Alcatel Canada 31T28A04A22A Alcatel 7390 LMDS Broadband Wireless System - 31GHz User Manual 3cc12426aaaaTQbja01
Alcatel Canada Inc Alcatel 7390 LMDS Broadband Wireless System - 31GHz 3cc12426aaaaTQbja01
Contents
- 1. Base Station User Manual 1 0f 14
- 2. Base Station User Manual 2 0f 14
- 3. Base Station User Manual 3 0f 14
- 4. Base Station User Manual 4 0f 14
- 5. Base Station User Manual 5 0f 14
- 6. Base Station User Manual 6 0f 14
- 7. Base Station User Manual 7 0f 14
- 8. Base Station User Manual 8 0f 14
- 9. Base Station User Manual 9 0f 14
- 10. Base Station User Manual 10 0f 14
- 11. Base Station User Manual 11 0f 14
- 12. Base Station User Manual 12 0f 14
- 13. Base Station User Manual 13 0f 14
- 14. Base Station User Manual 14 0f 14
Base Station User Manual 7 0f 14
| Download: |  |
| Mirror Download [FCC.gov] | |
| Document ID | 165605 |
| Application ID | LpJi/X4L/6aSQPjo4/xzAA== |
| Document Description | Base Station User Manual 7 0f 14 |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 242.75kB (3034367 bits) |
| Date Submitted | 2001-08-21 00:00:00 |
| Date Available | 2001-09-18 00:00:00 |
| Creation Date | 2001-08-21 11:15:11 |
| Producing Software | Acrobat Distiller 4.0 for Windows |
| Document Lastmod | 2001-08-21 11:15:28 |
| Document Title | 3cc12426aaaaTQbja01.book |
| Document Creator | FrameMaker 6.0 |
4.5.1 – Base Station Supervision
To Start or Stop the supervision of the Base Station:
Click on the icon to start the supervision of the Base Station.
Click on the icon to stop the supervision of the Base Station.
BS supervised means that the agent sends to the manager all the events related to the Base station.
When the BS is supervised the «Start BS Supervision» button is disabled.
When the BS is not supervised the «Stop BS Supervision» button is disabled and a red message in
the status bar indicates to the operator that the equipment is not supervised. Besides, not supervised
status implies that no action can be performed on the BS from the LT manager. Therefore, if the BS is
not supervised then no alarm is sent to the BS element. So, not supervision state implies alarms not
allowed (the «Allow BS Alarms» button is disabled).
To Allow or Inhibit the alarms of the Base Station:
Click on the icon to allow receiving the alarms of the Base Station.
Click on the icon to inhibit receiving the alarms of the Base Station.
BS Alarms allowed means that all the alarms present in the BS equipment will be reported to the LT
manager.
When the BS alarms are allowed, the «Allow BS Alarms» button is disabled.
When the BS alarms are inhibited, the «Inhibit BS alarms» button is disabled. Moreover, all the status
led boards in the BS appears in grey colour to indicate that it is unknown if the boards have or do not
have alarms present.
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4.5.2 – General parameters
The left side of the BS Details screen shows the characteristics and associated states:
Identification No.: 1 for the BS
BS name: click to enter the BS name:
it will appear in the title bar
BS manufacturer No.
BS version No.
IP address of BS access via 10 BT Eth port
IP address of BS access via ATM port
BS Location: click to enter the town or
geographical sector where the BS is located
Last BS time setting (cf.§ 4.5.5 –) (by
default date displayed is 01/01/1970 at
Name of the alarms correspondence base:
cf.§ 4.10.2 –
BS Polarization type
Operational state (enabled/disabled):
indicates the technical availability status of the
equipment with respect to service provision
Administrative state unlocked for the BS: indicates whether locked or
unlocked for modification at the network management level
Supervision state supervised for the BS
Alarm report state (only authorized values appear in the system)
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4.5.3 – DBS
The central part of the BS details screen shows the rack and its sub-assemblies as detected by the
7390 LT:
Symbol of the
working board
cf.§ 4.5.3.1 –
cf.§ 4.5.3.2 –
cf.§ 4.5.3.3 –
cf.§ 4.5.3.6 –
cf.§ 4.5.3.4 –
cf.§ 4.5.3.5 –
cf.§ 4.5.3.7 –
On the BS Detail screen button bar:
Click on...
