Ondas Networks FS-757787 FullMAX User Manual FullMax V1 3
Full Spectrum Inc. FullMAX FullMax V1 3
User Manual
FullMAX BS1000, FS4000, MS40000 User Manual Version 1.3
Full Spectrum Confidential
FullMAX BS1000, FS4000, MS40000
User Manual
Version 1.3
November 1, 2013
FullMAX BS1000, FS4000 and MS4000 User Manual Version 1.3
Full Spectrum Confidential
2
Table of Contents
1FullMAX Description ...................................................................................... 4
1.1System Description ............................................................................. 4
1.2BS1000, FS4000 and MS4000 Hardware Architecture ....................... 5
1.3FullMAX BS1000, FS4000 and MS4000 Software Architecture ........ 11
2FullMAX BS1000, FS4000 and MS4000 Embedded Software Functionality12
3FullMAX System Installation and Commissioning ........................................ 14
3.1Enclosure of BS1000, FS4000 and MS4000 .................................... 14
3.2Connecting the BS1000, FS4000 and MS4000 ................................ 14
3.3FullMAX BS1000, FS4000 & MS4000 Tune Up and Alignment
Procedures ...................................................................................................... 15
3.4CLI Commands for BS1000, FS4000, MS4000 ................................ 16
3.5Monitoring the BS / FS/ MS with the FullMAX NMS .......................... 17
4FullMAX system operation ........................................................................... 18
4.1Operation Restrictions / Information to User ..................................... 18
4.2BS1000 Operation ........................................................................... 18
4.2.1Main Group ................................................................................................... 18
4.2.2mac-config .................................................................................................... 20
4.2.3ul-config ........................................................................................................ 28
4.2.4dl-config ........................................................................................................ 39
4.2.5zone-config ................................................................................................... 44
4.2.6bs-cap-config ................................................................................................. 51
4.2.7bs-burst-profile .............................................................................................. 52
4.2.8bs-ss-action ................................................................................................... 55
4.2.9ss-registered .................................................................................................. 57
4.2.10ss-ip ........................................................................................................... 58
4.2.11device ........................................................................................................ 60
4.2.12Measurements ........................................................................................... 63
4.2.13pkm–config ............................................................................................... 66
4.2.14bs-private................................................................................................... 69
4.2.15trap-config ................................................................................................. 75
4.2.16lapc-config ................................................................................................ 78
4.3FS4000 and MS4000 Operation ....................................................... 91
4.3.1Main Group ................................................................................................... 91
4.3.2ss-config ........................................................................................................ 92
4.3.3device ............................................................................................................ 98
4.3.4Measurements ............................................................................................. 102
4.3.5ss-private ..................................................................................................... 105
4.3.6ss-chconfig .................................................................................................. 110
4.3.7ss-trap .......................................................................................................... 113
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Overview
a) FullMAX is a point-to-multipoint (PtMP) broadband wireless system based on the
WiMAX-e (IEEE 802.16e-2005) protocol with modifications which enable it to
operate in the two (1) MHz channels which make up the 700 MHz A Guardband.
The system includes a BS1000 Base Station, FS4000 Fixed Station and the
MS4000 Mobile Station. The BS1000 is typically situated at an operator’s tower
site with either an omni or sector base station antenna mounted on the tower and a
coax cable running to the antenna port of the BS1000 base station. The Base
Station data port (Ethernet) is then connected to a router which in turn is
connected to a communications backhaul transport (fiber, microwave, leased line)
which allows the data traffic to be carried to and from the operator’s network
operation center (NOC). The Base Station can also operate independently of the
backhaul transport. Fixed Stations are typically mounted at specific customer
location with an external directional yagi antenna. Mobile Stations are moutned
in vehicles with an external omni rooftop mounted “whip” antenna. The
FullMAX system also includes a Network Management System (NMS) which
allows the operator to monitor and configure the FullMAX network remotely.
b) The main modifications to FullMAX relative to the IEEE802.16e-2005 air
interface protocol are:
1) The RF front end can operate in the 700 MHz A Guardband which includes
two frequency ranges:
a. 757-758 MHz
b. 787-788 MHz
2) The BS1000, FS4000 & MS4000 operate in 700 kHz wide channels inside the
A Guardbands.
3) The BS1000, FS4000 and MS4000 have analog and digital filters which are
designed to meet spectral mask for FCC Part 27 in the transmit direction and
the channel selectivity in the receive direction.
c) Outline of the document:
1) Paragraph 2: FullMAX system description
2) Paragraph 3: FullMAX system operation
3) Paragraph 4: BS1000, FS4000 and MS4000 installation and commissioning.
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1 FullMAX Description
1.1 System Description
a) The FullMAX system architecture is described in figure 2-1 below. The system is
used to establish private, multi-cell, Point to Multipoint broadband wireless
service for electrical utilities and other mission critical industries. It supports both
fixed and mobile applications. FullMAX Base Stations are typically installed at
the operator’s existing Private Land Mobile Radio (PLMR) towers serving their
respective cells. Wireless backhaul facilities are used to connect the Base Stations
to the central site of the system. FullMAX fixed and mobile stations are deployed
throughout the tower’s serving area.
Central Hub
Security Router
FullMax
Base
Stations (1)
BSBS
BSBS
BSBS
NMS
DHCP
server
Utility Operation
Equipment
AAA Server
FullMax Operation
Equipment
(1) FullMax base station consists of 3 independent base station sectors and a base station hub
Fig. 2-1: FullMAX system architecture
b) FullMAX operates in unpaired spectrum using Time Division Duplex (TDD).
FullMAX also operates in paired spectrum employing each portion of the paired
spectrum as an independent unpaired spectrum.
c) The FullMAX BS1000 is designed to support a single sector and as such, it
supports the construction of a Base Station with multiple sectors (1, 2, 3 or more).
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An external bridge/router is used to forward/route the traffic to the appropriate
sector. Note that the most common deployment is a 3 sector configuration. The
sector configuration dictates the type of antenna that should be used.
d) FullMAX supports various frequency reuse schemes as outlined in Annex A to
this document.
e) The FullMAX BS antenna is typically installed at an existing utility tower. The
antenna should be installed as high on the tower as possible. The BS also employs
a GPS antenna for TDD framing synchronization.
f) The FullMAX FS4000 is used at a fixed location installed in a shelter at the
remote site. The FullMAX MS4000 is typically installed inside the cabin of a
vehicle. Both the FS4000 and the MS4000 supports Ethernet 100 Base T
connectivity as well as serial RS232 connectivity. The serial connectivity is
needed to support various legacy applications like Supervisory Control and Data
Acquisition (SCADA) applications.
1.2 BS1000, FS4000 and MS4000 Hardware Architecture
a) The FullMAX BS1000, FS4000 & MS4000 radio architecture is described in figure
2-1 and 2-2 below. It consists of a Baseband Processor Board (BBP), an Analog Front
End (AFE) section and a Low Voltage Power Supply (LVPS) board.
b) The BBP block diagram is described in figure 2-3. It is the heart of the FullMAX
radio. It is designed to perform MAC, PHY, networking, network management and
other functions that are required in a broadband wireless system. The BBP has the
following main characteristics:
1) Processing resources:
a. A TI DSP and a Xilinx Spartan 3A FPGA to execute the PHY
layer
b. A Freescale PQ3 processor to execute the MAC layer and
complementary embedded software
2) A GPS time reference module is available for synchronization1 and for
location based services.
3) User interfaces: 100 Base T, RS232
4) Interface to the AFE is done through a digital I/Q interface.
c) The AFE section block diagram is described in figure 2-4. The AFE section performs
signal processing functions that are needed to deliver the signal to the antenna and to
receive the signal from the antenna. The AFE consists of:
1) A RF Small Signal (RFSS) board which contains a baseband section, an
IF section and an RF section.
1 e.g. for TDD frame synchronization.
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a. The baseband section consists of an A/D, D/A, a programmable
receive baseband filter, a Digital Pre Distortion (DPD) Equalizer a
programmable sampling clock synthesizer and a FPGA.
b. The IF section consists of an IF LO, an I/Q
modulator/demodulator, an IF receive channel bank and an IF
transmit filter.
c. The RF section consists of a RF LO, an RF up/down convertor, an
RF receive channel bank and a RF transmit filter.
2) A RF Front End (RFFE) board which contains a RF PA, LNA, AGC and
T/R switch.
3) The AFE employs three 8051 microcontrollers for monitoring and control
of all aspects of the AFE operation. A serial interface protocol is available
to support control of the master housekeeping microcontroller on the
RFSS board by the main PQ3 processor on the BBP board.
Note: The AFE employs a non-agile external RF bandpass filter which is shown as a
yellow block in the AFE block diagram in figure 4.
d) The Low Voltage Power Supply (LVPS) block diagram is described in figure 2-5.
The LVPS generates all the voltages that are needed at the BBP and the AFE. It is
designed for an input voltage range of 9 to 36 VDC to support power feed for a
vehicle battery. An optional external power brick is available if needed to support AC
or -48 VDC power feed.
Figure 2-1: FullMAX BS1000, FS4000 & MS4000 High Level Architecture
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Figure 2-2: FullMAX BS1000, FS4000 & MS4000 Block Diagram
SDR BS/MS
Analog Front End (AFE)
BBP Board
RFSS
RFFE
Power
Conn.
On-off
switch
(For BS)
I-3
I-2
UI
1
10/100
Ethernet
On-Off
(For BS)
DC power I-1
I-4
RS232
COM port
SDR
Wireless
connectivity
GPS
Wireless
connectivity
I-5
I-7
I-6
Power -on
Indicator
I-8
BIT
Indicator
RJ45
DB-9
Low Voltage
Power Supply
(LVPS)
(For MS)
Power LED BIT LED
Power
Connector
Ethernet
connector
Serial
Connector
Processor
JTAG
DSP
JTAG
FPGA
JTAG
GPS
SMA
AFE
Connector
Test
Connector
GPS
Antenna
SDR
Antenna
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MPC8548E
Flash1
64MB
B
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GPS
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TMS320TCI6482
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A
F
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Integrated
Magnetic
Vertical
RJ45
Connector PROM
RJ45
CONNECTOR
RS232
Driver
CPLD
UART 1 & 2
33.33MHz
MPC TEMP
SENSOR
I2C EEPROM
I2C
25MHz
125MHz
POWER
SUPPLY
3.3V
5V
MULTIPLIER
MPC
JTAG
TMS
JTAG
XILINIX
JTAG
1.1V 2.5V 1.8V 1.24V 1.2V
3.3V
5V
1.1V
SENSOR
2.5V
SENSOR
1.8V
SENSOR
1.24V
SENSOR
1.2V
SENSOR
ENABLE 1.1V
ENABLE 2.5V
ENABLE 1.8V
ENABLE 1.24V
ENABLE 1.2V
ENABLE 1.1V
ENABLE
2.5V
ENABLE
1.8V
ENABLE
1.24V
ENABLE
1.2V
MPC I/O SUPPLY
TMS I/O SUPPLY
FPGA I/O SUPPLY
MPC MPC MPC
&
TMS(DDR2)
TMS FPGA
LED LED LED
16X
BUFFER
GPIO-1,2
I/O - 16
2.54mm
10X2
MCX
Conncector
MUX
32MB 32MB
Power -LED
25MHz
MARVEL
SWITCH
R
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DDR2
128MB
DDR2
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133MHz
T
R
A
N
S
L
A
T
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SGMII
Figure 2-3: Baseband Processor (BBP) Board Block Diagram
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Figure 2- 4: Analog Front End (AFE) Block Diagram
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I
N
P
U
T
C
0
N
N
E
C
T
O
R
R
F
F
E
U8
32V@10mA
LM317L
Fly back
(U8)
U9
15V
@75mA
LM78L15AC
Fly back
U15
5V@2A
TPS75801
LDO
U17
3.3V@1.5A
EN5336Q
Buck
U16
3.3V@3A
EN5364Q
Buck
R
F
S
S
/
B
B
P
U5
28V/5A
LM5118
Buck-
Boost
FILTER
U1
Under/ Over
Voltage
monitor
LT4356 )
O/P
connectors
9-36V DC
Reverse
Polarity
protection
Protection circuits
Low Voltage Power supply block diagram
Control
Over current
protection
FUSE
I_IN
I_IN_1
I_IN_2
I_OUT_1 28V/5A To RFFE
To RFSS
To RFSS
To RFSS
To BBP
To BBP
To RFSS
U3
5.15V/10A
TPS40054
Buck
U4
5V@3A
TPS75801
LDO
I_OUT_2
U6
SMPS
Controller
(UC3843)
Figure 2-5: Low Voltage Power Supply (LVPS) Block Diagram
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1.3 FullMAX BS1000, FS4000 and MS4000 Software Architecture
a) The FullMAX BS1000, FS4000 and MS4000 software architecture is
described in figure 2-6 below. It consists of PHY layer, MAC layer and
general purpose embedded software components.
Figure 2-6: FullMAX BS1000, FS4000 & MS4000 software architecture
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2 FullMAX BS1000, FS4000 and MS4000 Embedded
Software Functionality
a) The FullMAX BS1000, FS4000 and MS4000 support the MAC and PHY layer
requirements as defined in the “WiMAX Forum Mobile System Profile Release
1.0 Approved Specifications”. This section describes the complementary
embedded software that is not considered part of the MAC and the PHY layer
software.
b) Networking:
o Supports communication over a 100 Base T Ethernet interface
o Supports IP host functionality: the BS1000, FS4000 & MS4000 have an IP
address and they support the following IP protocols: DHCP, ARP, ICMP,
TFTP, FTP, SNMP, ToD (RFC-868). Also, the BS1000, FS4000 and
MS4000 have a read only MAC address which is programmable during
manufacturing.
o Learning bridge and layer 2 forwarding: the BS1000, FS4000 and MS4000
support learning bridge functionality, maintain a Table of Connected
Entities (TCE) and use it to forward packets to the correct destination
(Ethernet interface, wireless interface or IP host)
c) QOS:
o Most of the QoS functionality is considered part of the MAC layer. The
general purpose embedded software provides complimentary QoS
functionality such as traffic prioritization.
d) Security:
o The general embedded software supports encryption and authentication
functionality and processes which are complimentary to the MAC layer
security functionality.
e) Provisioning:
o IP address provisioning (the BS1000, FS4000 and MS4000 acquire an IP
address from an external standard DHCP server).
o Time provisioning (the BS1000, FS4000 and MS4000 acquire date and time
from an RFC-868 Time server).
o EAP Provisioning (The BS1000, FS4000 and MS4000 acquire the MSK
Key from the AAA server).
o Configuration provisioning (the BS1000, FS4000 and MS4000
configuration provisioning is done through CLI and through SNMP
commands).
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o QoS Provisioning (the BS1000, FS4000 and MS4000 QOS provisioning is
done through SNMP commands).
f) Channel Acquisition
o The FS4000 and the MS4000 support a pre-configured channel acquisition
plan, i.e., a preconfigured list of channel alternatives, characterized by their
center frequency and the bandwidth. The radios go through the list and
performs successive channel acquisition attempts until an attempt is
successful.
o Criteria for channel acquisition success:
■ Successful registration if the FS4000 and MS4000 were not
registered prior to channel acquisition.
■ Successful ranging if the FS4000 and MS4000 were registered
prior to channel acquisition (i.e., in the case of moving to a new
BS1000).
o Once a channel is successfully acquired, the parameters of the acquired
channel are saved to the radio’s flash memory and are used as the first
acquisition option when powering on.
g) Network Management Support
o The BS1000, FS4000 and MS4000 have a SNMPv2c agent and can be
remotely managed by the FullMAX Network Management System outlined
in Paragraph 4 below.
o The BS1000, FS4000 and MS4000 also support a Telnet based Command
Line Interface (CLI) protocol which can be used to configure all radio
BS1000, FS4000 and MS4000 parameters.
h) Miscellaneous BS1000, FS4000 and MS4000 hardware platform
Management
o Remote and secure software download
o Initialization and configuration Persistence: The BS1000, FS4000 and
MS4000 support a CLI command that initiates the saving of the
configuration in the flash. Saved configuration is used after power off.
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3 FullMAX System Installation and Commissioning
3.1 Enclosure of BS1000, FS4000 and MS4000
The BS1000, FS4000 and MS4000 devices share the same enclosures
Figure 1: Top View
Figure 2: Bottom View
(with FCC label)
Figure 3: Front View
Figure 4: Rear View
Figure 5: Right Side View
Figure 6: Left Side View
3.2 Connecting the BS1000, FS4000 and MS4000
1. Place the enclosure in a stable location. Make sure that air can run
freely to the fans on the rear of the enclosure and the holes on the
enclosures sides.
2. Connect the cable from the Antenna to the device RF connector on the
enclosure left side.
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3. Use an Ethernet cable to connect the device with end equipment
4. Connect the power cable to the power connector on the enclosure left
side.
5. Connect the power label to the power source.
3.3 FullMAX BS1000, FS4000 & MS4000 Tune Up and Alignment
Procedures
1. Frequency and transmit power configuration of the FullMAX BS1000,
FS4000 and MS4000 is done by means of either a Command Line
Interface (CLI) tool or a Web based Network Management (NMS) tool.
2. The NMS/CLI tools is used to configure the following parameters:
a. BS1000, FS4000, MS4000 parameters:
i. Center RF frequency
ii. Channel bandwidth
iii. Transmit power
b. FS4000 and MS4000 parameters:
i. Maximum uplink transmit power
ii. An automatic channel acquisition table with up to 10 entries.
Each entry includes the center frequency and the channel
bandwidth.
3. The center frequency, channel bandwidth and transmit power at the
BS1000, FS4000 and MS4000 are configured statically by the NMS/CLI
tool. This means that the values will be maintained unless they are
changed by the CLI/NMS tool.
4. The FS4000 and MS4000 on the other hand, perform automatic channel
acquisition by selecting dynamically, the best channel (highest RSSI) from
a list of up to 10 pre-configured entries (see paragraph 2bi above). The
transmit power of the FS and MS are controlled by an automatic closed
loop power control algorithm running at the BS1000. The transmit power
of the FS and MS are increased by the BS1000 as the distance to the FS
and MS are increased (i.e., as the path loss increases and the RSSI as
measured by the BS1000 becomes lower). Note however that the FS and
MS will not transmit above the maximum uplink transmit power (see
paragraph 2bii) even if ordered by the BS1000.
