSCGR P RXPIR ADDRSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmission
Recours
e
Sharing
on Iub/
Iur
Interface
Enhance
d
Transmi
ssionQoS
Manage
ment
IP QOS
Meaning: Indicates the receive PIR of the transmissionresource group. This parameter value is used as the
downlink transport admission bandwidth. The LMPT
can be configured with a maximum of 540 Mbit/s RX
peak information rate. The UMPT or URTPc can be
configured with a maximum of 1 Gbit/s RX peak
information rate. The value of RX peak information rate
is set to the maximum value of RX peak information
rate supported by the board when it bigger than the
maximum one. Only the LTE supports this function
currently.
GUI Value Range: 64~1000000
Unit: None
Actual Value Range: 64~1000000
Default Value: None
RSCGR
P
TXPBS ADD
RSCGR
P
MOD
RSCGR
P
LST
RSCGR
P
WRFD-
0213040
6
LOFD-0
03011 /
TDLOF
D-00301
1
GBFD-1
18605
Transmi
ssion
Recours
e
Sharing
on Iub/Iur
Interface
Enhance
d
Transmi
ssion
QoS
Manage
ment
IP QOS
Meaning: Indicates the size of the peak burst transmitted
from the transmission resource group.The LMPT can be
configured with a maximum of 540 Mbit/s TX peak
burst size.The UMPT or UTRPc can be configured with
a maximum of 1 Gbit/s TX peak burst size.The value of
TX peak burst size is set to the maximum value of TX peak burst size supported by the board when it bigger
than the maximum one.
GUI Value Range: 64~1000000
Unit: Kbit
Actual Value Range: 64~1000000
Default Value: None
IP2RSC
GRP
MAPID
X
ADD
IP2RSC
GRP
RMV
IP2RSC
GRP
LST
IP2RSC
GRP
None None Meaning: Indicates the mapping between IP and
Transport Resource Groups.
GUI Value Range: 0~127
Unit: None
Actual Value Range: 0~127
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IP2RSCGRP BEAR ADDIP2RSC
GRP
LST
IP2RSC
GRP
MRFD-221501
WRFD-
0213040
6
MRFD-
231501
LOFD-0
03002 /
TDLOF
D-00300
2
MRFD-
211501
IP-Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(NodeB)
Transmi
ssion
Recours
e
Sharing
on Iub/
Iur
Interface
IP-
Based
Multi-
mode
Co-
Transmission on
BS side
(eNode
B)
2G/3G
and LTE
Co-
transmis
sion
IP-
Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(GBTS)
Meaning: Indicates the bearer type of transmissionresource group.
GUI Value Range: IP(IP)
Unit: None
Actual Value Range: IP
Default Value: IP(IP)
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IP2RSCGRP PT ADDIP2RSC
GRP
LST
IP2RSC
GRP
None None Meaning: Indicates the type of port where atransmission resource group is carried.
GUI Value Range: PPP(PPP Link), MPGRP(Multi-link
PPP Group), ETH(Ethernet Port), ETHTRK(Ethernet
Trunk), TUNNEL(Tunnel)
Unit: None
Actual Value Range: PPP, MPGRP, ETH, ETHTRK,
TUNNEL
Default Value: None
IP2RSC
GRP
PN ADD
IP2RSCGRP
LST
IP2RSC
GRP
None None Meaning: Indicates the number of the port where the
transmission resource group is configured.
GUI Value Range: 0~15
Unit: None
Actual Value Range: 0~15
Default Value: 0
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IP2RSCGRP RSCGR PID ADDIP2RSC
GRP
LST
IP2RSC
GRP
MRFD-221501
WRFD-
0213040
6
MRFD-
231501
LOFD-0
03002 /
TDLOF
D-00300
2
MRFD-
211501
IP-Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(NodeB)
Transmi
ssion
Recours
e
Sharing
on Iub/
Iur
Interface
IP-
Based
Multi-
mode
Co-
Transmission on
BS side
(eNode
B)
2G/3G
and LTE
Co-
transmis
sion
IP-
Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(GBTS)
Meaning: Indicates the ID of a transmission resourcegroup.