To......
...access the details of a selected sub-assembly (or double-click directly on
one of the sub-assemblies)
...delete a selected sub-assembly
...reset a selected board.
A confirmation screen is displayed:
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Symbols on the equipment representations:
– green spot: no alarm is detected;
– colored spot (other than green): alarm detected: the color displayed corresponds to the most critical alarm level (cf. § 4.10.1.2 – Alarms color code);
– white board: board physically present in the rack;
– gray board: board physically removed but still present in the system management.
Number of equipments in the rack:
Equipment
designation
Maximum number of equipments
managed by the system in 2.2b
Maximum number of equipments
that can be included in the BS
ANT board
TNT board
AMD board
CPL board
IBS board
Power Supply Unit
Ventilation subrack
4.5.3.1 – ANT board screen
ANT (ATM Network Termination): ATM interface board.
Board family ID No.
Click on this tab to display the screen
relating to the hardware part of the board
Board slot No.
Board type.
Name of ANT integrated software
State of ANT
integrated
software
Board states: only these two states
are defined for the boards: cf.§ 4.5.1
Fields completed after downloading: cf. § 4.14.3
Click here to return to the BS Details screen
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Board family ID No.
Click on this tab to display the screen
relating to the software part of the board
Board slot No.
Board type
ANT board Part Number
Status change
ANT board
Serial Number
Board states: only these two states
are defined for the boards: cf.§ 4.5.1
Click here to return to the BS Details screen
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4.5.3.2 –
TNT board screen
TNT (TDM Network Termination): board providing the leased line service (E1, X21, T1, CES).
Click here to display the screen relating
to the TNT board ports wording
configuration (cf.following screen)
Click on this tab to display the screen
relating to the hardware part of the board
Select the Input type used to supply the TNT board:
either via the TDM network or via the ATM network
Name of TNT integrated software
State of TNT integrated
software
cf.§ 4.5.3.1 –
Parameters
link with the
circuit
emulation
mode
cf.§ 4.5.3.1 –
Click here to return to the
BS Details screen
Fields completed after
downloading: cf. § 4.14.3
Note: This screen can be modified only if the ATM type Input/Output is ticked off.
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Click here to enter the TNT board port labels
Operational state
of the port:
Enabled/Disabled
(cf. § 4.11.1 –)
Port number
Click here to apply the label
modifications
Click here to cancel the label
modifications
Click here to close the screen
4.5.3.3 – AMD board screen
AMD (ATM MODEM) : ATM modulator demolulator board.
No.of radio sector
covered by the board
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Type of the AMD board
Click here to return to the
BS details screen
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Part Number
Status change
(ICS)
AMD board
serial Number
4.5.3.4 – CPL board screen
CPL (Coupler): network interface coupler board.
For the items on this screen, refer to the description of the ANT board (§ 4.5.3.1 – ANT board screen).
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4.5.3.5 – IBS board screen
IBS: (Intermediate frequency Base Station): IF board.
For the items on this screen, refer to the description of the ANT board (§ 4.5.3.1 – ANT board screen).
This IBS belongs to the Radio Group indicated,
previously configured by the manager
Alcatel code
The LT manages two tables
called ORU table and
OTU table that contain
all the possible 90 number and
their corresponding RF/IF
Down/Up start values, so these
values are obtained from these
tables. The values of the tables
are given by system team and
they can change or evolve
OTU/ORU cable attenuation
is the transmission/reception attenuation owing
to the cable (It is valued by default at 11 dB for
the transmitter and at 0 dB for the receiver.