5. The BS, FS and MS employ an external RF bandpass filter as described in
Annex A to this document. This is an additional safeguard which
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guarantees that the BS1000, FS4000 and the MS4000 will not transmit
outside the band.
6. The remainder of the document describes the CLI commands that are
used to configure the BS1000, FS4000 and MS4000 parameters
described above.
3.4 CLI Commands for BS1000, FS4000, MS4000
After logging in through telnet
[FULLMAX]$ Prompt for user is displayed.
Type help or ? to look at different groups.
Lock to dl-config group using dl-config command
[FULLMAX]$
[FULLMAX]$ dl-config
You are locked to dl-config group.
Only dl-config operations are allowed.
Use help or ? for help.
[FULLMAX(dl-config)]$
For Frequency:
[FULLMAX(dl-config)]$ show center-freq
center-freq 940500 khz
[FULLMAX(dl-config)]$ set center-freq
updated center-freq 930800 khz
For Tx Power :
[FULLMAX(dl-config)]$ show tx_power
tx_power 9 dbm
[FULLMAX(dl-config)]$ set tx_power 16
updated tx_power 16 dbm
For Channel Bandwidth:
[FULLMAX(dl-config)]$ show bandwidth
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bandwidth 500 khz
For FFT-Size:
[FULLMAX(dl-config)]$ show fft_size
fft_size 128fft
3.5 Monitoring the BS / FS/ MS with the FullMAX NMS
For monitoring the BS availability and performance it should be added to the
NMS.
Login to the NMS as an 'Admin'.
If the BS1000 is located in a new tower:
On NMS menu select: Admin New BS Tower
Type in tower name
Click 'Save'
On NMS menu select: Admin New BS Sector
Type in a 'sector name'
Select the tower on which the sector is installed
Add the BS1000 IP address
Click 'Save'
The BS1000 availability and performance will now be monitored by the NMS.
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4 FullMAX system operation
4.1 Operation Restrictions / Information to User
a) Changes or modifications not expressly approved by Full Spectrum Inc. could
void the user’s authority to operate the equipment.
b) This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to part 15 of the FCC Rules. These limits are designed to
provide reasonable protection against harmful interference in a residential
installation. This equipment generates, uses and can radiate radio frequency
energy and, if not installed and used in accordance with the instructions, may
cause harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If this
equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to
try to correct the interference by one or more of the following measures:
b.1.1.1 Reorient or relocate the receiving antenna.
b.1.1.2 Increase the separation between the equipment and receiver.
b.1.1.3 Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
b.1.1.4 Consult the dealer or an experienced radio/TV technician for help
4.2 BS1000 Operation
The FullMAX BS CLI supports the following commands. The access to this commands
are based on the user privileges. The Admin has the privilege to control and monitor all
the information supported by the FullMAX BS CLI commands, whereas the operator has
limited privileges. After the successful authentication, the user is permitted access to the
command line interface. Based on the user privileges, the help menu will be displayed to
the user.
4.2.1 Main Group
When the user logs in to the CLI it will lock to the default group which is the
main group. Whenever the user enters the Main group, the CLI will display the
main prompt. The Help command in main group will show the commands
supported in main group along with the group lock commands. Only commands
related to main group can be executed in main group.
FullMAX#
System IP address.
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Command Purpose Privileges
FullMAX# set ip-address
<ip-address>
Updates the system IP
address.
A/O
FullMAX# show ip-
address
Displays the system IP
address.
A/O
Example:
FullMAX#set ip-address 10.60.4.42
Updated IP address: 10.60.4.42
FullMAX# show ip-address
IP address: 10.60.4.56
DHCP server IP address.
Command Purpose Privileges
FullMAX#set dhcp-config-
server-ip <ip-address>
Allows the user to update the
BS with the DHCP server IP
address.
A/O
FullMAX# show dhcp-
config-server-ip
Allows the user to display the
remote DHCP server IP
address
A/O
Example:
FullMAX# set dhcp-config-server-ip 10.60.1.11
Updated DHCP server IP 10.60.1.11
FullMAX# show dhcp-config-server-ip
DHCP server IP 0.0.0.0
DHCP remote ID.
Command Purpose Privileges
FullMAX# set dhcp-
config-remote-id <mac-
address>
Allows the user to update the
DHCP remote ID
A/O
FullMAX# show dhcp-
config-remote-id
Allows the user to displays the
DHCP remote ID
A/O
Example:
FullMAX# set dhcp-config-remote-id 0019D1:50CC62
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Updated dhcp-config-remote-id 0019D1:50CC62
FullMAX# show dhcp-config-remote-id
dhcp-config-remote-id 0019D1:50CC62
DHCP circuit ID
Command Purpose Privileges
FullMAX# set dhcp-
config-circuit-id
Allows the user to updates the
DHCP circuit ID
A/O
FullMAX# show dhcp-
config-circuit-id
Allows the user to display the
DHCP circuit ID
A/O
Example:
FullMAX# set dhcp-config-circuit-id 3
Updated dhcp-config-circuit-id 3
FullMAX# show dhcp-config-circuit-id
dhcp-config-circuit-id 0
4.2.2 mac-config
mac-config group defines the commands that monitors or updates the MAC configuration
information. The user upon entering the mac-config command , locks into this particular
group to execute commands only related to the BS configuration.
FullMAX#
FullMAX# mac-config
FullMAX(mac-config)#
Command Purpose Privileges
FullMAX# mac-
config
The command allows the user to lock into
the group mac-config and execute all the
commands related to the group.
A/O
The commands supported by the mac-config group are
The command describes the time between transmissions of DCD messages in
milliseconds.
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Command Purpose Privileges
FullMAX(mac-config)# set
dcd-interval <val>
The command allows the user to
update the transmission time
between to DCD messages.
A
FullMAX(mac-config)#show
dcd-interval
The command allows the user to find
the time interval for transmission of
consecutive DCD messages.
A/O
Example:
FullMAX(mac-config)# set dcd-interval 30
Updated dcd-interval 30 milliseconds
FullMAX(mac-config)# show dcd-interval
dcd-interval 30 milliseconds
The command describes the time between transmissions of UCD messages in
milliseconds.
Command Purpose Privileges
FullMAX(mac-config)# set
ucd-interval <val>
The command allows the user to update the
transmission time between to UCD
messages.
A
FullMAX(mac-config)# show
ucd-interval
The command allows the user to find the
time interval for transmission of consecutive
UCD messages.
A/O
Example:
FullMAX(mac-config)# set ucd-interval 30
Updated ucd-interval 30 milliseconds
FullMAX(mac-config)# show ucd-interval
ucd-interval 30 milliseconds
The number of frames from the end of the frame carrying the DCD message the BS shall
wait after transmitting a DCD message with an incremented Configuration Change count
before issuing a DL-MAP message referring to Downlink Burst profiles defined in that
DCD message.
Command Purpose Privileges
FullMAX(mac-config)# set
dcd-transition <val>
This command allows the user to change
the configuration count, the BS shall wait
to transmit DL-MAP after transmitting
the DCD message.
A
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FullMAX(mac-config)#show
dcd-transition
The command allows the user to find the
configuration count, the BS shall wait
(no. of frames) to transmit DL-MAP after
transmitting the DCD message.
A/O
Example:
FullMAX(mac-config)# set dcd-transition 30
Updated dcd-transition 30 (MAC Frames)
FullMAX(mac-config)# show dcd-transition
dcd-transition 30 (MAC Frames)
The number of frames from the end of the frame carrying the UCD message the BS shall
wait after transmitting a UCD message with an incremented Configuration Change count
before issuing a UL-MAP message referring to Uplink Burst profiles defined in that UCD
message.
Command Purpose Privileges
FullMAX(mac-config)# set
ucd-transition <val>
This command allows the user to change the
configuration count, the BS shall wait to
transmit UL-MAP after transmitting the UCD
message.
A
FullMAX(mac-config)#show
ucd-transition
The command allows the user to find the
configuration count, the BS shall wait (no. of
frames) to transmit UL-MAP after transmitting
the UCD message.
A/O
Example:
FullMAX(mac-config)# set ucd-transition 30
Updated ucd-transition 30 (MAC Frames)
FullMAX(mac-config)# show ucd-transition
ucd-transition 30 (MAC Frames)
Number of Timeout Retries on DSA/DSC/DSD Responses.
Command Purpose Privileges
FullMAX(mac-config)# set
dsx-rsp-retries <val>
The command updates the value of the
DSA/DSC/DSD responses retries
timeout.
A
FullMAX(mac-config)# show
dsx-rsp-retries
The command displays the
DSA/DSC/DSD responses retries
timeout.
A/O
Example:
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FullMAX(mac-config)#set dsx-rsp-retries 6
Updated dsx-rsp-retries 6.
FullMAX(mac-config)#show dsx-rsp-retries
dsx-rsp-retries 3
Number of Timeout Retries on DSA/DSC/DSD Requests.
Command Purpose Privileges
FullMAX(mac-config)# set
dsx-req-retries <val>
The command updates the value of the
DSA/DSC/DSD requests retries timeout.
A
FullMAX(mac-config)#show
dsx-req-retries
The command displays the
DSA/DSC/DSD requests retries timeout.
A/O
Example:
FullMAX(mac-config)#set dsx-req-retries 6000
Updated dsx-req-retries 6000 milliseconds.
FullMAX(mac-config)#show dsx-req-retries
dsx-req-retries 3.
Wait for DSA/DSC/DSD Response Timeout in ms.
Command Purpose Privileges
FullMAX (mac-config) #
set t7-timeout <val>
The command updates the value of T7
timer, with in which the BS/SS should
wait for a DSx response.
A
FullMAX (mac-config) #
show t7-timeout
The command displays the T7 timer,
configured to which the BS/SS should
wait for a DSx response.
A/O
Example:
FullMAX(mac-config)#set t7-timeout 300
Updated t7-timeout 300 milliseconds.
FullMAX(mac-config)# show t7-timeout
t7-timeout 300 milliseconds.
Wait for DSA/DSC/DSD Acknowledge Timeout in ms.
Command Purpose Privileges
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FullMAX(mac-config)# set
t8-timeout <val>
The command updates the value of T8
timer, with in which the BS/SS should wait
for a DSx acknowledge.
A
FullMAX(mac-config)# show
t8-timeout
The command displays the T8 timer,
configured to which the BS/SS should wait
for a DSx acknowledge.
A/O
Example:
FullMAX(mac-config)# set t8-timeout 100
Updated t8-timeout 100 milliseconds.
FullMAX(mac-config)# show t8-timeout
t8-timeout 100 milliseconds.
The time allowed between the BS sending a RNG-RSP to an SS, and receiving an SBC-
REQ from that same SS.
Command Purpose Privileges
FullMAX(mac-config)# set
t9-timeout <val>
The command updates the T9 timer value
that waits for an SBC-REQ from an MS to
which it has sent a RNG-RSP.
A
FullMAX(mac-config)#show
t9-timeout
The command displays the T9 Timer value
configured in BS to wait for SBC-REQ
from an MS to which the BS has sent the
RNG-RSP.
A/O
Example:
FullMAX(mac-config)#set t9-timeout 3200
Updated t9-timeout 3200 milliseconds
FullMAX(mac-config)#show t9-timeout
t9-timeout 3200 milliseconds
The maximum time allowed to wait for a dynamic service transaction to end.
Command Purpose Privileges
FullMAX(mac-config)#set
t10-timeout <val>
The command updates the T10 timer
value that waits for a dynamic service
transaction end.
A
FullMAX(mac-config)#show
t10-timeout
The command displays the T10 timer
value that waits for a dynamic service
A/O
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transaction end.
Example:
FullMAX(mac-config)# set t10-timeout 1000
Updated t10-timeout 1000milliseconds
FullMAX(mac-config)# show t10-timeout
T10-timeout 1000milliseconds
Time allowed for an SS, following the receipt of a REG-RSP message to send a TFTP-
CPLT message to the BS.
Command Purpose Privileges
FullMAX(mac-config)#set
t13-timeout <val>
The command updates the T13 timer for
which the BS waits to receive TFTP-CPLT
message after sending the REG-RSP.
A
FullMAX(mac-config)#show
t13-timeout
The command displays the T13 timer
configured at BS to wait for TFTP-CPLT
message after sending the REG-RSP
A/O
Example:
FullMAX(mac-config)# set t13-timeout 13000
Updated t13-timeout 13000 milliseconds
FullMAX(mac-config)# show t13-timeout
t13-timeout 13000 milliseconds
Time allowed for SS to complete authorization and key exchange.
Command Purpose Privileges
FullMAX(mac-config)#set
t17-timeout <val>
The command updates the value of T17
timer, with in which the SS should complete
the authorization and key exchange.
A
FullMAX(mac-config)#show
t17-timeout
The command displays the T17 timer,
configured to which the SS should complete
the authorization and key exchange.
A/O
Example:
FullMAX(mac-config)#set t17-timeout 6000
Updated t17-timeout 6000 milliseconds.
FullMAX(mac-config)#show t17-timeout
t17-timeout 6000 milliseconds.
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Time to wait for an ARQ-reset.
Command Purpose Privileges
FullMAX(mac-config)# set
t22-timeout <val>
The command updates the T22 timer for
which the BS waits for ARQ reset.
A
FullMAX(mac-config)# show
t22-timeout
The command displays the T22 timer
configured at BS to wait for ARQ reset.
A/O
Example:
FullMAX(mac-config)# set t22-timeout 200
Updated t22-timeout 200 milliseconds
FullMAX(mac-config)# show t22-timeout
t22-timeout 200 milliseconds
The command defines weather BS is allowed to autonomously allocate SFIDs. If the BS
is enabled with this feature, the BS can autonomously allocate SFIDs in configured SFID
range. An SF is autonomously when it is not provisioned and may be initiated either by
either BS or SS.
Command Purpose Privileges
FullMAX(mac-config)# set
auto-sfid-enabled {enable
| disable }
This command allows the user to
configure BS by allowing the BS to
autonomously allocate SFIDs.
A
FullMAX(mac-config)# show
auto-sfid-enabled {enable
| disable }
This command displays the user, weather
the BS is enabled/disabled to allocate
SFIDs.
A/
O
Example:
FullMAX(mac-config)# set auto-sfid-enabled ENABLE
Updated auto-sfid-enabled ENABLED
FullMAX(mac-config)# show auto-sfid-enabled
auto-sfid-enabled ENABLED
The command defines the minimum value of the SFID for the range allocated to support
the creation of service flows autonomously.
Command Purpose Privileges
FullMAX(mac-config)# set
min-auto-sfid-range <val>
This command allows the user to define
the minimum value of SFID to define the
range in which the BS can autonomously
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create Service flows.
FullMAX(mac-config)#show
min-auto-sfid-range
The command displays the user, the
minimum value of sfid from which the BS
can create service flows autonomously.
A/O
Example:
FullMAX(mac-config)# set min-auto-sfid-range 6200
Updated min-auto-sfid-range 6200
FullMAX(mac-config)# show min-auto-sfid-range
Updated min-auto-sfid-range 6200
The command defines the maximum value of the SFID for the range allocated to support
the creation of service flows autonomously.
Command Purpose Privileges
FullMAX(mac-config)# set
max-auto-sfid-range <val>
This command allows the user to define the
maximum value of SFID range in which the
BS can autonomously create Service flows.
A
FullMAX(mac-config)# show
max-auto-sfid-range
The command displays the user, the
maximum value of sfid upto which the BS
can create service flows autonomously.
A/O
Example:
FullMAX(mac-config)# set max-auto-sfid-range 6300
Updated max-auto-sfid-range 6300
FullMAX(mac-config)# show max-auto-sfid-range
max-auto-sfid-range 6300
This command displays all the parametrs values for the mac-config group in CLI.
Command Purpose Privileges
FullMAX(mac-config)#show
all
The command displays the user, the
value of all the mib parameters of tables
in the group.
A/O
Example:
FullMAX(mac-config)# show all
dcd-interval 5000 milliseconds
ucd-interval 5000 milliseconds
ucd-transition 0 (MAC Frames)
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dcd-transition 0 (MAC Frames)
t9-timeout 8000 milliseconds
t13-timeout 0 milliseconds
t15-timer 0 milliseconds
t17-timeout 0 milliseconds
auto-sfid-enabled DISABLE
min-auto-sfid-range 0
max-auto-sfid-range 0
dsx-req-retries 3
dsx-rsp-retries 3
T7-timer 1000 milliseconds
t8-timer 300 milliseconds
t10-timer 3000 milliseconds
t22-timer 200 milliseconds
4.2.3 ul-config
The group defines the commands that monitors or updates the UCD channel attributes
that define the characteristics of uplink channels. The user upon entering the ul-config
command locks into the CLI to execute commands only related to BS uplink channel
characteristics.
FullMAX#
FullMAX# ul-config
FullMAX(ul-config)#
Command Purpose
FullMAX# ul-config The command allows the user to lock into the
group ul-config and execute all the
commands related to the group.
The number of UL-MAPs to receive before contention-based reservation is attempted
again for the same connection.
Command Purpose Privileges
FullMAX(ul-config)# set
ct-based-reserve-timeout
<val>
The command allows the user to update
number of UL-MAPs to receive before
contention-based reservation is attempted
again for the same connection.
A
FullMAX(ul-config)#show
ct-based-reserve-timeout
The command allows the user to display
number of UL-MAPs to receive before
contention-based reservation is attempted
again for the same connection.
A/O
Example:
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FullMAX(ul-config)# set ct-based-reserve-timeout 30
Updated ct-based-reserve-timeout 30
FullMAX(ul-config)# show ct-based-reserve-timeout
ct-based-reserve-timeout 30
Uplink center frequency (in KHz).
Command Purpose Privileges
FullMAX(ul-config)#set
uplink-center-frequecy <val>
The command allows the user to update
the uplink center frequency.
A
FullMAX(ul-config)#show
uplink-center-frequecy
The command allows the user to display
the uplink center frequency.
