This MIB provides information on the IP-RAN traffic
from cell site to aggregation site in the following
situations. In an GSM environment the cell site will
be the Base station Transceiver System(BTS) and the
aggregation site will be the Base Station
Controller(BSC). In the UMTS environment the cell
site will be the B-Node and the aggregation site will
Radio Network Controller(RNC).
There are two typical type backhaul, also know
as longhaul, links. The traditional backhaul
connection consists of a PPP multilink containing two
or more E1 or T1 links or ATM or ATM/IMA. The
alternate backhaul is traffic transported using
IP cloud.
Simple back-to-back configuration
---------------------------------
This setup consists of two devices that
support a limited number of GSM and UMTS links.
They are deployed in pairs and inserted between
the existing BTS device and BSC device.
BTS site BSC site
GSM-Abis GSM-Abis
----|||||||| Backhaul ||||||||----
----| |---------------| |----
----| |---------------| |----
|||||||| ||||||||
RNC B-Node site RNC
UMTS UMTS
----|||||||| Backhaul ||||||||----
----| |---------------| |----
----| |---------------| |----
|||||||| ||||||||
| |
|-----------------------|
Alternate backhaul over
IP cloud
Aggregate node configuration
----------------------------
This configuration consists of one aggregate node
located at BSC site and several devices at BTS
sites. The aggregate device has a seperate backhaul
link to each BTS site.
BTS site BSC site
Aggregate
GSM GSM
----|||||||| Backhaul ||||||||----
----| |---------------| |----
----| |---------------| |----
|||||||| | |
. | | .
. | | .
GSM . | | .
----|||||||| Backhaul | |----
----| |---------------| |----
----| |---------------| |----
|||||||| ||||||||
RNC B-Node
UMTS UMTS
----|||||||| Backhaul ||||||||----
----| |---------------| |----
----| |---------------| |----
|||||||| | |
| Alternate | |
| .... | |
-------. . | |
. IP . | |
. Cloud.-----| |
. . | |
-------. . | |
| ...... | |
| Backhaul | |
UMTS | | |
----|||||||| Backhaul | |----
----| |---------------| |----
----| |---------------| |----
|||||||| ||||||||
Compression
Multiplexing
|
BSC <---------->|||||||| V ||||||||<---------->BTS
. GSM . | |<---->| | . GSM .
. A(bis) . | |<---->| | . A(bis) .
<---------->|||||||| ||||||||<---------->
A A
| |
ShortHaul BackHaul
Multiple E1/T1 Back Haul Links
Entries in these tables cannot be created or deleted
by the network management system. All entries are
created or deleted by the agent.
Shorthaul interfaces support the following protocols.
Protocol ifType
-------- ----------------------------
GSM-Abis propPointToPointSerial(22)
UMTS-iub atm(37)
UMTS/IMA atmSubInterface(134)
aal5(49)
ifType.44 = atmIma(107)
The following list provides the currently allowed
backhaul interfaces types. Additional interfaces
types will be added as they are supported.
ifType
---------------------------
ethernetCsmacd(6)
ppp(23) as Multilink bundle
pppMultilinkBundle(108)
In order to manage the IP-RAN optimization solution, two
key factors must be monitored. The first and most
important is the amount of traffic sent over the backhaul
interface. The second is compression efficiency which has
a direct impact amount of traffic placed backhaul link.
MIB Structure
-------------
The MIB has the following structure.
Shorthaul information tables:
cirbhInfoTable
Shorthaul Alarm Information tables
cirbhGsmAlarmTable
cirbhUmtsConnectionTable
cirbhUmtsAlarmTable
Shorthaul statistics tables
cirbhStatsTable
cirbhErrorsTable(deprecated)
cirbhShortHaulHistoryTable(obsolete)
cirbhCongestionTable
cirbhGsmErrorsTable(replaces cirbhErrorsTable)
cirbhUmtsErrorsTable(replaces cirbhErrorsTable)
Backhaul information tables
cirbhBackHaulTable(obsolete)
Backhaul statistics tables
cirbhBackHaulHistoryTable(obsolete)
cirbhBackHaulStatsTable(obsolete)
cirbhBackHaulStatsHistoryTable(deprecated)
Abbreviations:
A-bis Interface between BSC and BTS
AAL2 ATM Adaptation Layer type 2
AAL5 ATM Adaptation Layer type 5
AIM Advanced Interface Module
AgNode Aggregation Node
ALCAP Access Link Control Application Part
AMR Adaptive Multi-Rate speech codec
ATM Asynchronous Transfer Mode
BCH Broadcast Channel
BSC Base Station Controller.
BTS Base Station Transceiver System
CDF CID Definition Field
CID Channel IDentification
CPCH Common Packet Channel
DCH Dedicated Channel
DSCH Downlink Shared Channel
DTX Discontinuous Transmission (mechanism)
FACH Forward Link Access Channel
GSM Global System for Mobile communications
IMA Inverse Multiplexing for ATM
Iub Node B to RNC interface
OC3 Optical Carrier 3
OSF OffSet Field
LAPD Link Access Protocol on Dm Channel
O&M Operations and Maintenance
MLPPP Multi-Link PPP
MS Mobile Station (Handset)
NBAP Node B Application Part
NNI Network to Network Interface
Node-B Node B
PCH Paging Channel
PVC Permanent Virtual Circuit
RAN Radio Access Network
SVC Switched Virtual Circuit
RACH Random Access Channel
RNC Radio Network Controller
SAR Segment Assembly Reassembly
SDC Traffic Channel
SDH Signaling Channel
SPVC Soft Permanent Virtual Circuit
SSCOP Service Specific Connection Oriented Protocol
STC Signaling Transport Converter
STM-1 Synchronous Transport Module type 1
TRAU Transcoder Unit
UMTS Universal Mobile Telecommunications System
UNI User to Network Interface
USCH Uplink Shared Channel
UTRAN UMTS Terrestrial Radio Access Network
VCI Virtual Channel Identifier
VPI Virtual Path Identifier
ciscoIpRanBackHaulMIB
ciscoIpRanBackHaulGsmAlarm 
cirbhSnmpTrafficMode 
cirbhInfoTable 
cirbhInfoTableEntry 
cirbhInfoProtocol