Those values can be tuned by 0.1 dB step from
0 - 27 dB (Tx)
and 0 - 24 dB (Rx)
cf. § 4.5.3.1
Every IBS can manage two
Radio Units (two OTU,
two ORU or one OTU
and one ORU, one per port
4.5.3.6 – Ventilation
Number of ventilation slot
Part Number
Operational state: enabled/disabled
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Status change
Ventilation serial Number
Click here to return to the BS Details screen
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4.5.3.7 – PSU
PSU : Power Supply Unit.
For the items on this screen, refer to the description of the ANT board (§ 4.5.3.1 – ANT board screen)
Click here to return to the BS Details screen
4.5.4 – Clock synchronization parameters
To access the synchronization parameters, click on the button shown here (in the button
bar of the BS Details screen).
This involves defining the setup rules for the synchronization sources used.
There is one default synchronization source (internal oscillator) and six configurable sources: ATM,
external clock and the four TNT boards. The TNT boards have 16 ports and 4 can be used as
synchronization ports: these are ports 1, 5, 9 and 13.
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– Priority principle:
•
the order of priority numbers take precedence, followed by the channel numbers, in increasing order of appearance;
•
an order number must be single (one specific number per sub-assembly);
•
order number one is for the highest level of priority.
Note: Two sources cannot be assigned the same order of priority (the «Apply» button is not available).
Note: In the screen shown in the above example, the warning message under TNT card N°2 is displayed because the type of input for the TNT 2 card has been set to ATM (see § 4.5.3.2 – TNT
board screen), this board is thus in Circuit Emulation mode.
4.5.5 – Sending time to the Agent
ONLY USE THIS UPDATE FUNCTION IF THE SNTP SERVER IS NOT ENABLED:
SEE § 4.13.3.
This function allows to update time of the SNMP agent with the LT Windows Operating System (OS)
time. It is specially necessary at the first installation, to initialize the time of the system or, when there is
a big drift of the NE time in regards to that of the local PC (where the 7390 LT is running): see events
log § 4.8 – NE management.
To synchronize the time of the agent, click on the button of the BS Details screen button
bar (see § 4.5 – Base Station Supervision) shown here.
4.5.6 – Memory initalization
THIS FUNCTION, RESERVED TO MAINTENANCE OR FIRST START UP OF
BASE STATION, WILL DELETE THE CURRENT CONFIGURATION
This function allows memory initialization by the SNMP agent located in ANT board.
Operator has to enter the password (Alcatel
7390), then to click on OK to validate this
password and start the memory initilization.
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4.5.7 – X-Pol RBS
4.5.7.1 – Radio group screen
On the right of the BS supervision screen are all the X-Pol RBSs associated with the
It is possible to have up to eight Radio Links and seven Radio Groups. A Radio Group is composed of
a maximum of two OTU, two ORU and 6 AMD/IBS boards.
When a Radio Unit is active and unlocked, it is displayed through a yellow wave (going out for the OTU
or going inside for the ORU)
A green point means that there is not any alarm; red point means that the unit has some alarm.
Data traffic link shows the traffic flow through the radio link.
Radio management link shows the signalling or management messages traffic between the BS and its
Radio Units.
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4.5.7.2 – Radio Unit screen
To see the details of a Radio Unit, select it, and click on the button shown here (Radio
Group Details button bar). You can also obtain the details by double-clicking on the Radio
Unit in the screen.
This IBS board manages the Radio Unit. Radio Units only can
be managed by an IBS belonging to the same Radio Group
The Radio Unit is managed through this
IBS port (every IBS has two ports)
Cf. § 4.5.3.1
Click here to take into
account the modifications
Click here to close the window
and to return to the BS details
screen
Click here to cancel
the modifications
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4.5.7.3 – Radio Unit Creation
To create a Radio Unit, click on the button shown here (Radio Group Details button bar).
4.5.7.4 – Lock Radio Unit
Obligation to click the button for Lock Radio Unit.
4.5.7.5 – Delete Radio Unit
To delete a Radio Unit, click on the button shown here (Radio Group Details button bar).