A/O
Example:
FullMAX (ul-config) # set uplink-center-frequency 30
updated uplink-center-frequecy 30 KHz
FullMAX (ul-config) # show uplink-center-frequency
uplink-center-frequecy 30 KHz
Number of initial ranging CDMA codes.
Command Purpose Privileges
FullMAX(ul-config)# set
init-rng-codes <val>
The command allows the user to update
the Number of initial ranging CDMA
codes.
A
FullMAX(ul-config)#show
init-rng-codes
The command allows the user to display
the number of initial ranging CDMA
codes.
A/O
Example:
FullMAX(ul-config)# set init-rng-codes 10
Updated init-rng-codes 10
FullMAX(ul-config)# show init-rng-codes
init-rng-codes 10
Number of periodic ranging CDMA codes.
Command Purpose Privileges
FullMAX(ul-config)# set
periodic-rng-codes <val>
The command allows the user to update
the Number of periodic ranging CDMA
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codes.
FullMAX(ul-config)#show
periodic-rng-codes
The command allows the user to display
the number of periodic ranging CDMA
codes.
A/O
Example:
FullMAX(ul-config)# set periodic-rng-codes 20
Updated periodic-rng-codes 20
FullMAX(ul-config)# show periodic-rng-codes
periodic-rng-codes 20
Number of bandwidth request codes.
Command Purpose Privileges
FullMAX(ul-config)#set
bandwidth-request-
codes <val>
The command allows the user to update
the number of bandwidth request codes.
A
FullMAX(ul-config)#show
bandwidth-request-codes
The command allows the user to display
the number of bandwidth request codes.
A/O
Example:
FullMAX(ul-config)#set bandwidth-request-codes 20
Updated bandwidth-request-codes 20
FullMAX(ul-config)#show bandwidth-request-codes
bandwidth-request-codes 20
Initial backoff window size for periodic ranging contention expressed as a power of 2
Command Purpose Privileges
FullMAX(ul-config)#set
per-rng-backoff-start
<val>
The command allows the user to
update the initial backoff window
size for periodic ranging
contention.
A
FullMAX(ul-config)#show
per-rng-backoff-start
The command allows the user to display
the initial backoff window size for
periodic ranging contention.
A/O
Example:
FullMAX (ul-config) # set per-rng-backoff-start 4
Updated per-rng-backoff-start 4
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FullMAX (ul-config) # show per-rng-backoff-start
per-rng-backoff-start 4
Final backoff window size for periodic ranging contention, expressed as a power of 2
Comman
d
Purpose Privileges
FullMAX(ul-config)# set
per-rng-backoff-end <val>
The command allows the user to update
the final backoff window size for periodic
ranging contention.
A
FullMAX(ul-config)# show
per-rng-backoff-end
The command allows the user to display
the final backoff window size for periodic
ranging contention.
A/O
Example:
FullMAX(ul-config)# set per-rng-backoff-end 8
Updated per-rng-backoff-end 8
FullMAX(ul-config)# show per-rng-backoff-end
per-rng-backoff-end 8
Indicates the starting number, of the group of codes used for uplink
Command Purpose Privileges
FullMAX(ul-config)#set
start-off-rng-codes <val>
The command allows the user to update
the starting number of the codes used for
uplink
A
FullMAX(ul-config)#show
start-off-rng-codes
The command allows the user to display
the starting number of the codes used for
uplink.
A/O
Example:
FullMAX(ul-config)# set start-off-rng-codes 64
Updated start-off-rng-codes 64
FullMAX(ul-config)# show start-off-rng-codes
start-off-rng-codes 64
Determines the UL_PermBase parameter for the sub carrier permutation to be used on
this uplink channel.
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Command Purpose Privileges
FullMAX(ul-config)# set
permutation-base <val>
The command allows the user to updates
the UL_PermBase parameter for the sub
carrier permutation to be used on this
uplink channel.
A
FullMAX(ul-config)# show
permuation-base
The command allows the user to display
the UL_PermBase parameter for the sub
carrier permutation to be used on this
uplink channel.
A/O
Example:
FullMAX(ul-config)# set permutation-base 127
Updated permutation-base 127
FullMAX(ul-config)#show permutation-base
permutation-base 8
This is a bitmap describing the physical sub-channels allocated to the segment in the UL,
when using the uplink PUSC permutation. The LSB of the first byte shall correspond to
subchannel 0.
Command Purpose Privileges
FullMAX(ul-config)# set
ul-alloc-sub-channel-
bitmap <val>
The command allows the used to update
the ofdma subchannel allocation.
A
FullMAX(ul-config)#show
ul-alloc-sub-channel-
bitmap
The command allows the user to display
the ofdma subchannel allocation.
A/O
Example:
FullMAX(ul-config)#set ul-alloc-sub-channel-bitmap
00110001
Updated ul-alloc-sub-channel-bitmap ff
FullMAX(ul-config)# show ul-alloc-sub-channel-bitmap
ul-alloc-sub-channel-bitmap 00110001
Threshold of the maximum of the standard deviations of the individual bands CINR
measurements over time to trigger mode transition from normal sub channel to Band
AMC.
Command Purpose Privileges
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FullMAX(ul-config)# set
band-amc-alloc-threshold
<val>
The command allows the user to update
the parameter for AMC band allocation
Threshold.
A
FullMAX(ul-config)#show
band-amc-alloc-threshold
The command allows the user to
display the parameter for AMC band
allocation threshold.
A/O
Example:
FullMAX(ul-config)# set band-amc-alloc-threshold 64
Updated band-amc-alloc-threshold 64 dB
FullMAX(ul-config)# show band-amc-alloc-threshold
band-amc-alloc-threshold 64 dB
Threshold of the maximum of the standard deviations of the individual bands CINR
measurements over time to trigger mode transition from Band AMC to normal
subchannel.
Command Purpose Privileges
FullMAX(ul-config)# set
band-amc-release-threshold
<val>
The command allows the user to update
the parameter that defines the maximum
threshold for AMC band.
A
FullMAX(ul-config)#show
band-amc-release-threshold
The command allows the user to display
the parameter that defines the maximum
threshold for AMC band.
A/O
Example:
FullMAX(ul-config)# set band-amc-release-threshold 56
Updated band-amc-release-threshold 56 dB
FullMAX(ul-config)# show band-amc-release-threshold
band-amc-release-threshold 56 dB
Minimum required number of frames to measure the average and standard deviation for
the event of Band AMC triggering.
Command Purpose Privilege
s
FullMAX(ul-config)# set
band-amc-alloc-timer <val>
The command allows the user to update
the parameter that defines the minimum
A
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required number of frames to measure
the average and standard deviation for
the event of Band AMC triggering.
FullMAX(ul-config)#show
band-amc-alloc-timer
The command allows the user to display
parameter that defines the minimum
required number of frames to measure
the average and standard deviation for
the event of Band AMC triggering.
A/O
Example:
FullMAX(ul-config)# set band-amc-alloc-timer 22
Updated band-amc-alloc-timer 22 Frames
FullMAX(ul-config)# show band-amc-alloc-timer
band-amc-alloc-timer 22 Frames
Minimum required number of frames to measure the average and standard deviation for
the event of Band AMC triggering.
Command Purpose Privileges
FullMAX(ul-config)# set
band-amc-release-timer
<val>
The command allows the user to update
the parameter that defines the minimum
required number of frames to measure
the average and standard deviation for
the event of Band AMC triggering.
A
FullMAX(ul-config)#show
band-amc-release-timer
The command allows the user to display
parameter that defines the minimum
required number of frames to measure
the average and standard deviation for
the event of Band AMC triggering.
A/O
Example:
FullMAX(ul-config)#set band-amc-release-timer 22
Updated band-amc-release-timer 22 Frames
FullMAX(ul-config)#show band-amc-release-timer
band-amc-release-timer 22 Frames
Backoff timer between consecutive mode transitions from normal subchannel to Band
AMC when the previous request is failed.
Command Purpose Privileges
FullMAX(ul-config)#set
band-amc-retry-timer <val>
The command allows the user to
update the parameter band AMC retry
A
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timer
FullMAX(ul-config)#show
band-amc-retry-timer
The command allows the user to
display parameter band AMC retry
timer.
A/O
Example:
FullMAX(ul-config)# set band-amc-retry-timer 5
Updated band-amc-retry-timer 5
FullMAX(ul-config)# show band-amc-retry-timer
band-amc-retry-timer 5
Maximum period between refreshing the Band CINR measurement by the unsolicited
REP-RSP.
Command Purpose Privileges
FullMAX(ul-config)# set
band-stat-rep-max-period
<val>
The command allows the user to update the
maximum period between refreshing the
Band CINR measurement by the unsolicited
REP-RSP.
A
FullMAX(ul-config)# show
band-stat-rep-max-period
The command allows the user to display the
maximum period between refreshing the
Band CINR measurement by the unsolicited
REP-RSP.
A/O
Example:
FullMAX(ul-config)# set band-stat-rep-max-period 12
Updated band-stat-rep-max-period 12
FullMAX(ul-config)# show band-stat-rep-max-period
band-stat-rep-max-period 12
MS specific up power offset adjustment step.
Command Purpose Privileges
FullMAX(ul-config)#set
band-stat-rep-max-period
<val>
The command allows the user to update
the maximum period between refreshing
the Band CINR measurement by the
unsolicited REP-RSP.
A
FullMAX(ul-config)#show
band-stat-rep-max-period
The command allows the user to display
the maximum period between refreshing
the Band CINR measurement by the
unsolicited REP-RSP.
A/O
Example:
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FullMAX(ul-config)# set up-power-adj-step 12
Updated up-power-adj-step 12 (in 0.01 dB).
FullMAX(ul-config)# show up-power-adj-step
up-power-adj-step 12 (in 0.01 dB).
MS specific down power offset adjumstment step.
Command Purpose Privileges
FullMAX(ul-config)# set
down-power-offset-adj-step
<val>
The command allows the user to update
the MS specific down power offset
adjustment step.
A
FullMAX ul-config)# show
down-power-offset-adj-step
The command allows the user to display
the MS specific down power offset
adjustment step.
A/O
Example:
FullMAX(ul-config)# set down-power-offset-adj-step 6
Updated down-power-offset-adj-step 6 (in 0.01 dB).
FullMAX(ul-config)# show up-power-offset-adj-step
up-power-offset-adj-step 6 (in 0.01 dB).
Minimum level of power offset adjustment.
Command Purpose Privileges
FullMAX(ul-config)# set
min-power-offset-adj <val>
The command allows the user to update
the value of Minimum level of power
offset adjustment.
A
FullMAX(ul-config)#show
min-power-offset-adj
The command allows the user to display
the value of Minimum level of power
offset adjustment.
A/O
Example:
FullMAX(ul-config)# set min-power-offset-adj 2
Updated min-power-offset-adj 2 (in 0.01 dB).
FullMAX(ul-config)# show min-power-offset-adj
min-power-offset-adj 2 (in 0.01 dB).
Maximum level of power offset adjustment.
Command Purpose Privileges
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FullMAX(ul-config)#set
max-power-offset-adj
<val>
The command allows the user to update the
value of maximum level of power offset
adjustment.
A
FullMAX(ul-config)#show
max-power-offset-adj
The command allows the user to display the
value of maximum level of power offset
adjustment.
A/O
Example:
FullMAX (ul-config) # set max-power-offset-adj 16
Updated max-power-offset-adj 16 (in 0.01 dB).
FullMAX (ul-config) # show max-power-offset-adj
max-power-offset-adj 16 (in 0.01 dB).
Initial backoff window size for initial ranging connection, expressed as a power of 2.
Command Purpose Privileges
FullMAX(ul-config)# set
intial-rng-backoff-start
<val>
The command allows the user to update
the value of initial backoff window size
for initial ranging connection.
A
FullMAX(ul-config)#show
intial-rng-backoff-start
The command allows the user to display
the value of initial backoff window size
for initial ranging connection.
A/O
Example:
FullMAX(ul-config)# set intial-rng-backoff-start 2
Updated intial-rng-backoff-start 2
FullMAX(ul-config)# show intial-rng-backoff-start
intial-rng-backoff-start 2
Final backoff window size for initial ranging connection, expressed as a power of 2.
Command Purpose Privileges
FullMAX(ul-config)# set
intial-rng-backoff-end
<val>
The command allows the user to update
the value of final backoff window size
for initial ranging connection.
A
FullMAX(ul-config)# show
intial-rng-backoff-end
The command allows the user to display
the value of final backoff window size
for initial ranging connection.
A/O
Example:
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FullMAX(ul-config)# set intial-rng-backoff-end 8
Updated intial-rng-backoff-end 8
FullMAX(ul-config)# show intial-rng-backoff-end
intial-rng-backoff-end 8
Initial backoff window size for contention bandwidth requests, expressed as a power of 2.
Command Purpose Privileges
FullMAX(ul-config)# set
bw-req-backoff-start <val>
The command allows the user to update
the value of initial backoff window size
for contention bandwidth requests.
A
FullMAX(ul-config)#show
bw-req-backoff-start
The command allows the user to display
the value of initial backoff window size
for contention bandwidth requests.
A/O
Example:
FullMAX(ul-config)#set bw-req-backoff-start 4
Updated bw-req-backoff-start 4
FullMAX(ul-config)#show bw-req-backoff-start
bw-req-backoff-start 4
Final backoff window size for contention bandwidth requests, expressed as a power of 2.
Command Purpose Privileges
FullMAX(ul-config)# set
bw-req-backoff-end <val>
The command allows the user to update the
value of final backoff window size for
contention bandwidth requests.
A
FullMAX(ul-config)# show
bw-req-backoff-end
The command allows the user to display the
value of final backoff window size for
contention bandwidth requests.
A/O
Example:
FullMAX(ul-config)# set bw-req-backoff-end 8
Updated bw-req-backoff-end 4
FullMAX(ul-config)# show bw-req-backoff-end
bw-req-backoff-end 4
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This command displays all the parameter values of tables supported in this group.
Command Purpose Privileges
FullMAX(ul-config)#
show all
The command allows the user to display the
value of all the MIB parameters of tables
supported in this group.
A/O
Example:
FullMAX(ul-config)# show all
ct-based-reserve-timeout 200
uplink-center-frequency 200
init-rng-codes 0
periodic-rng-codes 50
bandwidth-request-codes 0
per-rng-backoff-start 20
permutation-base 0
ul-alloc-sub-channel-bitmap 3
band-amc-alloc-threshold 60 db
band-amc-release-threshold 0 db
band-amc-alloc-timer 255 Frames
band-amc-release-timer 0 Frames
4.2.4 dl-config
The group defines the commands that monitors or updates the DCD channel attributes
that define the characteristics of downlink channel. The user upon entering the dl-config
command locks into the CLI to execute commands only related to BS downlink channel
characteristics.
FullMAX#
FullMAX# dl-config
FullMAX(dl-config)#
Command Purpose Privileges
FullMAX# dl-config The command allows the user to lock
into the group dl-config and execute
all the commands related to the group.
A/O
This command Displays the values of all the commands affiliated to dl-channel-table in
the dl-config group.
Command Purpose Privileges
FullMAX(dl-config)#show
dl-channel-table
The command allows the user to display
the DL Channel table MIB parameter
values.
A/O
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Example:
FullMAX(dl-config)# show dl-channel-table
bs-eirp 244 dBm
downlink-center-frequency 244 khz
bsid 00f401:0000f4
hysterisis-margin 45 dB
time-to-trigger 2 milliseconds
The duration of the frame
Command Purpose Privileges
FullMAX(dl-config)#set
frame-duration-code
The command allows the user to update
the OFDMA frame duration code.
A
FullMAX(dl-config)#show
frame-duration-code
The command allows the user to display
the OFDMA frame duration code.
A/O
Example:
FullMAX(dl-config)# set frame-duration-code 12
updated frame-duration-code 12
FullMAX(dl-config)# show frame-duration-code
frame-duration-code 12
The EIRP is the equivalent isotropic radiated power of the base station, which computed
for a simple single-antenna transmitter.
Command Purpose Privileges
FullMAX(dl-config)#set
bs-eirp <val>
The command allows the user to update
the BS EIRP parameter
A
FullMAX(dl-config)#show
bs-eirp
The command allows the user to display
the BS EIRP parameter
A/O
Example:
FullMAX(dl-config)# set bs-eirp 3770
Updated bs-eirp 3770 dBm
FullMAX(dl-config)# show bs-eirp
bs-eirp 3770 dBm
Downlink center frequency (Khz).
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Command Purpose Privileges
FullMAX(dl-config)# set
downlink-center-frequency
<val>
The command allows the user to update the
downlink center frequency.
A
FullMAX(dl-config)#show
downlink-center-frequency
The command allows the user to display
the downlink center frequency.
A/O
Example:
FullMAX (dl-config)# set downlink-center-frequency
11000
Updated downlink-center-frequency 11000 kHz
FullMAX(dl-config)# show downlink-center-frequency
downlink-center-frequency 11000 kHz.
Defines the encoding of BSID. The BSID is a 6 byte number and follows the encoding
rules of MacAddress textual convention, e.e as if it were transmitted least-significant bit
first. The value should be displayed with 2 parts clearly separated by a colon e.g :
001DFF:00003A. The most significant part is representing the operator ID.
Command Purpose Privileges
FullMAX(dl-config)# set
bsid <val>
The command allows the user to update the
BS ID
A
FullMAX(dl-config)#show
bsid
The command allows the user to display the
BS ID
A/O
Example:
FullMAX(dl-config)# set bsid 0A30A1:10FE11
Updated bsid 0A30A1:10FE11
FullMAX(dl-config)# show bsid
bsid 0A30A1:10FE11
Channel Bandwidth in Khz
Command Purpose Privileges
FullMAX(dl-config)# set
bandwidth <val>
The command allows the user to updates the
channel bandwidth.
A
FullMAX(dl-config)#show The command allows the user to display the A/O
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bandwidth channel bandwidh.
Example:
FullMAX(dl-config)# set bandwidth 400
Updated bandwidth 400 KHz
FullMAX(dl-config)# show bandwidth
bandwidth 400 KHz
Sampling clock for the channel
Command Purpose Privileges
FullMAX(dl-config)#set
sampling-clock <val>
The command allows the user to updates the
sampling clock.