GUI Value Range: 0~15
Unit: None
Actual Value Range: 0~15
Default Value: 0
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IP2RSCGRP DSTIP ADDIP2RSC
GRP
LST
IP2RSC
GRP
MRFD-221501
WRFD-
0213040
6
MRFD-
231501
LOFD-0
03002 /
TDLOF
D-00300
2
MRFD-
211501
IP-Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(NodeB)
Transmi
ssion
Recours
e
Sharing
on Iub/
Iur
Interface
IP-
Based
Multi-
mode
Co-
Transmission on
BS side
(eNode
B)
2G/3G
and LTE
Co-
transmis
sion
IP-
Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(GBTS)
Meaning: Indicates the destination IP address of theservice flow that is bound to a transmission resource
group.
GUI Value Range: Valid IP address
Unit: None
Actual Value Range: Valid IP address
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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MO Parameter ID
MMLCommand
FeatureID
FeatureName
Description
IP2RSCGRP DSTMASK ADDIP2RSC
GRP
LST
IP2RSC
GRP
MRFD-221501
WRFD-
0213040
6
MRFD-
231501
LOFD-0
03002 /
TDLOF
D-00300
2
MRFD-
211501
IP-Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(NodeB)
Transmi
ssion
Recours
e
Sharing
on Iub/
Iur
Interface
IP-
Based
Multi-
mode
Co-
Transmission on
BS side
(eNode
B)
2G/3G
and LTE
Co-
transmis
sion
IP-
Based
Multi-
mode
Co-
Transmi
ssion on
BS side
(GBTS)
Meaning: Indicates the subnet mask of the destinationIP address of the service traffic bound to a transmission
resource group.
GUI Value Range: Valid Mask address
Unit: None
Actual Value Range: Valid Mask address
Default Value: None
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 8 Parameters
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9 Counters
Table 9-1 Counter description
Counter ID Counter Name CounterDescription
Feature ID Feature Name
1526733176 L.TRPIP.TxBytes Number of bytes of
the control-plane
and user-plane data
sent at the IP layer
over the eNodeB
transmission
interfaces
Multi-mode: None
GSM: None
UMTS: None
LTE:
LOFD-003002
2G/3G and LTE Co-
transmission
1526733177 L.TRPIP.RxBytes Number of bytes of the control-plane
and user-plane data
received at the IP
layer over the
eNodeB
transmission
interfaces
Multi-mode: None
GSM: None
UMTS: None
LTE:
LOFD-003002
2G/3G and LTE Co-transmission
1526733178 L.TRPIP.TxPackets Number of the
control-plane and
user-plane packets
sent at the IP layer
over the eNodeB
transmission
interfaces
Multi-mode: None
GSM: None
UMTS: None
LTE:
LOFD-003002
2G/3G and LTE Co-
transmission
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 9 Counters
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Counter ID Counter Name CounterDescription
Feature ID Feature Name
1526733179 L.TRPIP.RxPackets Number of the
control-plane anduser-plane packets
received at the IP
layer over the
eNodeB
transmission
interfaces
Multi-mode: None
GSM: None
UMTS: None
LTE:
LOFD-003002
2G/3G and LTE Co-
transmission
1526733180 L.TRPIP.TxMean-
Speed
Average TX rate of
the control-plane
and user-plane data
at the IP layer over
the eNodeBtransmission
interfaces
Multi-mode: None
GSM: None
UMTS: None
LTE:LOFD-003002
2G/3G and LTE Co-
transmission
1526733181 L.TRPIP.TxMax-
Speed
Maximum TX rate
of the control-plane
and user-plane data
at the IP layer over
the eNodeB
transmission
interfaces
Multi-mode: None
GSM: None
UMTS: None
LTE:
LOFD-003002
2G/3G and LTE Co-
transmission
1526733182 L.TRPIP.RxMean-Speed
Average RX rate of the control-plane
and user-plane data
at the IP layer over
the eNodeB
transmission
interfaces
Multi-mode: NoneGSM: None
UMTS: None
LTE:
LOFD-003002
2G/3G and LTE Co-transmission
1526733183 L.TRPIP.RxMax-
Speed
Maximum RX rate
of the control-plane
and user-plane data
at the IP layer over
the eNodeBtransmission
interfaces
Multi-mode: None
GSM: None
UMTS: None
LTE:LOFD-003002
2G/3G and LTE Co-
transmission
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 9 Counters
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10 Glossary
For the acronyms, abbreviations, terms, and definitions, see Glossary.
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 10 Glossary
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11 Reference Documents
1. IP Transmission Feature Parameter Description
2. Transport Resource Management Feature Parameter Description
3. Common Transmission Feature Parameter Description
eRAN
2G/3G and LTE Co-transmission Feature Parameter
Description 11 Reference Documents