The following window is displayed:
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4.5.8 – Redundancy Radio capability
4.5.8.1 – Principle
Redundancy of the A7390 system corresponds to a 1+1 configuration and works in the "cold
redundancy" mode. That means for one active entity, there is one stand-by entity and when the active
entity has failed, the switch over to the stand-by entity provokes a temporary service cut.
Redundancy applies to the management part (ANT board).
4.5.8.2 – Access to redundancy state display
To access consultation of the system redundancy state, click on the icon shown here,
that is in the button bar of the BS Details screen (§ 4.5 – Base Station Supervision).
The screen below is displayed:
Operational state of the entities
(enable / disable) See § 4.5.3.1
– (ANT)
Availability state of the entity (on
line / off duty / failed / not installed)
Redundancy on
the management
part (ANT board)
Click here to close this consultation window
and return to the BS Details screen
Note: The place of the boards into the DBS is directly linked to their role in redundancy (see § 4.5.8.3
Board and location in the cabinet according to their role in redundancy).
Note: The disponibility state on line corresponds to an active entity.
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We could create a new Radio Unit with other carrier (see § 4.5.7.3 – Screen Radio Unit Creation)
The management of the second pair must be manager by a porteur different from the first pair.
The second radio is supervisor with the other IBS.
We can verification with the mouse on the radio managment
It is necessary to position the mouse on the connection «Radio Manager Link» which we have in the
screen.
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4.6 – NT Supervision
The system manages 100 NTs maximum per BS, with 31 NTs maximum per upstream for 28 MHz
channelization and 15 NTs for 14 MHz. The NT Supervision automatically begins as soon as the NE is
connected.
To access the list of declared NTs associated with the BS:
click on the third button of the main menu button bar,
or else,
open the Management pull-down menu and choose the item: View NT List.
The screen belows is displayed:
Inhibit NT Alarms
(cf: §4.6.1 –)
Allow NT Alarms
(cf: §4.6.1 –)
Stop NT Supervision
(cf: §4.6.1 –)
NT upload (cf.§ 4.4.1
Click here to add a NT ( cf: §4.6.2 –)
Click here to access the characteristics of
the NT chosen from the list ( cf: §4.6.3 –)
Click here to delete a NT ( cf: § 4.6.4 –)
Click here to restart a NT ( cf: §4.6.5 –)
Start NT Supervision
(cf: §4.6.1 –)
Click here to print the
list of NTs ( cf: §4.1.4 –)
Click here to print the characteristics
of the NT(s) chosen from the list
( cf: §4.6.3 – )
Arrow pointing at
the current NT
ID No. of NTs:
from 2 to 100
Names of NTs
(cf: § 4.6.2 – )
TS Link
(cf: § 4.6.2
Radio Link and upstream
associated with NTs:
(cf: § 4.6.2 –)
Alarm report
state
Operational, administrative and
supervision states of the NTs
Type of NTs : automatic entered
after input of NTs in the network
Note: The "ID" column displays the color of the most critical alarm for the NT concerned.
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Note: The number of NTs present in the list corresponds to the "number of NTs" displayed permanently on the main screen status bar (cf. § 4.1.2.6 – Title, menu, button and status message
bars).
Note: Remember that it is possible to access a given NT rapidly from the list of all NTs via the sort and
search functions (cf. § 4.1.2.4 – Sorting and searching in a list).
4.6.1 – NT Supervision
To Start or Stop the supervision of the NT:
Click on the icon to start the supervision of the NT.
Click on the icon to stop the supervision of the NT.
NT supervised means that the system sends to the manager all the events corresponding to that NT.
A given NT can be supervised only if the BS is supervised.
When a NT is supervised, the "Start NT Supervision" button is disabled.
When the NT is not supervised the "Stop NT Supervision" button is disabled. Then, no action can be
applied over it, so all the "Apply" buttons are disabled. Therefore it implies that the alarms on this NT are
not allowed (the "Allow NT Alarms" button is disabled).