A
FullMAX(dl-config)#show
sampling-clock
The command allows the user to display the
sampling clock.
A/O
Example:
FullMAX(dl-config)# set sampling-clock 12800
Updated sampling-clock 12800 KHz
FullMAX(dl-config)# show sampling-clock
sampling-clock 12800 KHz
The ID of the PHY filter to use for this channel
Command Purpose Privileges
FullMAX(dl-config)# set
filter-id <val>
The command allows the user to updates
the filter id.
A
FullMAX(dl-config)#show
filter-id
The command allows the user to display
the filter id.
A./O
Example:
FullMAX(dl-config)# set filter-id 1
Updated filter-id 1
FullMAX(dl-config)# show filter-id
filter-id 1
FFT size for OFDMA PHY
Command Purpose Privileges
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FullMAX(dl-config)# set
fft_size <val>
The command allows the user to
updates the fft_size.
A
FullMAX(dl-config)#show
fft_size
The command allows the user to display the
fft_size
A/O
Example:
FullMAX (dl-config)# set fft_size 512
Updated fft_size 512
FullMAX (dl-config) # show fft_size
fft_size 512
This field indicates the number of OFDMA symbols allocated for downlink transmission
in the OFDMA frame
Command Purpose Privileges
FullMAX(dl-config)# set
dl_frame-duration <val>
The command allows the user to
updates the downlink frame duration
A
FullMAX(dl-config)# show
dl_frame-duration
The command allows the user to
display the downlink frame duration
A/O
Example:
FullMAX (dl-config)# set dl_frame-duration 20
Updated dl_frame-duration 20 ofdma symbols
FullMAX (dl-config) # show dl_frame-duration
dl_frame-duration 20 ofdma symbols
This field indicates the number of OFDMA symbols allocated for uplink transmission in
the OFDMA frame.
Command Purpose Privileges
FullMAX(dl-config)# set
ul_frame-duration <val>
The command allows the user to updates
the uplink frame duration.
A
FullMAX(dl-config)#show
ul_frame-duration
The command allows the user to display
the uplink frame duration.
A/O
Example:
FullMAX (dl-config)# set ul_frame-duration 10
Updated ul_frame-duration 10 ofdma symbols
FullMAX (dl-config) # show ul_frame-duration
ul_frame-duration 10 ofdma symbols
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Number of downlink zones for the BS
Command Purpose Privileges
FullMAX(dl-config)#set
dl_zones_num <val>
The command allows the user to update
the number of downlink zones.
A
FullMAX(dl-config)#show
dl_zones_num
The command allows the user to
display the number of downlink zones.
A/O
Example:
FullMAX (dl-config)# set dl_zones_num 2
Updated dl_zones_num 2 zones
FullMAX (dl-config) # show dl_zones_num
dl_zones_num 2 zones
Number of uplink zones for the BS
Command Purpose Privileges
FullMAX(dl-config)# set
ul_zones_num <val>
The command allows the user to
updates the number of uplink
zones
A
FullMAX(dl-config)#show
ul_zones_num
The command allows the user to
display the number of uplink zones.
A/O
Example:
FullMAX(dl-config)# set ul_zones_num 2
Updated ul_zones_num 2 zones
FullMAX (dl-config)# show ul_zones_num
ul_zones_num 2 zones
4.2.5 zone-config
The group defines the commands that monitors or updates the downlink and uplink zones
attributes. The user upon entering the zone-config command locks into the CLI to execute
commands only related to BS downlink and uplink zones characteristics.
FullMAX#
FullMAX# zone-config
FullMAX(zone-config)#
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Command Purpose Privileges
FullMAX# zone-config The command allows the user to lock into
the group zone-config and execute all
the commands related to the group.
A/O
The downlink zone identifier ,the index of the first zone will always be 0
Command Purpose Privileges
FullMAX(zone-config)#show
dl-zone-id
The command allows the user to
display the avaliable DL zone ids.
A/O
Example:
FullMAX(zone-config)#show dl-zone-id
dl-zone-id 0
dl-zone-id 1
dl-zone-id 2
This table contains zone attributes that characterize a downlink zone
Command Purpose Privileges
FullMAX(zone-config)#
show dl_zone-table
The command allows the user to display the
list of downlink zones.
A/O
FullMAX(zone-config)# show dl-zone-table 2
dl-zone-stc 0
dl-perm-type pusc
dl-perm-base 17
dl-start-symbol 11
dl-all-sc YES
dl-cinr-threshold 2 dB
Permutation type of this zone
Command Purpose Privileges
FullMAX(zone-config)# set
dl-perm-type <id> <val>
The command allows the user to
update the downlink permutation
type of zone <id>
A
FullMAX(zone-config)# show
dl-perm-type <id>
The command allows the user to
display the permutation type of
zone <id>
A/O
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Example:
FullMAX(zone-config)# set dl-perm-type 0 1
Updated dl-perm-type of zone 0 to pusc (1)
FullMAX(zone-config)# show dl-perm-type 0
dl-perm-type of zone 0 is pusc (2)
Downlink zone
Command Purpose Privileges
FullMAX(zone-config)# set
dl-perm-zone <zone-id>
<val>
The command allows the user to
update the downlink permutation
zone of zone <zone-id>
A
FullMAX(zone-config)#show
dl-perm-zone <zone-id>
The command allows the user to
display the permutation zone of zone
<zone-id>
A/O
Example:
FullMAX(zone-config)# set dl-zone-stc 0 2
Updated dl-zone-stc of zone 0 to nonstc (2)
FullMAX(zone-config)# show dl-zone-stc 0
dl-zone-stc of zone 0 is nonstc (2)
Permutation base for this zone
Command Purpose Privileges
FullMAX(zone-config)#
set dl-perm-base <id>
<val>
The command allows the user to update the
downlink permutation base of zone <id>
A
FullMAX(zone-config)#
show dl-perm-base <id>
The command allows the user to display
the permutation base of zone <id>
A/O
Example:
FullMAX(zone-config)# set dl-perm-base 0 17
Updated dl-perm-base of zone 0 to 17
FullMAX(zone-config)# show dl-perm-base
dl-perm-base of zone 0 is 17
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Index of the starting symbol for this zone.
Command Purpose Privileges
FullMAX(zone-config)# set
dl-start-symbol <zone-id>
<val>
The command allows the user to update
the start-symbol downlink of <zone-id>
A
FullMAX(zone-config)#show
dl-start-symbol <zone-id>
The command allows the user to display
the start-symbol of <zone-id>
A/O
Example:
FullMAX (zone-config)# set dl-start-symbol 0 5
Updated dl-perm-type of zone 0 to 5
FullMAX(zone-config)# show dl-start-symbol
dl-start-symbol of zone 0 is 5
Use all subchannels.
1 (true): use_all_SC=1
2 (false): use_all_SC=0
Downlink zone parameters –
Command Purpose Privileges
FullMAX (zone-config)#set
dl-all-sc <zone-id> <val>
The command allows the user to
update the downlink zone–all-
subchannels parameter
A
FullMAX(zone-config)#show
dl-all-sc <zone-id>
The command allows the user to
display the all subchannels parameter
of <zone-id>
A/O
Example:
FullMAX(zone-config)# set dl-all-sc 0 YES
Updated dl-all-sc of zone 0 to YES
FullMAX (zone-config) # show dl-all-sc 0
dl-all-sc of zone 0 is YES
Threshold of the maximum of the standard deviations of the individual bands CINR
measurements over time to trigger mode transition from zone 0 to this zone.
Command Purpose Privileges
FullMAX(zone-config)# set
dl-cinr-threshold <zone-id>
<val>
The command allows the user to update
the CINR threshold for <zone-id>
A
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FullMAX(zone-config)#show
dl-cinr-threshold <zone-id>
The command allows the user to
display the CINR threshold for <zone-
id>
A/O
Example:
FullMAX(zone-config)# set dl- cinr-threshold 0 2
Updated dl-cinr-threshold of zone 0 to 2 dB
FullMAX(zone-config)# show dl-cinr-threshold 0
dl-cinr-threshold of zone 0 is 2 dB
The uplink zone identifier , The index of the first uplink zone will always be 0
Command Purpose Privileges
FullMAX(zone-config)# show
ul-zone-id
The command allows the user to display
the ul zone indixes avaliable
A/O
Example:
FullMAX(zone-config)#show ul-zone-id
ul-zone-id 0
ul-zone-id 1
ul-zone-id 2
Displays the Uplink zones table
Command Purpose Privileges
FullMAX(zone-config)#show
ul_zone-table
The command allows the user to
display the list of uplink zones.
A/O
Example:
FullMAX(zone-config)# show ul-zone-table 0
ul-perm-type for zone-id (0) : nonstc(2)
ul-perm-base for zone-id (0) : 17
ul-start-symbol for zone-id (0) : 11
ul-alloc-bitmap for zone-id (0) : 3
ul-cinr-threshold for zone-id (0) : 2 dB
A zone permutation type
Command Purpose Privileges
FullMAX(zone-config)#set
ul-perm-type <id> <val>
The command allows the user to
update the uplink permutation type of
A
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<zone-id>
FullMAX(zone-config)#show
ul-perm-type <id>
The command allows the user to
display the permutation type of zone
<zone-id>
A/O
Example:
FullMAX(zone-config)# set ul-perm-type 0 2
Updated ul-perm-type for zone-id(0): to non-stc (2)
FullMAX(zone-config)# show ul-perm-type 0
ul-perm-type for zone-id (0) : non-stc (2)
Determines the Permutation Base parameter for the zone, permutation to be used on this
uplink zone
Command Purpose Privileges
FullMAX(zone-config)# set
ul-perm-base <id> <val>
The command allows the user to
update the uplink permutation base of
<zone-id>
A
FullMAX(zone-config)#show
ul-perm-base <id>
The command allows the user to
display the permutation base of
<zone-id>
A/O
Example:
FullMAX(zone-config)# set ul-perm-base 0 17
Updated ul-perm-base for zone-id (0) to 17
FullMAX (zone-config) # show ul-perm-base
ul-perm-base for zone-id (0) : 17
Index of the starting symbol for this zonehat segment
Command Purpose Privileges
FullMAX(zone-config)# set
ul-start-symbol <zone-id>
<val>
The command allows the user to
update the start-symbol uplink of
<zone-id>
A
FullMAX(zone-config)# show
ul-start-symbol <zone-id>
The command allows the user to
display the start-symbol of <zone-id>
A/O
Example:
FullMAX (zone-config)# set ul-start-symbol 0 5
Updated ul-start-symbol for zone-id (0) to 5
FullMAX (zone-config) # show ul-start-symbol
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ul-start-symbol for-id zone-id(0) :5
This is a bitmap describing the physical sub-channels allocated to the segment in the UL,
when using the uplink PUSC permutation. The LSB of the first byte shall corrspond to
subchannel 0. For any bit that is not set, the corresponding subchannel shall not be used
by the SS on that segment
Command Purpose Privileges
FullMAX(zone-config)# set
ul-alloc-bitmap <zone-id>
<val>
The command allows the user to
update the uplink zone – allocation
bitmap parameter
A
FullMAX(zone-config)#show
ul-alloc-bitmap <zone-id>
The command allows the user to
display the allocation bitmap
parameter of zone <id>
A/O
Example:
FullMAX(zone-config)# set ul-alloc-bitmap 0 010101
Updated ul-alloc-bitmap for zone-id (0) : to 010101
FullMAX(zone-config) # show ul-alloc-bitmap 0
ul-alloc-bitmap of zone-id (0) : 01010101
This object is used to ensure that the write operation to multiple columns is guaranteed to
be treated as atomic operation by agent.
Command Purpose Privileges
FullMAX(zone-config)# set
ul-cinr-threshold <zone-id>
<val>
The command allows the user to
update the CINR threshold for
zone <id>
A
FullMAX(zone-config)# show
ul-cinr-threshold <zone-id>
The command allows the user to
display the CINR threshold for
zone <id>
A/O
Example:
FullMAX(zone-config)# set ul-cinr-threshold 0 2
Updated ul-cinr-threshold for zone-id (0) to 2 dB
FullMAX(zone-config)# show ul-cinr-threshold 0
ul-cinr-threshold for zone-id (0): 2 dB
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4.2.6 bs-cap-config
The group defines the commands to configure the basic capabilities of BS. The user
upon entering the bs-capability-config command locks into the CLI to execute commands
only related to basic capabilities of BS.
FullMAX#
FullMAX# bs-cap-config
FullMAX(bs-cap-config)#
Command Purpose Privileges
FullMAX# bs-cap-config The command allows the user to lock into
the group bs-cap-config and execute all the
commands related to the group.
A/O
Description
Command Purpose Privileges
FullMAX(bs-cap-
onfig)#show all
The command allows the user to
display values of all the attributes of
bs-cap-config group
A/O
Example:
FullMAX(bs-cap-config)# show all
capability-ttg-transition-gap 34 microseconds
capability-rtg-transition-gap 34 microseconds
capability-pn-window-size 1000
capability-number-of-ul-harq-channel 0
capability-number-of-dl-harq-channel 0
This parameter indicates the configured transition speed SSTTG for TDD and H-FDD
SSs. The usage is defined by ss-transistion-gap
Command Purpose Privileges
FullMAX(bs-cap-config)# set
capability-ttg-transitio-gap
<val>
The command allows the user to
update the TTG transition gap
parameter
A
FullMAX(bs-cap-config)# show
capability-ttg-transitio-gap
The command allows the user to
display the TTG transition gap
parameter
A/O
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Example:
FullMAX(bs-cap-config)# set capability-ttg-transitio-gap
<val>
Updated capability-ttg-transitio-gap
FullMAX(bs-cap-config)# show capability-ttg-transitio-gap
capability-ttg-transitio-gap
This parameter indicates the configured transition speed SSTTG for TDD and H-FDD
SSs. The usage is defined by ss-transition-gap.
Command Purpose Privileges
FullMAX(bs-cap-config)# set
capability-rtg-transition-gap
<val>
The command allows the user to
update the RTG transition gap.
A
FullMAX(bs-cap-config)#show
capability-rtg-transition-gap
The command allows the user to
display the RTG transition gap.
A/O
Example:
FullMAX(bs-cap-config)# set capability-rtg-transition-gap
30 Updated capability-rtg-transition-gap
FullMAX (bs-cap-config)# show capability-rtg-transition-
gap
capability-rtg-transition-gap 30
4.2.7 bs-burst-profile
The group defines the commands to burst profile commands of BS. The user upon
entering the bs-burst-profile command locks into the CLI to execute commands only
related to BS burst profile of BS.
FullMAX#
FullMAX# bs-burst-profile
FullMAX(bs-burst-profile)#
Command Purpose Privileges
FullMAX#bs-burst-profile The command allows the user to lock
into the group bs-burst-profile and
execute all the commands related to the
group.
A/O
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The uplink interval usage code inidicates the uplink burst profile in the ucd message and
is used along the index to identify the ucd-fec-code. Max uiuc -index range for OFDMA
PHY <0- 10 >
Command Purpose Privileges
FullMAX(bs-burst-Profile)#
show uiuc-index
The command allows the user to
display the Uplink intetrval usage
codes indexes avaliable in the MAC
A/O
Example:
FullMAX(bs-burst-profile)# show uiuc-index
uiuc-index 0
uiuc-index 1
uiuc-index 2
uiuc-index 3
Uplink FEC code type and modulation type
Command Purpose Privileges
FullMAX (bs-burst-rofile)#
show dcd-fec-code-type
<uiuc-index>
The command allows the user to
display the different FEC and coding
options for uplink burst profile.
A/O
Example:
FullMAX(bs-burst-profile)# show ucd-fec-code-type 1
ucd-fec-code-type for uiuc-index (1) :
qpskCc1Over2(0), qpskCc3Over4(1),
sixteenQamCc1Over2(2), sixteenQamCc3Over4(3),
sixtyFourQamCc1Over2(4), sixtyFourQamCc2Over3(5),
sixtyFourQamCc3Over4(6), qpskBtc1Over2(7),
qpskBtc3Over4Or2Over3(8), sixteenQamBtc3Over5(9),
sixteenQamBtc4Over5(10),
sixtyFourQamBtc2Over3Or5Over8(11),
sixtyFourQamBtc5Over6Or4Over5(12), qpskCtc1Over2(13),
reserved14(14), qpskCtc3Over4(15),
sixteenQamCtc1Over2(16), sixteenQamCtc3Over4(17),
sixtyFourQamCtc1Over2(18), sixtyFourQamCtc2Over3(19),
sixtyFourQamCtc3Over4(20), sixtyFourQamCtc5Over6(21),
qpskZtCc1Over2(22), qpskZtCc3Over4(23),
sixteenQamZtCc1Over2(24), sixteenQamZtCc3Over4(25),
sixtyFourQamZtCc1Over2(26),
sixtyFourQamZtCc2Over3(27),
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sixtyFourQamZtCc3Over4(28), qpskLdpc1over2(29),
qpskLdpc2over3A(30), qpskLdpc3over4A(31),
sixteenQamLdpc1over2(32), sixteenQamLdpc2over3A(33),
sixteenQamLdpc3over4A(34), sixtyFourQamLdpc1over2(35),
sixtyFourQamLdpc2over3A(36),
sixtyFourQamLdpc3over4A(37), qpskLdpc2over3B(38),
qpskLdpc3over4B(39), sixteenQamLdpc2over3B(40),
sixteenQamLdpc3over4B(41),
sixtyFourQamLdpc2over3B(42),
sixtyFourQamLdpc3over4B(43), qpskCcOptIntv1over2(44),
qpskCcOptIntv3over4(45),
sixteenQamCcOptIntv1over2(46),
sixteenQamCcOptIntv3over4(47),
sixtyFourQamCcOptIntv2over3(48),
sixtyFourQamCcOptIntv3over4(49), qpskLdpc5over6(50),
sixteenQamLdpc5over6(51), sixtyFourQamLdpc5over6(52)
The Downlink interval usage code inidicates the uplink burst profile in the ucd message
and is used along the index to identify the Dcd-fec-code. Max diuc -index range for
OFDMA PHY <0- 12 >
Command Purpose Privileges
FullMAX(bs-burst-Profile)#
show diuc-index
The command allows the user to
display the Downlink interval
usage codes indexes avaliable in
the MAC
A/O
Example:
FullMAX(bs-burst-profile)# show diuc index
diuc-index 0
diuc-index 1
diuc-index 2
diuc-index 3
Displays FEC and coding options for downlink burst profiles
Command Purpose Privileges
FullMAX (bs-burst-
profile)# show dcd-
fec-code-type <diuc-
index>
The command allows the user to display
the different FEC and coding options for
downlink burst profile.