To Allow or Inhibit the alarms of the NT:
Click on the icon to allow receiving the alarms of the NT.
Click on the icon to inhibit receiving the alarms of the NT.
NT Alarms allowed means that all the alarms present in the NT equipment will be reported to the LT
manager.
Allowing or inhibiting alarms on NTs have to be done one by one. It is not possible to allow or inhibit
alarms in all the NTs by one action.
When the NT alarms are allowed, the "Allow NT Alarms" button is disabled.
When the NT alarms are inhibited, the "Inhibit NT Alarms" button is disabled. When the alarms are
inhibited on a given NT, the NT appears grey in the NT list screen to indicate that it is unknown if the NT
has or does not have any alarm present.
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4.6.2 – Declaring a new NT
To add an NT, click on the button shown here (on the NT screen button bar).
An input screen is displayed:
Click in the fields to enter the various information (described below)
Click on the arrows to display the list, then select:
- the radio sector (radio link),
- the upstream,
- the list of NT ASAP table (cf.4.10.2 –)
Mandatory NT characteristics to be entered
Optional NT characteristics to be entered
Serial number (of NT): see data supplied by
planner and warning below
Radio link: corresponding radio sector from 1
to 4.
Upstream: Connected upstream number, from 1
to 4
Name (of NT): by default displays NT#Eqt Index
Terminal Station link: numerical entry supplied
by the planner.
Location: town or geographical sector.
ASAP: name of alarms correspondence base.
When entering the Serial Number noted on the label, respect the above syntax:
"----CU-serial number" (without space between characters).
If several NTs are on same RT, the same Upstream must be declared for all NTs.
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4.6.3 – NT Details
To access the characteristics of an NT:
– click on the button shown here (NT screen button bar),
or else,
– double-click directly on a line from the list of NTs.
A global screen is displayed in which (under Characteristics) the majority of the items
in the § 4.6.2 – Declaring a new NT are to be found:
Click on this button to substitute the NT serial number: cf.§ 4.6.6
Click on this button to print the caracteristics of the NT that are displayed in this screen
Will be automatically
filled in after
declaration of the NTs
Will be automatically
filled in after the NTs
enter the network
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Click on this tab to
display the hardware
characteristics
Click on this tab to
display the ports
characteristics
Click on the arrow to
choose the ASAP table
you want to assign to the
NT (cf.4.10.2 –)
Click on this tab to
display the software
characteristics
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1. NT ports:
Ports index
2 E1/2T1
1 E1 and X21
G703-1
X21
G703-2
G703-1
Click on the fields to
enter the NT ports label
Ports type
2.
Port
Ports state
NT software:
Name of the software of the first storage zone
State of the software of the first storage zone
Name of the activated software
Name of the software to be activated
automatically after reset
Second software storage zone
Note: Software names are the same except in the case of download.
3. NT hardware:
Click on this tab to return to the NT ports configuration
Click on this tab to return to the NT software
Reference number of
the mother board
Reference number of
the daughter board
Status indication of
the mother board
Status indication of
the daughter board
Serial number of the
mother board
Serial number of the
daughter board
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4.6.4 – NT deletion
To delete an NT :
– click on the NT in the list
– click on the button shown here (NT screen button bar).
A confirmation screen is displayed :
Click here to confirm
NT deletion
Click here to cancel
the NTdeletion request
Note: You have to delete all cross-connections before deleting the NT.
4.6.5 – NT reset
To reset an NT:
– click on the NT in the list
– click on the button shown here (NT screen button bar).
A confirmation screen is displayed:
Click here to confirm
NT reset
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Click here to cancel
the NTdeletion request
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4.6.6 – NT substitution
To substitute an NT, click on the button shown here (NT Details button bar).
The following screen is displayed:
Click here to apply the NT
substitution. After this step
the following confirmation
screen is displayed.
The NT substitution will be effective the first time when the "old" NT will have left the network. Then, the
NT with the new serial number will be authorized to enter the network.