A/O
Example:
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FullMAX (bs-burst-profile) # show dcd-fec-code-type 2
dcd-fec-code-type for dicu-index (2) is
qpskCc1Over2(0), qpskCc3Over4(1),
sixteenQamCc1Over2(2), sixteenQamCc3Over4(3),
sixtyFourQamCc1Over2(4), sixtyFourQamCc2Over3(5),
sixtyFourQamCc3Over4(6), qpskBtc1Over2(7),
qpskBtc3Over4Or2Over3(8), sixteenQamBtc3Over5(9),
sixteenQamBtc4Over5(10),
sixtyFourQamBtc2Over3Or5Over8(11),
sixtyFourQamBtc5Over6Or4Over5(12), qpskCtc1Over2(13),
reserved14(14), qpskCtc3Over4(15),
sixteenQamCtc1Over2(16), sixteenQamCtc3Over4(17),
sixtyFourQamCtc1Over2(18), sixtyFourQamCtc2Over3(19),
sixtyFourQamCtc3Over4(20), sixtyFourQamCtc5Over6(21),
qpskZtCc1Over2(22), qpskZtCc3Over4(23),
sixteenQamZtCc1Over2(24), sixteenQamZtCc3Over4(25),
sixtyFourQamZtCc1Over2(26),
sixtyFourQamZtCc2Over3(27),
sixtyFourQamZtCc3Over4(28), qpskLdpc1over2(29),
qpskLdpc2over3A(30), qpskLdpc3over4A(31),
sixteenQamLdpc1over2(32), sixteenQamLdpc2over3A(33),
sixteenQamLdpc3over4A(34), sixtyFourQamLdpc1over2(35),
sixtyFourQamLdpc2over3A(36),
sixtyFourQamLdpc3over4A(37), qpskLdpc2over3B(38),
qpskLdpc3over4B(39), sixteenQamLdpc2over3B(40),
sixteenQamLdpc3over4B(41),
sixtyFourQamLdpc2over3B(42),
sixtyFourQamLdpc3over4B(43), qpskCcOptIntv1over2(44),
qpskCcOptIntv3over4(45),
sixteenQamCcOptIntv1over2(46),
sixteenQamCcOptIntv3over4(47),
sixtyFourQamCcOptIntv2over3(48),
sixtyFourQamCcOptIntv3over4(49), qpskLdpc5over6(50),
sixteenQamLdpc5over6(51), sixtyFourQamLdpc5over6(52)
4.2.8 bs-ss-action
The bs-ss-action group define the commands that monitors or updates the actions
specified for SS. The user upon entering the bs-ss-action command locks into the CLI to
execute commands only related to BS private mib.
FullMAX#
FullMAX#bs-ss-action
FullMAX(bs-ss-action)#
Command Purpose Privileges
FullMAX#bs-ss-action The command allows the user to lock into A/O
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the group bs-ss-action and execute all the
commands related to the group.
Reset action performed on SS.
Command Purpose Privileges
FullMAX(bs-ss-action)#set
reset-ss <mac-address>
The command allows the user to
perform reset action on SS
A
Example:
FullMAX(bs-ss-action)# set reset-ss 1 0A1234:5678AB
Reset-ss message sent to 0A1234:5678AB
Abort action performed on SS.
Command Purpose Privileges
FullMAX(bs-ss-action)#set
abort-ss <abort-op> <mac-
address> [-d:dl-freq] [-
u:up-id]
The command allows the user
to perform the abort action on
SS
A/O
FullMAX(bs-ss-action)# set abort-ss 1 <mac-address>
abort-ss message sent to <mac-address>
FullMAX(bs-ss-action)# set abort-ss 2 0A1234:5678AB
-d:210000
abort-ss message with downlink frequency override
210000 KHz sent to 0A1234:5678AB
De-registration action on SS
Command Purpose Privileges
FullMAX(bs-ss-action)#
set abort-ss <abort-
op> <mac-address> [-
d:dl-freq] [-u:up-id]
The command allows the user to perform
the abort action on SS
A/O
FullMAX(bs-ss-action)# set de-reg-ss 0A1234:5678AB 2 De-
reg-ss message sent to 0A1234:5678AB with limited
transmission code (2)
FullMAX(bs-ss-action)# set de-reg-ss 0A1234:5678AB 1
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De-reg-ss message sent to 0A1234:5678AB with no
transmission code (1)
4.2.9 ss-registered
The ss-registered group defines the commands that monitors or updates the standard mib
related information. The user upon entering the ss-registered command locks into the CLI
to execute commands only related to SS registered table mib.
FullMAX#
FullMAX# ss-registered
FullMAX ss-registered)#
Command Purpose Privileges
FullMAX# ss-registered The command allows the user to lock
into the group ss-registered and execute
all the commands related to the group.
A/O
The MAC address of SS is received in the RNG-REQ message when SS registers ,this
MAC address is entered in to the Bs Registered Ss Table.
Command Purpose Privileges
FullMAX(ss-
registered)# show
registered-ss-mac-
address
The command allows the user
display all the SS MAC addresses.
A/O
Example:
FullMAX(ss-registered)# show registered-ss-mac-address
Registered SS MAC Addresses are:
registered-ss-mac-address 1 001BFE:01020A
registered-ss-mac-address 2 001BAA:01030F
registered-ss-mac-address 3 001BEF:01F01A
SS’s Maximum available power for QPSK in dBm. This parameter is only applicable to
systems supporting the SCa, OFDM or OFDMA PHY.
Command Purpose Privileges
FullMAX(ss-registered)#
show max-tx-power-qpsk
<Key>
The command allows the user
display SS’s Maximum available
power for QPSK in dBm. Here key
is SS’s MAC address.
A/O
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Example:
FullMAX(ss-registered)# show max-tx-power-qpsk
001BFE:01020A
max-tx-power-qpsk 27 dBm
SS’s Maximum available power for 16-QAM constellations in dBm. This parameter is
only applicable to systems supporting the SCa, OFDM or OFDMA PHY.
Command Purpose Privileges
FullMAX(ss-
registered)# show max-
tx-power-16qam <key>
The command allows the user
display SS’s Maximum available
power for 16QAM in dBm. Here
key is SS’s MAC address.
A/O
Example:
FullMAX(ss-registered)# show max-tx-power-16qam
001BAA:01030F
max-tx-power-16qam 20 dBm
SS’s Maximum available power for 64-QAM constellations in dBm. This parameter is
only applicable to systems supporting the SCa, OFDM or OFDMA PHY.
Command Purpose Privileges
FullMAX(ss-
registered)# show max-
tx-power-64qam <key>
The command allows the user
display SS’s Maximum available
power for 64QAM in dBm. Here
key is SS’s MAC address.
A/O
Example:
FullMAX(ss-registered)# show max-tx-power-64qam
001BEF:01F01A
max-tx-power-64qam 25 dBm
4.2.10 ss-ip
The bs-ss-ip group define the commands that monitors or updates the BsSsIp related
information. The user upon entering the ss-ip command locks into the CLI to execute
commands only related to BsSsIpTable defined in the private mib.
FullMAX#
FullMAX# ss-ip
FullMAX(ss-ip)#
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Command Purpose Privileges
FullMAX# ss-ip The command allows the user to lock into the
group ss-ip and execute all the commands
related to the group.
A/O
This table contains the IP configuration information of Subcriber station's as set by
DHCP Relay function in the Base Station.
Command Purpose Privileges
FullMAX(ss-ip)#show
ss-ip-table
The command allows the user display the
MS IP table.
A/O
Example:
FullMAX (bs-private) # show ss-ip-table 001BFE:01020A
ss-mac-address 001BFE:01020A
ss-ip-address 192.168.0.1
ss-subnet-mask 192.168.0.0
The MAC address of SS is received from the RNG-REQ message. When SS registers,
this MAC address is entered into the table, and used as the identifier to the SS.
Command Purpose Privileges
FullMAX (ss-ip) #
show ss-mac-address
The command allows the user
display the MS MAC address
of all MS.
A/O
Example:
FullMAX (ss-ip) # show ss-mac-address
ss-mac-addres 00A1B3:01AB03
ss-mac-addres 00A1B3:010203
ss-mac-addres 00A1B3:010405
The subnet mask address of SS as received from BS DHCP Relay. When SS Registers,
this IP address is entered into the table, and used as the identifier to the SS.
Command Purpose Privileges
FullMAX (ss-ip) #
show ss-ip-address
The command allows the user
display the IP address.
A/O
Example:
FullMAX(ss-ip)# show ss-ip-address 00A1B3:01AB03
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ss-ip-addres 192.168.0.1
The IP address of SS is received from the DHCP-Relay in the BS when SS register, this
IP address is entered into the table, and used as the identifier to the SS.
Command Purpose Privileges
FullMAX(ss-ip)#show
ss-ip-address
The command allows the user display the
subnet mask of all the MS.
A/O
Example:
FullMAX(ss-ip)# show ss-subnet-mask 00A1B3:01AB03
ss-subnet-mask 192.168.0.0
4.2.11 device
The device group define the commands that monitors or
updates the device related information in the private MIB.
The user upon entering the device command locks into the
CLI to execute commands only related to device.
FullMAX#
FullMAX# device
FullMAX(device)#
Command Purpose Privileges
FullMAX# device The command allows the user to lock into the
group device and execute all the commands
related to the group.
A/O
Type of device (BS/MS/SS).
Command Purpose Privileges
FullMAX(device)
# show type
The command allows the user display the
device type (BS/MS/SS)
A/O
Example:
FullMAX(device)# show type
type BS
The geographical position of the device ,
i.e. the real number describing the longitude and latitusde encoded as a printable string.
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Longitude - the precision is within the range -90..90 degrees.Positive numbers indicate
locations north of the equator.
Latitude - The precision is within the range -180..180 degrees.Positive numbers indicate
locations east of the prime meridian
Command Purpose Privileges
FullMAX(device)# set
gpos <val>
The command allows the user to update the
geographical position of the device
A
FullMAX(device)#
show gpos
The command allows the user display
geographical position of the device.
A/O
Example:
FullMAX(device)# set gpos 64.000 88.3400
updated gpos 64.000 88.3400
FullMAX(device) # show gpos
gpos 64.000 88.3400
The absolute time of last device boot up.
Command Purpose Privileges
FullMAX(device)#
show boot-time
The command allows the user display the
device boot up time.
A/O
Example:
FullMAX(device)# show boot-time
boot-time 230404:18052008
Setting this object to TRUE causes the device to write all configuration changes in
FLASH memory. On next boot the changes will be relevant. If this operation does not
occur, configuration changes will not be maintained through reset Reading this object
always returns FALSE
Command Purpose Privileges
FullMAX(device)# set
commit-save <val>
The command allows the user update
the commit-save to TRUE .
A
FullMAX(device)# show
commit-save
The command allows the user display
the commit-save
A/O
Example:
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FullMAX(device)# set commit-save TRUE
Updated commit-save TRUE
FullMAX(device)# show commit-save
commit-save FALSE
GPS card availability in the device.
Command Purpose Privileges
FullMAX(device)#sho
w gps-card
The command allows the user display
the availability of GPS card in the
device.
A/O
Example:
FullMAX(device)# show gps-card
gps-card YES
Hardware version of baseband processor card.
Command Purpose Privileges
FullMAX(device)#show
bpc-hw-version
The command allows the user display the
hardware version of baseband processor
card.
A/O
Example:
FullMAX(device)# show bpc-hw-version
bpc-hw-version 1.10
Hardware version of the Analog Front End (AFE)
Command Purpose Privileges
FullMAX(device)#show
afe-hw-ver
The command allows the user display the
hardware version of AFE.
A/O
Example:
FullMAX(device)# show afe-hw-ver
device-afe-hw-version 1.3
Software version of the Analog Front End (AFE)
Command Purpose Privileges
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FullMAX(device)#show
afe-sw-ver
The command allows the user display the
software version of AFE.
A/O
Example:
FullMAX(device)# show afe-sw-ver
device-afe-sw-version 1.3
Software version of the device general embedded software
Command Purpose Privileges
FullMAX(device)#show
build-sw-ver
The command allows the user display the
software version of the software build
A/O
Example:
FullMAX(device)# show build-sw-ver
build-sw-version
4.2.12 Measurements
The Measurement group defines the commands that monitors or updates the
measurement related information in the private MIB. The user upon entering the device
command locks into the CLI to execute commands only related to Measurement.
FullMAX#
FullMAX# measurement
FullMAX(measurement)#
Temperature degree in Celsius
Command Purpose Privileges
FullMAX(measurement)#show
temperature
The command allows the user
display temperature of the
device.
A/O
FullMAX(measurement)#track [-
rN] [-tN] temperature
The command allows the user to
display real time temperature
sample of the device.
A/O
Example:
FullMAX(measurement)# show temperature
Temperature 45 degrees-Celsius
FullMAX(measurement)# track –r3 –i2 temperature
Temperature 45 degrees-Celsius
Temperature 46 degrees-Celsius
Temperature 45 degrees-Celsius
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Voltage measurement
Command Purpose Privileges
FullMAX(measurement)#
show voltage
The command allows the user display
voltage of the device.
A/O
FullMAX(measurement)#
track [-rN] [-tN]
voltage
The command allows the user to display
multiple voltage samples of the device.
A/O
Example:
FullMAX (measurement) # show voltage
Voltage 3 volts
FullMAX (measurement) # track –r3 –i10 voltage
Voltage 3 volts
Voltage 3 volts
Voltage 3 volts
Current measurements
Command Purpose Privileges
FullMAX(measurement)#
show current
The command allows the user display
the current in the device.
A/O
FullMAX(measurement)#
track [-rN] [-tN]
current
The command allows the user to
display multiple current
measurements in the device.
A/O
Example:
FullMAX (measurement) # show current
Current 2 amp
FullMAX (measurement) # track –r4 current
Current 2 amp
Current 2 amp
Current 2 amp
Transmit power
Command Purpose Privileges
FullMAX(measurement
)# show tx-power
The command allows the user display
the transmit power.
A/O
FullMAX(measurement)# The command allows the user to display A/O
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track [-rN] [-tN] tx-
power
multple transmit power measurements.
Example:
FullMAX (measurement) # show tx-power
Tx-power 45 dBm
FullMAX (measurement) # track –r2 tx-power
Tx-power 45 dBm
Tx-power 43 dBm
Receive power
Command Purpose Privileges
FullMAX(measurement)#
show rx-power
The command allows the user display
the receive power.
A/O
FullMAX(measurement)#
track [-rN] [-tN] rx-
power
The command allows the user to display
multiple receive power measurements.
A/O
Example:
FullMAX(measurement)# show rx-power
rx-power 45 dBm
FullMAX(measurement)# track –r2 -i2 rx-power
rx-power 45 dBm
rx-power 45 dBm
Read the temperature from the Analog Front End.
Command Purpose Privileges
FullMAX(measurement)#
show afe-temperature
The command allows the user display
temperatue from Analog Front End.
A/O
FullMAX(measurement)#
track [-rN] [-tN]
afe-temperature
The command allows the user to track
the temperatue from Analog Front
End.
A/O
Example:
FullMAX(measurement)# show afe-temperatue
afe-temperature 27 celcius
FullMAX(measurement)# track -r4 -i30 afe-temperatue
afe-temperature 27 celcius
afe-temperature 27 celcius
afe-temperature 27 celcius
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afe-temperature 27 celcius
Read the Receive Signal Strength Indicator (RSSI) from the Analog Front End.
Command Purpose Privileges
FullMAX(measurement)#show
afe-rssi
The command allows the user display
RSSI from Analog Front End.
A/O
FullMAX(measurement)#track
[-rN] [-tN] afe-rssi
The command allows the user to track
RSSI from Analog Front End.
A/O
Example:
FullMAX(measurement)# show afe-rssi
afe-rssi 80 dBm
FullMAX(measurement)# track -r3 -i30 afe-rssi
afe-rssi 80 dBm
afe-rssi 80 dBm
afe-rssi 80 dBm
4.2.13 pkm–config
–
The Pkm-Config group defines the commands that moniters or updates the Private Key
Management Version 2 Realated information in the Standard MIB .The user upon
entering the pkm-config command locks into this group to execute commands only
related to this group.
FullMAX#
FullMAX# pkm–config
FullMAX(pkm–config)
Command Purpose Privileges
FullMAX# pkm –config The command allows the user
to lock to pkm-config group
and display the pkm –config
prompt.
A/O
FullMAX# pkm–config
This table conatins the configuration of the pkm attributes that are needed to pkm
operation.
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Command Purpose Privileges
FullMAX(pkm–
config)# show pkm-
v2-config-table
The command allows the user display
all the Pkm V2 Config table parameter
values.
A/O
Example:
FullMAX(pkm–config)# show pkm-v2-config-table
pmk-pre-handshake-lifetime 10 second
pmk-lifetime 3600 seconds
sa-tek-challenge-timeout 10000 milliseconds
max-sa-tek-challenge 3
max-sa-tek-request 3
Defines the PkmPmkPrehandshakeLifetime.
Command Purpose Privileges
FullMAX(pkm–
config)#set pkm-pmk-
pre-handshake-
lifetime <val>
The command allows the user update
PkmPmkPrehandshakeLifetime.
A/O
FullMAX(pkm–config)#show
pkm-pmk-pre-handshake-
lifetime
The command allows the user to
display PkmPmkPrehandshakeLifetime
value
A/O
Example:
FullMAX(pkm–config)# set pkm-pmk-pre-handshake-lifetime
11
Updated pkm-pmk-pre-handshake-lifetime 11 second
FullMAX(pkm–config)# show pkm-pmk-pre-handshake-lifetime
pmk-pre-handshake-lifetime 10 second
Defines the PMK life time
Command Purpose Privileges
FullMAX(pkm–
config)#set pkm-pmk-
lifetime <val>
The command allows the user to
update pkm-pmk-lifetime value
A
FullMAX(pkm–config)#show
pkm-pmk-lifetime
The command allows the user
display pkm-pmk-lifetime.
A/O
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Example:
FullMAX(pkm–config) # set pkm-pmk-lifetime 3300
Updated pkm-pmk-lifetime 3300 seconds
FullMAX(pkm–config) # show pkm-pmk-lifetime 3600 seconds
pkm-pmk-lifetime 3300 seconds
This object defines the timeout value for SA-TEk challenge Retransmission.
Command Purpose Pri
vile
ges
FullMAX(pkm–
config)#set sa-
challenge-timeout
<val>
The command allows the user to update
sa-challenge-timeout.
A
FullMAX(pkm–config)#show
sa-challenge-timeout
The command allows the user display
sa-challenge-timeout.
A/O
Example:
FullMAX(pkm–config) # set sa-challenge-timeout 666
updated value of sa-tek-challenge-timeout 666
millisecond
FullMAX(pkm–config) # show sa-challenge-timeout
sa-tek-challenge-timeout 10000 milliseconds
This object defines the maximum number of SA-TEK-Challenge Transmissions
Command Purpose Privileges
FullMAX(pkm–
config)#set max-sa-
tek-challenge <val>
The command allows the user to update sa-
challenge-timeout.
A
FullMAX(pkm–config)#show
max-sa-tek-challange
The command allows the user display max-
sa-tek-challenge.
A/O
Example:
FullMAX(pkm–config)# set max-sa-tek-challange 2
updated value of max-sa-tek-challenge 2
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FullMAX(pkm–config)# show max-sa-tek-challange
max-sa-tek-challenge 3
This object defines the maximum number of SA-TEK -Request retransmission.
Command Purpose Privileges
FullMAX(pkm–
config)#set max-sa-
tek-request <val>
The command allows the user to update
max-sa-tek-request.
A
FullMAX(pkm–config)#show
max-sa-tek-request
The command allows the user to
display max-sa-tek-request.
A/O
Example:
FullMAX(pkm–config)# set max-sa-tek-request 2
updated value of max-sa-tek-request 2
FullMAX(pkm–config)# show max-sa-tek-request
max-sa-tek-request 3
The command allows the user to display all the parameters of the tables in this group.
Command Purpose Privileges
FullMAX(pkm–config)#show
all
The command allows the user to display
all the parameters values of the in this
group.
A/O
FullMAX(pkm–config) # show all
pmk-pre-handshake-lifetime 10 second
pmk-lifetime 3600 seconds
sa-tek-challenge-timeout 10000 milliseconds
max-sa-tek-challenge 3
max-sa-tek-request 3
4.2.14 bs-private
FullMAX#
FullMAX# bs-private
FullMAX(bs-private)#
Command Purpose Privileges
FullMAX#bs-private The command allows the user to lock
to bs-private group and display the bs-
A/O
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private prompt.
This table contains statistical information that can be used to characterize the adaptive
modulation and coding performance in the uplink.
Command Purpose Privileges
FullMAX(bs-private)# show
bs-rx-amc-count-table
<uiuc-index>
This command shows all the
parameters and their values for
AmcCountTable
A/O
Example:
FullMAX(bs-private)# show bs-rx-amc-count-table 1
bs-rx-octets for uiuc index 1 is 0
bs-rx-packets for uiuc index 1 is 0
bs-tx-erroredpackets for uiuc index 1 is 0
The Uplink Interval Usage Code indicates the uplink burst profile in the UCD message,
and is used along with ifIndex to identify an entry in the
wmanIf2BsOfdmaUcdBurstProfileTable.
Command Purpose Privileges
FullMAX(bs-private)#show
bs-rx-uiuc-index
Show all the Uplink Interval Usage
Code index available.A/O
A/O
Example:
FullMAX(bs-private)# show bs-rx-uiuc-index
uiuc indices are
bs-ul-uiuc-index: 1
bs-ul-uiuc-index: 2
bs-ul-uiuc-index: 3
bs-ul-uiuc-index: 4
bs-ul-uiuc-index: 5
bs-ul-uiuc-index: 6
bs-ul-uiuc-index: 7
bs-ul-uiuc-index: 8
bs-ul-uiuc-index: 9
bs-ul-uiuc-index: 10
This object counts the number of octets received in the uplink using the uplink burst
profile indexed by wmanPriBsRxUiucIndex.
Command Purpose Privileges
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FullMAX(bs-private)#show
bs-rx-octets <uiuc-index>
Show the no of octet received in the
uplink for the given index
A/O
Example:
FullMAX(bs-private)# show bs-rx-octets 1
bs-rx-octets for uiuc index 1 is 0
This object counts the number of packets received in the uplinkusing the uplink burst
profile indexed by UiucIndex
Command Purpose Privileges
FullMAX(bs-
private)#show bs-
rx-packets <uiuc-
index>
Shows the number of packets
received in the uplink for the
given index
A/O
Example:
FullMAX(bs-private)# show bs-rx-packets 1
bs-rx-packets for uiuc index 1 is 0
This object counts the number of errored packets received in the uplink using the uplink
burst profile indexed by UiucIndex.
Command Purpose Privileges
FullMAX(bs-
p
rivate)#show
bs-rx-erroredPackets
<uiuc-index>
Shows the number of errored packets
received in the uplink for the given index
A/O
Example:
FullMAX(bs-private)# show bs-rx-erroredPackets 1
bs-tx-errored packets for uiuc index 1 is 0
This table contains statistical information that can be used to characterize the adaptive
modulation and coding performance in the downlink.
Command Purpose Privileges
FullMAX(bs-private)#show
bs-tx-amc-count-table
<diuc-index>
Show all the parameters and their
values of the TxAmcCountTable
table for the given index
A/O
Example:
FullMAX(bs-private)# show bs-tx-amc-count-table 1
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bs-tx-octets for diuc index 1 is 0
bs-tx-packets for diuc index 1 is 0
The Downlink Interval Usage Code indicates the downlink burst profile in the DCD
message.
Command Purpose Privileges
FullMAX(bs-private)#show
bs-tx-diuc-index
Show all the available Downlink
Interval Usage indices.
A/O
Example:
FullMAX(bs-private)# show bs-tx-diuc-index
diuc indices are
bs-dl-diuc-index: 0
bs-dl-diuc-index: 1
bs-dl-diuc-index: 2
bs-dl-diuc-index: 3
bs-dl-diuc-index: 4
bs-dl-diuc-index: 5
bs-dl-diuc-index: 6
bs-dl-diuc-index: 7
bs-dl-diuc-index: 8
bs-dl-diuc-index: 9
bs-dl-diuc-index: 10
bs-dl-diuc-index: 11
bs-dl-diuc-index: 12
This object counts the number of octets transmitted in the downlink using the downlink
burst profile indexed by DiucIndex.
Command Purpose Privileges
FullMAX(bs-private)# show
bs-tx-octets <diuc-index>
Shows the number of octets
transmitted in the downlink for the
given index
A/O
Example:
FullMAX(bs-private)# show bs-tx-octets 1
bs-tx-octets for diuc index 1 is 0
This object counts the number of packets transmitted in the downlink using the downlink
burst profile indexed by Diuc Index.
Command Purpose Privileges
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FullMAX(bs-rivate)#show
bs-tx-packets <diuc-index>
Shows the number of packets
transmitted in the downlink for the
given index
A/O
Example:
FullMAX(bs-private)# show bs-tx-packets 1
bs-tx-packets for diuc index 1 is 0
This Table measures service flow traffic .
Command Purpose Privileges
FullMAX(bs-private)#show
cmn-sf-table <sfid>
This command show all the
parameters and their values of Cmn-
sf-table.
A/O
Example:
FullMAX(bs-private)# show cmn-sf-table 2001
sf-total-octets for sfid 2001 is 100
sf-total-pkts for sfid 2001 is 2
sf-errored-pkts for sfid 2001 is 1
sf-frag-orig for sfid 2001 is 1
sf-frag-total for sfid 2001 is 2
sf-missing-frag for sfid 2001 is 0
This is a 32 bit quantity that uniquely identifies a service flow to both the subscriber
station and base station.
Command Purpose Privileges
FullMAX(bs-private)#show
cmn-pm-sfid <mac-ddress>
This command shows all the
avaliable Service Flow Id's
Avaliable for a particular MSID.
A/O
Example :
FullMAX(bs-private)# show cmn-pm-sfid 112233:445566
cmn-pm-sfid 2001
cmn-pm-sfid 2002
cmn-pm-sfid 2003
cmn-pm-sfid 2006
This determines the total octets received/transmitted on this service flow.
Command Purpose Privileges
FullMAX(bs-private)# show
sf-total-octets <sfid>
This command allows the user to
diplay the total octets received or
A/O
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transmitted for this service-flow.
Example:
FullMAX(bs-private)#show sf-total-octets 2001
sf-total-octets for sfid (2001) : 1000
This determines the total number of packets received /transmitted on this service flow.
Command Purpose Privileges
FullMAX(bs-private)#show
sf-total-pkts <sfid>
This Command allows the user to
display the total packets received or
trasmitted for this service-flow
A/O
Example:
FullMAX(bs-private)#show sf-total-pkts 2001
sf-total-pkts for sfid (2001): 22
This determines number of packets that were dropped due to missing fragments / bad
ARQ blocks.
Command Purpose Privileges
FullMAX(bs-private)#show
sf-errored-pkts <sfid>
This Command Allows the user to
display the total errored packets
received or transmitted for this
service flow.
A/O
Example:
FullMAX(bs-private)# show sf-errored-pkts 2001
sf-errored-pkts for sfid (2001): 1
This determines number of fragments / ARQ blocks originally transmitted/received on
this service flow.
Command Purpose Privileges
FullMAX(bs-private)#show
sf-frag-orig <sfid>
This Command allows the user to
display the total fragments
received or transmitted originally
on this service flow.
A/O
Example:
FullMAX(bs-private)#show sf-frag-orig 2001
sf-frag-orig for sfid (2001) : 2
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This determines total fragments / ARQ blocks transmitted / received on this service
flow.
Command Purpose Privileges
FullMAX(bs-private)#show
sf-frag-total <sfid>
This Command allows the user to
display the total fragments received
or transmitted on this service flow.
A/O
Example:
FullMAX(bs-private)# show sf-frag-total 2001
sf-frag-total for sfid (2001): 2
Description
This determines the number of missing received fragments received or NACK.
Command Purpose Privileges
FullMAX(bs-private)#
show sf-missing-frag
<sfid>
This command allows the user to
display the number of missing received
fragments or NACK.
A/O
Example:
FullMAX(bs-private)# show sf-missing-frag 2001
sf-missing-frag for sfid (2001): 1
4.2.15 trap-config
This Command allows the user to lock to trap config group.
Command Purpose Privileges
FullMAX # trap-
config
This command allows the user
to Locks to the trap config
group and displays the
coresponding group prompt.
A/O
Example:
FullMAX # trap-config
FullMAX(trap-config) #
The object is used to enable or disable Base Station traps From left to right, the set bit
indicates the corresponding Base Station trap is enabled
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{wmanIf2BsSsStatusNotification (0),
wmanIf2BsSsDynamicServiceFail (1),
wmanIf2BsSsRssiStatusChange (2),
wmanIf2BsSsRegister (3),
wmanIf2BsSsPkmFail (4),
wmanIf2BsPerformanceCounters (5)}
Command Purpose Privileges
FullMAX(trap-
config) # set
std-trap-ctrl
<val>
This command Allows the
user to update the value of std-
trap-ctrl parameter.
A
FullMAX(trap-config)
# show std-trap-ctrl
This command Allows the
user to display the value of
std-trap-ctrl parameter.
A/O
Example:
FullMAX(trap-config) # set std-trap-ctrl 25
updated bs-trap-control {wmanIf2BsSsStatusNotification(0),
wmanIf2BsSsRegister(3),
wmanIf2BsPerformanceCounters (4)
}
FullMAX(bs-private)# show std-trap-ctrl
bs-trap-control enabled are {
wmanIf2BsSsStatusNotification(0),
wmanIf2BsSsRegister(3),
wmanIf2BsPerformanceCounters
(4) }
The object is used to enable or disable Base Station status notification traps.
The set bit indicates the corresponding Base Station trap is enabled.
{ unused(0), ssInitRangingSucc(1), ssInitRangingFail(2), ssRegistered(3),
ssRegistrationFail(4), ssDeregistered(5), ssBasicCapabilitySucc(6),
ssBasicCapabilityFail(7), ssAuthorizationSucc(8), ssAuthorizationFail(9),
tftpSucc(10), tftpFail(11), sfCreationSucc(12), sfCreationFail(13) }
Command Purpose Privileges
FullMAX(trap-
config) # set
std-trap-
status-ctrl
This command Allows the
user to update the value of std-
trap-status-ctrl parameter.
A
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<val>
FullMAX(trap-config)
# show std-trap-
status-ctrl
This command Allows the
user to display the value of
std-trap-status-ctrl parameter.
A/O
FullMAX(bs-private)# set std-trap-status-ctrl 10900
updated bs-trap-status-ctrl
{ssInitRangingFail(2),
ssRegistrationFail(4),
ssBasicCapabilityFail(7),ssAuthorizationFail(9),
tftpFail(11), sfCreationFail(13) }
FullMAX(bs-private)# show std-trap-status-ctrl
bs-trap-status-ctrl enabled are
{ssInitRangingFail(2),
ssRegistrationFail(4),
ssBasicCapabilityFail(7),ssAuthorizationFail(9),
tftpFail(11), sfCreationFail(13) }
The object is used to enable or disable Base Station traps From left to right, the set bit
indicates the corresponding Base Station trap is enabled.
{ wmanPriPowerStatusChange (0), wmanPriFanStatusChange (1),
wmanPriTemperatureChange (2), wmanPriConfigChange (3),
wmanPriAfeBitError (4) }
Command Purpose Privileges
FullMAX(trap-
config) # set
private-trap-
ctrl <val>
This command Allows the
user to update the value of
private-trap-ctrl parameter.
A
FullMAX(trap-config)
# show private-trap-
ctrl
This command Allows the
user to display the value of
private-trap-ctrl parameter.
A/O
FullMAX(bs-private)# set private-trap-ctrl 21
updated private-trap-ctrl
{ wmanPriPowerStatusChange(0),
wmanPriPowerStatusChange(2),
wmanPriPowerStatusChange (4)}
FullMAX(bs-private)# show private-trap-ctrl
private-trap-ctl enabled
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{ wmanPriPowerStatusChange(0),
wmanPriPowerStatusChange(2),
wmanPriPowerStatusChange (4)}
4.2.16 lapc-config
This group contains commands to manipulate the Link Adaption and Power Control
configuration parameters for the Base Station MAC.
Command Purpose
FullMAX#lapc-config The command allows the user to lock to config group
and display the config prompt.
FULLMAX#lapc-config
FULLMAX(lapc-config)]#
Command Purpose
FullMAX(lapc-config)#
show uiuc
Shows the values of uiuc avaliable.
Example:
FULLMAX(lapc-config)#show uiuc
uiuc 1
uiuc 2
Command Purpose
FullMAX(lapc-config)#
set Uplink_FEC_Code_Type
<uiuc index> value
The command sets the value of
Uplink_FEC_Code_Type for the given index
FullMAX(lapc-config)#
show Uplink_FEC_Code_Type
<uiuc index>
The command show the value of
Uplink_FEC_Code_Type for the particunlar uiuc
index
Example:
FULLMAX(lapc-config)#set Uplink_FEC_Code_Type 1 333
Updated Uplink_FEC_Code_Type for uiuc index 1 is 333
FULLMAX(lapc-config)#show Uplink_FEC_Code_Type 1
Uplink_FEC_Code_Type for uiuc index 1 is 0
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Command Purpose
FullMAX(lapc-config)#
set Ranging_Data_Ratio
<uiuc index>
The command sets the value of Ranging_Data_Ratio
for the given index.
FullMAX(lapc-config)#
show Ranging_Data_Ratio
<uiuc index>
The command shows the value of
Ranging_Data_Ratio for the given index.
Example:
FULLMAX(lapc-config)#set Ranging_Data_Ratio 1 22
Updated Ranging_Data_Ratio for uiuc index 1 is 22
FULLMAX(lapc-config)#show Ranging_Data_Ratio 1
Ranging_Data_Ratio for uiuc index 1 is 19
Command Purpose
FullMAX(lapc-config)#
set
Normalised_C_by_N_Mantis
sa <uiuc index>
The commnad sets the value of
N
ormalised_C_by_N_Mantissa for the given index
FullMAX(lapc-config)#
show
Normalised_C_by_N_Mantis
sa <uiuc index>
The commnad shows the value of
N
ormalised_C_by_N_Mantissa for the given index
Example:
FULLMAX(lapc-config)#set Normalised_C_by_N_Mantissa 1 77
Updated Normalised_C_by_N_Mantissa for uiuc index 1 is
77
FULLMAX(lapc-config)#show Normalised_C_by_N_Mantissa 1
Normalised_C_by_N_Mantissa for uiuc index 1 is 60
Command Purpose
FullMAX(lapc-config)#
set
Normalised_C_by_N_Expone
nt <uiuc index>
The command sets the value of
N
ormalised_C_by_N_Exponent for the given index
FullMAX(lapc-config)# The command shows the value of
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show
Normalised_C_by_N_Expone
nt <uiuc index>
N
ormalised_C_by_N_Exponent for the given index
Example:
FULLMAX(lapc-config)#set Normalised_C_by_N_Exponent 1 1
Updated Normalised_C_by_N_Exponent for index 1 is 1
FULLMAX(lapc-config)#show Normalised_C_by_N_Exponent 1
Normalised_C_by_N_Exponent for index 1 is -1
Command Purpose
FullMAX(lapc-config)#
set
FIR_filter_coefficient_ma
ntissa <index> value
The command sets the value of
FIR_filter_coefficient_mantissa for the given index
FullMAX(lapc-config)#
show
FIR_filter_coefficient_ma
ntissa <index>
The command shows the value of
FIR_filter_coefficient_mantissa for the given
index
Example:
FULLMAX(lapc-config)#set FIR_filter_coefficient_mantissa 1
65
Updated FIR_filter_coefficient_mantissa for index 1 is
65
FULLMAX(lapc-config)#show FIR_filter_coefficient_mantissa 1
FIR_filter_coefficient_mantissa for index 1 is 65
Command Purpose
FullMAX(lapc-config)#set
FIR_filter_coefficient_TenP
wr <index> <val>
The command sets the value of
FIR_filter_coefficient_TenPwr for the given index.