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4.7 – Radio supervision and parameters
4.7.1 – Radio configuration
To access the supervision and parameters of the Radio link, click on the button shown
here (BS screen button bar)
The Radio Configuration screen is displayed and presents the radio characteristics.
The screen displays as many "Radio link # ..." tabs as there are radio links in the system (8 maximum).
Click on the arrow to select the bandwidth: 14/4 Us*3.5,
28/4 Us*7 MHz (by default: not configured)
Click here to enter the central trequencies
of the upstream (reception) and downstream
(emission) channels (see radio scheduler)
No. of the AMD board
associated with the sector
Encryption
activation: No
Click here to apply
the modifications
Click here to cancel
the modifications
Progression bar representing the number of NTs
connected to the upstream channel N° 3
Click here to activate the
upstream.
Click here to return to
the BS details screen
Note 1: To change a bandwidth, refer to § 7.3.6 – Change of channelling.
Note 2: Encryption: the data of service are systematically encoded, the management data are
not encoded.
Note 3: NT number: move the mouse pointer onto a progression bar and a tooltip displays the ratio
between the number of declared NTs and the max. number of managed NTs for a given channel.
Note 4: As long as there is data traffic on the upstream, you cannot deactivate it.
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IF YOU WANT TO CREATE AN IP SERVICE ON AN NT, THE UPSTREAM
USED BY THIS NT MUST BE CONFIGURED. CF. § 1..
1. Define the channelization ckick on the button (14/4 Us*3.5 or 28/4 Us*7 MHz).
2. Define the downstream central frequency.
3. Define the upstream central frequency.
4. Define the frequency of X-Pol Tx (OTU).
5. Define the frequency of X-Pol Rx (ORU).
6. Define the Transmission Power dBm (+17 dBm) with the step of 1 dB.
7. Define the Rx gain dB (-40 dB) with the step of 1 dB.
8. Click for upstream validate.
9. Click on «apply» to take into account the configuration.
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4.7.2 – Dynamic Traffic Configuration
To access the configuration of the IP data traffic, click on the button shown here
(BS Details screen button bar).
The Dynamic Traffic Configuration screen is displayed:
Maximum bandwidth
compatible with the ATM link
Minimum free ATM bandwidth
needed to use dynamic traffic
Progression bar
representing the
configured bandwidth
used by the radio on
the ATM maximun
bandwidth
Click here to enter Yes
to allow or No to forbid
dynamic IP traffic
(cf: notes below)
Click here to apply
the modifications
Click here to cancel
the modifications
Click here to return to
the BS Details screen
Note: You can only activate dynamic services (Dynamic Traffic: Yes) if the upstream is activated
(Upstream: Yes).
(Cf. § 4.7.1 – Radio configuration.)
Note: The authorization facility for Dynamic IP Traffic on any upstream is provided in order to avoid
overloading of the ATM interface: the air bandwidth available to data traffic should never exceed
the bandwidth available on the ATM interface ("Maximum Bandwidth" u "Configured Bandwidth").
Note: The system controls the configured bandwidth according to the maximum bandwidth of the ATM
interface and according to the overbooking configuration.
Services
Static IP
Circuit Emulation (CES)
Dynamic IP
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Unit
Cell/s
66.5 Kbps
157
2 Mb/s (E1)
5447
1.5 Mb/s (T1)
4107
66.5 Kbps
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4.7.3 – On-demand Service management
4.7.3.1 – Introduction
Radio resources management consists of distributing system resources, for each upstream and
downstream channel of each radio link, according to customer services to be created.
Customer services are available according to two types of radio traffic: dynamic (dynamic IP) and static
(leased lines, static IP).
The bit rate available for each radio channel is given by the bandwidth defined in the Radio
Configuration screen (see § 4.7.1 – Radio configuration).
Radio resources management is carried out according to two operating principles (that can be jointly
implemented): system self-management (default configuration) and pre-configuration (carried out by
the operator).