FullMAX(lapc-config)#show
FIR_filter_coefficient_TenP
wr <index>
The command shows the value of
FIR_filter_coefficient_TenPwr for the given index.
Example:
FULLMAX(lapc-config)#set FIR_filter_coefficient_TenPwr 1 3
Updated FIR_filter_coefficient_TenPwr for index 1 is 3
FULLMAX(lapc-config)#show FIR_filter_coefficient_TenPwr 1
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FIR_filter_coefficient_TenPwr for index 1 is 3
Description
Command Purpose
FullMAX(lapc-config)#set
Dl_Benchmark_Entry_Threshold_C
INR <dl_fec_code>
<dl_repetition> <val>
Sets the value of
Dl_Benchmark_Entry_Threshold_CINR for the
given fec code and repetition .
FullMAX(lapc-config)#show
Dl_Benchmark_Entry_Threshold_C
INR <dl_fec_code>
<dl_repetition>
Displays the value of
Dl_Benchmark_Entry_Threshold_CINR for the
given fec code and repetition .
Example:
FULLMAX(lapc-config)#set Dl_Benchmark_Entry_Threshold_CINR
4 2 41e3
Updated Dl_Benchmark_Entry_Threshold_CINR for fec code
4
and repition 2 is 41e3
FULLMAX(lapc-config)#show Dl_Benchmark_Entry_Threshold_CINR
4 2
Dl_Benchmark_Entry_Threshold_CINR for fec code 4 and
repition 2 is 19e1
Description
Command Purpose
FullMAX(lapc-config)#set
Dl_Benchmark_Exit_Threshold_CI
NR <dl_fec_code>
<dl_repetition> <val>
Sets the value of
Dl_Benchmark_Exit_Threshold_CINR for the
given fec code and repetition .
FullMAX(lapc-config)#show
Dl_Benchmark_Exit_Threshold_CI
NR <dl_fec_code>
<dl_repetition>
Displays the value of
Dl_Benchmark_Exit_Threshold_CINR for the
given fec code and repetition .
Example:
FULLMAX(lapc-config)#set Dl_Benchmark_Exit_Threshold_CINR 4
2 41e3
Updated Dl_Benchmark_Exit_Threshold_CINR for fec code
4 and
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repition 2 is 41e3
FULLMAX(lapc-config)#show Dl_Benchmark_Exit_Threshold_CINR
4 2
Dl_Benchmark_Exit_Threshold_CINR for fec code 4 and
repition 2 is 19e1
Command Purpose
FullMAX(lapc-config)#set
Ul_Benchmark_Entry_Threshold_C
INR <dl_fec_code>
<dl_repetition> <val>
Sets the value of
Ul_Benchmark_Entry_Threshold_CINR for the
given fec code and repetition .
FullMAX(lapc-config)#show
Ul_Benchmark_Entry_Threshold_C
INR <dl_fec_code>
<dl_repetition>
Displays the value of
Ul_Benchmark_Entry_Threshold_CINR for the
given fec code and repetition .
FULLMAX(lapc-config)#set Ul_Benchmark_Entry_Threshold_CINR
4 2 41e3
Updated Ul_Benchmark_Entry_Threshold_CINR for fec code
4
and repition 2 is 41e3
FULLMAX(lapc-config)#show Ul_Benchmark_Entry_Threshold_CINR
4 2
Ul_Benchmark_Entry_Threshold_CINR for fec code 4 and
repition 2 is 19e1
Description
Command Purpose
FullMAX(lapc-config)#set
Ul_Benchmark_Exit_Threshold_CI
NR <ul_fec_code>
<ul_repetition> <val>
Sets the value of
Ul_Benchmark_Exit_Threshold_CINR for the
given fec code and repetition .
FullMAX(lapc-config)#show
Ul_Benchmark_Exit_Threshold_CI
NR <ul_fec_code>
<ul_repetition>
Displays the value of
Ul_Benchmark_Exit_Threshold_CINR for the
given fec code and repetition .
Example:
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FULLMAX(lapc-config)#set Dl_Benchmark_Exit_Threshold_CINR 4
2 41e3
Updated Dl_Benchmark_Exit_Threshold_CINR for fec code
4 and repition 2 is 41e3
FULLMAX(lapc-config)#show Dl_Benchmark_Exit_Threshold_CINR
4 2
Dl_Benchmark_Exit_Threshold_CINR for fec code 4 and
repition 2 is 19e1
Command Purpose
FullMAX(lapc-config)#set
Burst_Profile_evaluation_Timer
The command sets the value of
_
Profile_evaluation_Time
r
FullMAX(lapc-config)#show
Burst_Profile_evaluation_Timer
The command shows the value of
_
Profile_evaluation_Time
r
Example:
FULLMAX(lapc-config)#set Burst_Profile_evaluation_Timer 222
Updated Burst_Profile_evaluation_Timer: 250
FULLMAX(lapc-config)#show Burst_Profile_evaluation_Timer
Burst_Profile_evaluation_Timer: 250
Description
Command Purpose
FullMAX(lapc-config)# set
Mantissa_Lower_Thld_Rx_Power_Densi
ty <val>
Sets the value of
Mantissa_Lower_Thld_Rx_Power_Density
FullMAX(lapc-config)# show
Mantissa_Lower_Thld_Rx_Power_Densi
ty
Displays the value of
Mantissa_Lower_Thld_Rx_Power_Density.
Example:
FULLMAX(lapc-config)#set
Mantissa_Lower_Thld_Rx_Power_Density 22
Updated Mantissa_Lower_Thld_Rx_Power_Density -100
FULLMAX(lapc-config)#show
Mantissa_Lower_Thld_Rx_Power_Density
Mantissa_Lower_Thld_Rx_Power_Density -100
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Description
Command Purpose
FullMAX(lapc-config)#set
Mantissa_Higher_Thld_Rx_Power_Dens
ity
Sets the value of
Mantissa_Higher_Thld_Rx_Power_Density to the
given value.
FullMAX(lapc-config)#show
Mantissa_Higher_Thld_Rx_Power_Dens
ity
Display the value of
Mantissa_Higher_Thld_Rx_Power_Density
Example:
FULLMAX(lapc-config)#set
Mantissa_Higher_Thld_Rx_Power_Density 22
Updated Mantissa_Higher_Thld_Rx_Power_Density 22
FULLMAX(lapc-config)#show
Mantissa_Higher_Thld_Rx_Power_Density
Mantissa_Higher_Thld_Rx_Power_Density -60
Command Purpose
FullMAX(lapc-config)#set
Max_Length_Of_DLMAP_Mesg <value>
The command sets the value of
_
Length_Of_DLMAP_Mesg to the value give
n
FullMAX(lapc-config)#show
Max_Length_Of_DLMAP_Mesg
The command shows the value of
_
Length_Of_DLMAP_Mesg
Example:
FULLMAX(lapc-config)#set Max_Length_Of_DLMAP_Mesg 22
Updated Max_Length_Of_DLMAP_Mesg: 22
FULLMAX(lapc-config)#show Max_Length_Of_DLMAP_Mesg
Max_Length_Of_DLMAP_Mesg: 2
Command Purpose
FullMAX(lapc-config)# set
Max_Aggregate_Length_Of_Control_M
essages <value>
The command sets the value of
_
Aggregate_Length_Of_Control_Messages to the
given value.
FullMAX(lapc-config)# show
Max_Aggregate_Length_Of_Control_M
essages
The command shows the value of
_
Aggregate_Length_Of_Control_Messages.
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Example:
FULLMAX(lapc-config)#set
Max_Aggregate_Length_Of_Control_Messages 22
Updated Max_Aggregate_Length_Of_Control_Messages: 22
FULLMAX(lapc-config)#show
Max_Aggregate_Length_Of_Control_Messages
Max_Length_Of_DLMAP_Mesg: 48
Command Purpose
FullMAX(lapc-config)# set
Max_No_Of_Slots_Used_For_Future_Al
location_In_DL <value>
The command sets the value of
_
No_Of_Slots_Used_For_Future_Allocation_In_D
L to the given value.
FullMAX(lapc-config)# show
Max_No_Of_Slots_Used_For_Future_Al
location_In_DL
The command shows the value of
_
No_Of_Slots_Used_For_Future_Allocation_In_D
L.
Example:
[FULLMAX(lapc-config)]$set
Max_No_Of_Slots_Used_For_Future_Allocation_In_DL 33
Updated Max_No_Of_Slots_Used_For_Future_Allocation_In_DL:
33
[FULLMAX(lapc-config)]$show
Max_No_Of_Slots_Used_For_Future_Allocation_In_DL
Max_Aggregate_Length_Of_Control_Messages: 90
Command Purpose
FullMAX(lapc-config)# set
Max_No_Of_Slots_Used_For_Future_Al
location_In_UL <value>
The command sets the value of
_
No_Of_Slots_Used_For_Future_Allocation_In_U
L to the given value.
FullMAX(lapc-config)# show
Max_No_Of_Slots_Used_For_Future_Al
location_In_UL
The command shows the value of
_
No_Of_Slots_Used_For_Future_Allocation_In_U
L.
Example:
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FULLMAX(lapc-config)#set
Max_No_Of_Slots_Used_For_Future_Allocation_In_UL 44
Updated Max_No_Of_Slots_Used_For_Future_Allocation_In_DL:
44
FULLMAX(lapc-config)#show
Max_No_Of_Slots_Used_For_Future_Allocation_In_UL
Max_No_Of_Slots_Used_For_Future_Allocation_In_DL: 10
Command Purpose
FullMAX(lapc-config)#set
Max_No_Of_Slots_Can_Be_Used_For_C
DMA_Allocation_In_Single_UL_Frame
<value>
The command sets the value of
_
No_Of_Slots_Can_Be_Used_For_CDMA_Alloca
tion_In_Single_UL_Frame to the given value.
FullMAX(lapc-config)#show
Max_No_Of_Slots_Can_Be_Used_For_C
DMA_Allocation_In_Single_UL_Frame
The command shows the value of
_
No_Of_Slots_Can_Be_Used_For_CDMA_Alloca
tion_In_Single_UL_Frame.
Example:
FULLMAX(lapc-config)#set
Max_No_Of_Slots_Can_Be_Used_For_CDMA_Allocation_In_Single_U
L_Frame 22
Updated
Max_No_Of_Slots_Can_Be_Used_For_CDMA_Allocation_In_Single_U
L_Frame: 22
FULLMAX(lapc-config)#show
Max_No_Of_Slots_Can_Be_Used_For_CDMA_Allocation_In_Single_U
L_Frame
Max_No_Of_Slots_Used_For_Future_Allocation_In_DL: 10
Command Purpose
FullMAX(lapc-config)# set
No_Of_CDMA_Ranging_Slots <value>
The command sets the value of
_
Of_CDMA_Ranging_Slots to the given
value.
FullMAX(lapc-config)# show
No_Of_CDMA_Ranging_Slots
The command shows the value of
_
Of_CDMA_Ranging_Slots.
FULLMAX(lapc-config)#set No_Of_CDMA_Ranging_Slots 33
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Updated No_Of_CDMA_Ranging_Slots: 33
FULLMAX(lapc-config)#show No_Of_CDMA_Ranging_Slots
No_Of_CDMA_Ranging_Slots: 1
Command Purpose
FullMAX(lapc-config)# set
CDMA_Band_Width_Period <value>
The command sets the value of
CDMA_Band_Width_Period to the given value.
FullMAX(lapc-config)# show
CDMA_Band_Width_Period
The command shows the value of
CDMA_Band_Width_Period
FULLMAX(lapc-config)#set CDMA_Band_Width_Period 33
Updated CDMA_Band_Width_Period: 33
FULLMAX(lapc-config)#show CDMA_Band_Width_Period
CDMA_Band_Width_Period: 6
Command Purpose
FullMAX(lapc-config)# set
No_Of_CDMA_Band_Width_Slots
<value>
The command sets the value of
_
Of_CDMA_Band_Width_Slots to the given value
FullMAX(lapc-config)# show
No_Of_CDMA_Band_Width_Slots
The command shows the value of
_
Of_CDMA_Band_Width_Slots
Example:
FULLMAX(lapc-config)#set No_Of_CDMA_Band_Width_Slots 33
Updated No_Of_CDMA_Band_Width_Slots: 33
FULLMAX(lapc-config)#show No_Of_CDMA_Band_Width_Slots
No_Of_CDMA_Band_Width_Slots: 3
Command Purpose
FullMAX(lapc-config)# set
CDMA_Band_Width_Period <value>
The command sets the value of
_
Band_Width_Period to the given value.
FullMAX(lapc-config)# show
CDMA_Band_Width_Period
The command shows the value of
_
Band_Width_Period.
Example:
FULLMAX(lapc-config)#set CDMA_Band_Width_Period 33
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Updated CDMA_Band_Width_Period: 33
FULLMAX(lapc-config)#show CDMA_Band_Width_Period
CDMA_Band_Width_Period: 6
Command Purpose
FullMAX(lapc-config)# set
Max_Frame_Slots_Dl_Harq_Retransm
ission <value>
The command sets the value of
_
Frame_Slots_Dl_Harq_Retransmission to the
given value.
FullMAX(lapc-config)# show
Max_Frame_Slots_Dl_Harq_Retransm
ission
The command shows the value of
_
Frame_Slots_Dl_Harq_Retransmission.
Example:
FULLMAX(lapc-config)#set
Max_Frame_Slots_Dl_Harq_Retransmission 33
Updated Max_Frame_Slots_Dl_Harq_Retransmission 33
FULLMAX(lapc-config)#show
Max_Frame_Slots_Dl_Harq_Retransmission
Max_Frame_Slots_Dl_Harq_Retransmission: 20
Command Purpose
FullMAX(lapc-config)# set
Max_Frame_Slots_Ul_Harq_Retransm
ission <value>
The command sets the value of
Max_Frame_Slots_Ul_Harq_Retransmission to the
given value.
FullMAX(lapc-config)# show
Max_Frame_Slots_Ul_Harq_Retransm
ission
The command shows the value of
_
Frame_Slots_Ul_Harq_Retransmission.
Example:
FULLMAX(lapc-config)#set
Max_Frame_Slots_Ul_Harq_Retransmission 33
Update Max_Frame_Slots_Ul_Harq_Retransmission: 33
FULLMAX(lapc-config)#show
Max_Frame_Slots_Ul_Harq_Retransmission
Max_Frame_Slots_Ul_Harq_Retransmission: 20
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Command Purpose
FullMAX(lapc-config)# set
Max_Ul_Harq_Ack_slots <value>
The command sets the value of
Max_Ul_Harq_Ack_slots to the givan value.
FullMAX(lapc-config)# show
Max_Ul_Harq_Ack_slots
The command shows the value of
Max_Ul_Harq_Ack_slots
Example:
FULLMAX(lapc-config)#set Max_Ul_Harq_Ack_slots 24
Updated Max_Ul_Harq_Ack_slots: 24
FULLMAX(lapc-config)#show Max_Ul_Harq_Ack_slots
Max_Ul_Harq_Ack_slots: 2
Command Purpose
FullMAX(lapc-config)# set
Initial_Ranging_Backoff_Start
<value>
The command sets the value of
_
Ranging_Backoff_Start to the given value.
FullMAX(lapc-config)# show
Initial_Ranging_Backoff_Start
The command shows the value of
_
Ranging_Backoff_Start
Example:
FULLMAX(lapc-config)#set Initial_Ranging_Backoff_Start
55
Updated Initial_Ranging_Backoff_Start: 55
FULLMAX(lapc-config)#show Initial_Ranging_Backoff_Start
Initial_Ranging_Backoff_Start: 15
Command Purpose
FullMAX(lapc-config)# set
Initial_Ranging_Backoff_End
<value>
The command sets the value of
_
Ranging_Backoff_End to the given value.
FullMAX(lapc-config)# show
Initial_Ranging_Backoff_End
The command shows the value of
_
Ranging_Backoff_End.
FULLMAX(lapc-config)#set Initial_Ranging_Backoff_End 44
Updated Initial_Ranging_Backoff_End: 44
FULLMAX(lapc-config)#show Initial_Ranging_Backoff_End
Initial_Ranging_Backoff_End: 12
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Command Purpose
FullMAX(lapc-config)# set
Bandwidth_Request_Backoff_Start
<value>
The command sets the value of
_
Request_Backoff_Start to the given value.
FullMAX(lapc-config)# show
Bandwidth_Request_Backoff_Start
The command shows the value of
_
Request_Backoff_Start.
Example:
FULLMAX(lapc-config)#set Bandwidth_Request_Backoff_Start 44
Updated Bandwidth_Request_Backoff_Start: 44
FULLMAX(lapc-config)#show Bandwidth_Request_Backoff_Start
Bandwidth_Request_Backoff_Start: 3
Command Purpose
FullMAX(lapc-config)# set
Bandwidth_Request_Backoff_End
<value>
The command sets the value o
f
_
Request_Backoff_End to the given value.
FullMAX(lapc-config)# show
Bandwidth_Request_Backoff_End
The command shows the value o
f
_
Request_Backoff_End.
Example:
FULLMAX(lapc-config)#set Bandwidth_Request_Backoff_End 55
Updated Bandwidth_Request_Backoff_End: 55
FULLMAX(lapc-config)#show Bandwidth_Request_Backoff_End
Bandwidth_Request_Backoff_End: 2
Command Purpose
FullMAX(lapc-config)# set
Percentage_Of_Reserved_Symbols
<value>
The command sets the value of
_
Of_Reserved_Symbols to the given value.