STATIC SERVICES CONFIGURATION MAY CAUSE DYNAMIC IP
SERVICES TO BE SHUT DOWN
– System self-management:
In this case, the system automatically manages the radio part according to the following principles:
• by default, overbooking limit is 1. That means no overbooking is allowed.
•
CAG = Guaranteed MCR.
•
RRM Devices Enabled = Policing.
Note: Circuit emulation always requires a leased line. Radio resources are implicitly dedicated to circuit
emulation via the leased line.
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4.7.3.2 – Access to the radio pre-configuration
To access on-demand services management and proceed with radio preconfiguration, click on the button shown here (in the button bar of the BS Details
screen).
Click on these tabs to
configure the other channels
Click on the arrow to enable
Service of RRM. Policing
or No Policing
Click here to select the strategy of Call
Admission Control: Degraded MCR
allowed or Guarranteed MCR - (See below)
Current Overbooking
(Downstream or
Upstream) for the
selected radio-link(See below)
Attribute configurable
from the manager that
confines the possible
overbooking (Us/Ds) to
this value for the
selected radio-link
Click here to take into account
the system on-demand
services allocation
Click here to cancel the ondemand services
management modifications
Click here to exit the
on-demand services
management window
– Downstream channels
Policing: is a buffer management function that implements intelligent discard mechanisms to prevent
buffer overflows.
Overbooking:
– limit = 0 means that overbooking has no sense because in this upstream dynamic traffic is not allowed,
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– limit = 1 means no overbooking is allowed,
– limit > 1 means it is possible to use more bandwidth than the physical one.
– Upstream channels
Call Admission Control Strategy:
– Guaranteed MCR, allows the CAC to deny connection to an RRM port if the current sum of the
connected RRM ports does not allow to accept the new RRM port without exceeding the dynamic
resources.
Degraded MCR allowed:
– allows the CAC to accept every connection request. In this case, congestion event may happen
and the RRM scheduler will need to degrade the MCR contract parameter of each connected
RRM port, up to its "maximum degraded MCR".
4.7.4 – Bandwidth allocation
The 7390LT offers the capacity to display radio resources reserved for traffic and therefore potentially
available to create customer services.
THE RADIO RESOURCES DISPLAYED CORRESPOND TO BANDWIDTH
ALLOCATION AND NOT TO THE CURRENT TRAFFIC ON
THE SERVICES CREATED
To view reserved radio resources, click on the button shown here (SB Details screen
toolbar).
Nota: The system always runs in self management mode, but pre-configuration is possible to avoid
shutdown during static service creation; thus the system automatically returns to self management mode if the capabilities are exceeded
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Click on these tabs to display the radio resources of the other channels
Meaning of the colors used to show the different parts of the bandwidth:
The blue zone represents the bit rate allocated to leased lines (LL) type services.
The yellow zone represents the bit rate allocated to static IP (IPstat) type services.
The light grey zone represents the proportion of bit rate still available to create new static services
(FreeS) without disturbing the dynamic zone.
The dark grey zone represents the proportion of bit rate still available to create new dynamic services
(FreeD).
The green zone represents the bit rate allocated to the dynamic IP (IPdyn) type services, as the
physical limit of the system reserved to the dynamic services has not been reached (OF<1).
Once the bandwidth is filled, (maximum bit rate authorized by the system's physical limits), the zone is
displayed in orange to warn the operator of the risk of dynamic service unavailability.
When the bit rate allocated to the dynamic services exceeds the booking factor limit (OFL), the zone
changes to red.
IF THE ZONE IS ORANGE, CHECK THAT SIZE OF THE REMAINING DYNAMIC
ZONE IS GREATER THAN THE LARGER DYNAMIC CROSS-CONNECTION
IF IT'S NOT THE CASE THIS CONNECTION WILL BE UNAVAILABLE
The whole bandwidth is represented on a scale from 0 to 100%.
It is divided into three zones: the static LL zone, the static IP zone and the dynamic IP zone.
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