FullMAX(lapc-config)# show
Percentage_Of_Reserved_Symbols
The command shows the value of
_
Of_Reserved_Symbols.
Example:
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FULLMAX(lapc-config)#set Percentage_Of_Reserved_Symbols 99
Updated Percentage_Of_Reserved_Symbols: 99
FULLMAX(lapc-config)#show Percentage_Of_Reserved_Symbols
Percentage_Of_Reserved_Symbols: 10
Command Purpose
FullMAX(lapc-config)# set
Percentags_Of_Head_Room_For_MAC
<value>
The command sets the value of
_
Of_Head_Room_For_MAC to the given
value.
FullMAX(lapc-config)# show
Percentags_Of_Head_Room_For_MAC
The command shows the value of
_
Of_Head_Room_For_MAC.
Example:
FULLMAX(lapc-config)#set Percentags_Of_Head_Room_For_MAC 88
Updated Percentags_Of_Head_Room_For_MAC: 88
FULLMAX(lapc-config)#show Percentags_Of_Head_Room_For_MAC
Percentags_Of_Head_Room_For_MAC: 10
4.3 FS4000 and MS4000 Operation
The FullMAX MS CLI supports the following commands. The access to this commands
are based on the user privileges. The Admin has the privilege to control and monitor all
the information supported by the FullMAX MS CLI commands, where as the operator
has limited privileges.
After the successful authentication, the user gets the access permission to the command
line interface. Based on the user privileges, the help menu will be displayed to the user.
4.3.1 Main Group
When user logs in to the CLI it will lock to the default group which is the main
group.When ever the user enters the Main group,CLI will display the main
prompt .Help command in main group will show the commands supported in
main group along with the group lock commands. Only commands related to
main group can be executed in main group.
FullMAX# main group
System IP address.
Command Purpose Privileges
FullMAX# set ip-address Updates the system IP A/O
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<ip-address> address.
FullMAX# show ip-
address
Displays the system IP
address.
A/O
Example:
FullMAX#set ip-address 10.60.4.42
Updated IP address: 10.60.4.42
FullMAX# show ip-address
IP address: 10.60.4.56
4.3.2 ss-config
The ms-config group define the commands that monitors or updates the configuration
information. The user upon entering the ms-config command locks into the CLI to
execute commands only related to MS configuration.
FullMAX#
FullMAX# ss-config
FullMAX(ss-config)#
Command Purpose Privileges
FullMAX# ss-config The command allows the user to lock
into the group ss-config and execute
all the commands related to the group.
A/O
The commands supported by the ss-config group are.
Time since last received DL-MAP message before downlink synchronization is
considered lost in ms.
Command Purpose Privileges
FullMAX(ss-config)# set
lost-dl-map-interval
<val>
The command allows the user to update
timer value since last received DL-
MAP message before downlink
synchronization is considered lost.
A
FullMAX(ss-config)# show
lost-dl-map-interval
The command allows the user to
display the timer value since last
received DL-MAP message before
downlink synchronization is considered
lost.
A/O
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Example:
FullMAX(ss-config) # set lost-dl-map-interval 300
Updated lost-dl-map-interval 300 milliseconds
FullMAX (ss-config) # show lost-dl-map-interval
lost-dl-map-interval 300 milliseconds
Time since last received UL-MAP message before downlink synchronization is
considered lost in ms.
Command Purpose Privileges
FullMAX(ss-config)# set
lost-ul-map-interval
<val>
The command allows the user to update
timer value since last received UL-MAP
message before downlink
synchronization is considered lost.
A
FullMAX(ss-config)# show
lost-ul-map-interval
The command allows the user to display
the timer value since last received UL-
MAP message before downlink
synchronization is considered lost.
A/O
Example:
FullMAX(ss-config)# set lost-ul-map-interval 300
Updated lost-ul-map-interval 300 milliseconds
FullMAX(ss-config)# show lost-ul-map-interval
lost-ul-map-interval 300 milliseconds
Number of retries on contention ranging requests.
Command Purpose Privileges
FullMAX(ss-config)# set
contention-rng-retries
<val>
The command allows the user to update
the contention ranging retries parameter.
A
FullMAX(ss-config)#show
contention-rng-retries
The command allows the user to display
the contention ranging retries parameter.
A/O
Example:
FullMAX(ss-config)# set contention-rng-retries 20
Updated contention-rng-retries 20
FullMAX(ss-config)# show contention-rng-retries
contention-rng-retries 20
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Number of retries on bandwidth allocation request.
Command Purpose Privileges
FullMAX(ss-config)# set
request-retries <val> The command allows the user
to update the number of retries
on bandwidth allocation
request.
A
FullMAX(ss-config)# show
request-retries
The command allows the user to
display the number of retries on
bandwidth allocation request.
A/O
Example:
FullMAX(ss-config)# set request-retries 88
Updated request-retries 88
FullMAX(ss-config)# show request-retries
request-retries 88
Number of retries on registration request.
Command Purpose Privileges
FullMAX(ss-config)# set
reg-requset-retries <val>
The command allows the user to
update the number of retries on
registration request.
A
FullMAX(ss-config)# show
reg-requset-retries
The command allows the user to
display the number of retries on
registration request.
A/O
Example:
FullMAX(ss-config)# set reg-requset-retries 8
Updated reg-requset-retries 8
FullMAX(ss-config)# show reg-requset-retries
reg-requset-retries 8
Wait for DCD timeout in milliseconds.
Command Purpose Privileges
FullMAX(ss-config)# set
t1-timeout <val>
The command allows the user to
update the DCD timeout parameter.
A
FullMAX(ss-config)# show
t1-timeout
The command allows the user to
display the DCD timeout parameter.
A/O
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Example:
FullMAX(ss-config)# set t1-timeout 9000
Updated t1-timeout 9000 milliseconds.
FullMAX(ss-config)# show t1-timeout
t1-timeout 9000 milliseconds.
Wait for broadcast ranging timeout in milliseconds.
Command Purpose Privileges
FullMAX(ss-config)# set
t2-timeout <val>
The command allows the user to update
the broadcast ranging timeout
parameter
A
FullMAX(ss-config)# show
t2-timeout
The command allows the user to
display the broadcast ranging timeout
parameter
A/O
Example:
FullMAX(ss-config) # set t2-timeout 8000
Updated t2-timeout 8000 milliseconds.
FullMAX(ss-config)# show t2-timeout
t2-timeout 8000 milliseconds.
Ranging response reception timeout following the transmission of Ranging Request in
milliseconds.
Command Purpose Privileges
FullMAX(ss-config)# set
t3-timeout <val>
The command allows the user to update
the ranging response timeout
parameter.
A
FullMAX(ss-config)# show
t3-timeout
The command allows the user to
display the ranging response timeout
parameter.
A/O
Example:
FullMAX(ss-config)# set t3-timeout 45
Updated t3-timeout 45 milliseconds.
FullMAX(ss-config)# show t3-timeout
T3-timeout 45 milliseconds.
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Wait for ranging opportunity or data grant. If pending until complete field was used
earlier by this SS, then the value of that field shall be added to this interval in second.
Command Purpose Privileges
FullMAX(ss-config)# set
t4-timeout <val>
The command allows the user to
update the wait for ranging
opportunity timeout parameter.
A
FullMAX(ss-config)# show
t4-timeout
The command allows the user to
display the wait for ranging
opportunity timeout parameter.
A/O
Example:
FullMAX(ss-config) # set t4-timeout 45
Updated t4-timeout 45 milliseconds.
FullMAX(ss-config)# show t4-timeout
T4-timeout 45 milliseconds.
Wait for Registration Response in milliseconds.
Command Purpose Privileges
FullMAX(ss-config)#set
t16-timeout <val>
The command allows the user to
update the Registration response wait
timer.
A
FullMAX (ss-config)#show
t16-timeout
The command allows the user to
display the Registration response wait
timer.
A/O
Example:
FullMAX(ss-config)#set t16-timeout 540
Updated t16-timeout 540 milliseconds.
FullMAX (ss-config) # show t16-timeout
T16-timeout 540 milliseconds.
Wait for UCD descriptor in milliseconds.
Command Purpose Privileges
FullMAX(ss-config)# set
t12-timeout <val>
The command allows the user to
update wait for UCD descriptor
timer.
A
FullMAX(ss-config)# show The command allows the user to A/O
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t12-timeout display the wait for UCD descriptor
timer.
Example:
FullMAX(ss-config) # set t12-timeout 12000
Updated t12-timeout 12000 milliseconds.
FullMAX (ss-config) # show t12-timeout
t12-timeout 12000 milliseconds.
Wait for SBC-RSP timeout in milliseconds.
Command Purpose Privileges
FullMAX(ss-config)# set
t18-timeout <val>
The command allows the user to
update wait for SBC-RSP timeout
parameter.
A
FullMAX(ss-config)# show
t18-timeout
The command allows the user to
display the wait for SBC-RSP
timeout parameter.
A/O
Example:
FullMAX(ss-config) # set t18-timeout 7000
Updated t18-timeout 7000 milliseconds.
FullMAX (ss-config) # show t18-timeout
t18-timeout 7000 milliseconds.
Time DL-channel remains unusable in ms.
Command Purpose Privileges
FullMAX(ss-config)#set
t19-timeout <val>
The command allows the user to
update time for DL-channel remains
unusable in ms..
A
FullMAX(ss-config)#show
t19-timeout
The command allows the user to
display the time for DL-channel
remains unusable in ms.
A/O
Example:
FullMAX(ss-config)# set t19-timeout 7000
Updated t19-timeout 7000 milliseconds.
FullMAX(ss-config)# show t19-timeout
t19-timeout 7000 milliseconds.
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Time SS searches for preambles on a given channel in milliseconds.
Command Purpose Privileges
FullMAX(ss-config)#set
t20-timeout <val>
The command allows the user to update
the time to search for preambles on a
given channel.
A
FullMAX(ss-config)#show
t20-timeout
The command allows the user to display
time to search for preambles on a given
channel.
A/O
Example:
FullMAX(ss-config) # set t20-timeout 600
Updated t20-timeout 600 milliseconds.
FullMAX (ss-config) # show t20-timeout
t20-timeout 600 milliseconds.
Time SS searches for DL-MAP on a given channel in milliseconds.
Command Purpose Privileges
FullMAX(ss-config)#set
t21-timeout <val>
The command allows the user to update
the time to search for DL-MAP on a
given channel.
A
FullMAX(ss-config)#show
t21-timeout
The command allows the user to display
time to search for DL-MAP on a given
channel.
A/O
Example:
FullMAX(ss-config)# set t21-timeout 1200
Updated t21-timeout 1200 milliseconds.
FullMAX(ss-config)# show t21-timeout
t21-timeout 1200 milliseconds.
4.3.3 device
The device group define the commands that monitors or updates the device related
information in the private MIB. The user upon entering the device command locks into
the CLI to execute commands only related to device.
FullMAX#
FullMAX# device
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FullMAX(device)#
Command Purpose Privileges
FullMAX#
The command allows the user to lock into the
group device and execute all the commands
related to the group.
A/O
Type of the device (BS / MS / SS).
Command Purpose Privileges
FullMAX(device)#show
type
The command allows the user display the
device type (BS/MS/SS)
A/O
Example:
FullMAX(device)# show type
type SS
The geographical position of the device ,
i.e. the real number describing the longitude and latitusde encoded as a printable string.
Longitude - the precision is within the range -90..90 degrees.Positive numbers indicate
locations north of the equator.
Latitude - The precision is within the range -180..180 degrees.Positive numbers indicate
locations east of the prime meridian
Command Purpose Privileges
FullMAX(device)#set
gpos <val>
The command allows the user to send the
command to the GPS avaliable on the
system.
A
FullMAX(device)#show
gpos
The command allows the user display
geographical position of the device.
A/O
Example:
FullMAX(device)# set gpos 64.000 88.3400
updated gpos 64.000 88.3400
FullMAX(device)# show gpos
gpos 64.000 88.3400
The absolute time of last device boot up.
Command Purpose Privileges
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FullMAX(device)# show
boot-
timeThe command allows the user
display the device boot up time.
A/O
Example:
FullMAX(device)# show boot-time
boot-time 230404:18052008
Setting this object to TRUE causes the device to write all configuration changes in
FLASH memory. On next boot the changes will be relevant. If this operation does not
occur, configuration changes will not be maintained through reset Reading this object
always returns FALSE
Command Purpose Privileges
FullMAX(device)#set
commit-save <val>
The command allows the user to set the
value to TRUE so as to save the
configuration changes in FLASH.
A
FullMAX(device)#show
commit-save
The command allows the user display the
device commit-save
A/O
Example:
FullMAX(device)# set commit-save
commit-save TRUE
FullMAX(device)# show commit-save
commit-save FALSE
GPS card availability in the device.
Command Purpose Privileges
FullMAX(device)#show
gps-card
The command allows the user display the
availability of GPS card in the device.
A/O
Example:
FullMAX(device)# show gps-card
gps-card YES
Hardware version of baseband processor card.
Command Purpose Privileges
FullMAX(device)#show
bpc-hw-version
The command allows the user display the
hardware version of baseband processor
card.
A/O
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Example:
FullMAX(device)# show bpc-hw-version
bpc-hw-version 1.10
Hardware version of the Analog Front End (AFE)
Command Purpose Privileges
FullMAX(device)#show
afe-hw-ver
The command allows the user display the
hardware version of AFE.
A/O
Example:
FullMAX(device)# show afe-hw-ver
device-afe-hw-version 1.3
Software version of the Analog Front End (AFE)
Command Purpose Privileges
FullMAX(device)#show
afe-sw-ver
The command allows the user display the
software version of AFE.
A/O
Example:
FullMAX(device)# show afe-sw-ver
device-afe-sw-version 1.3
Software version of the device general embedded software.
Command Purpose Privileges
FullMAX(device)#show
build-sw-ver
The command allows the user display the
software version of the software build
A/O
Example:
FullMAX(device)#show build-sw-ver
build-sw-version
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4.3.4 Measurements
The Measurement group define the commands that monitors or updates the measurement
related information in the private MIB. The user upon entering the device command
locks into the CLI to execute commands only related to Measurement.
FullMAX#
FullMAX# measurement
FullMAX(measurement)#
Command Purpose Privileges
FullMAX# measurement
The command allows the user to lock into
the group Measurement and execute all the
commands related to this group.
A/O
Temperature degree in Celsius
Command Purpose Privileges
FullMAX(measurement)#
show temperature
The command allows the user display
temperature of the device.
A/O
FullMAX(measurement)#
track [-rN][-iN]
temperature
The command allows the user to display
real time temperature sample of the device.
A/O
Example:
FullMAX(measurement)# show temperature
Temperature 45 degrees-Celsius
FullMAX(measurement)# track –r3 –i2 temperature
Temperature 45 degrees-Celsius
Temperature 46 degrees-Celsius
Temperature 45 degrees-Celsius
Voltage measurement
Command Purpose Privileges
FullMAX(measurement)# show
voltage
The command allows the user
display voltage of the device.
A/O
FullMAX(measurement)# track
[-rN][-iN] voltage
The command allows the user to
display multiple voltage samples of
the device.
A/O
Example:
FullMAX(measurement)# show voltage
Voltage 3 volts
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FullMAX(measurement)# track –r3 –i10 voltage
Voltage 3 volts
Voltage 3 volts
Voltage 3 volts
Current measurements
Command Purpose Privileges
FullMAX(measurement)#show
current
The command allows the user
display the current in the device.
A/O
FullMAX(measurement)#track
[-rN][-iN] current.
The command allows the user to
display multiple current
measurements in the device
A/O
Example:
FullMAX(measurement)# show current
Current 2 amp
FullMAX(measurement)# track –r4 current
Current 2 amp
Current 2 amp
Current 2 amp
Transmit power
Command Purpose Privileges
FullMAX(measurement)#show
tx-power
The command allows the user
display the transmit power.
A/O
FullMAX(measurement #track
[-rN][-iN] tx-power
The command allows the user to
display multple transmit power
measurements.
A/O
Example:
FullMAX(measurement)# show tx-power
Tx-power 45 dBm
FullMAX(measurement)# track –r2 tx-power
Tx-power 45 dBm
Tx-power 43 dBm
Receive power
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Command Purpose Privileges
FullMAX(measurement)#show
rx-power
The command allows the user
display the receive power.
A/O
FullMAX(measurement)#track
[-rN][-iN] rx-power
The command allows the user to
display multiple receive power
measurements.
A/O
Example:
FullMAX(measurement)# show rx-power
rx-power 45 dBm
FullMAX(measurement)# track –r2 -i2 rx-power
rx-power 45 dBm
rx-power 45 dBm
Read the temperature from the Analog Front End.
Command Purpose Privileges
FullMAX(measurement)#show
afe-temperature
The command allows the user
display temperatue from Analog
Front End.
A/O.
FullMAX(measurement)#track
[-rN][-iN] afe-temperature
The command allows the user to
display multiple temperatue
measurements from Analog Front
End
A/O
Example:
FullMAX(measurement)# show afe-temperatue
afe-temperature 27 celcius
FullMAX(measurement)# track -r4 -i30 afe-temperatue
afe-temperature 27 celcius
afe-temperature 27 celcius
afe-temperature 27 celcius
afe-temperature 27 celcius
Read the Receive Signal Strength Indicator (RSSI) from the Analog Front End.
Command Purpose Privileges
FullMAX(measurement)#show
afe-rssi
The command allows the user display
RSSI from Analog Front End.
A/O
FullMAX(measurement)#track
[-rN][-iN] afe-rssi
The command allows the user to
display multiple RSSI measurements
from Analog Front End .
A/O
Example:
FullMAX(measurement)# show afe-rssi
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afe-rssi 80 dBm
FullMAX(measurement)# track -r4 -i30 afe-rssi
afe-rssi 80 dBm
afe-rssi 80 dBm
afe-rssi 80 dBm
afe-rssi 80 dBm
4.3.5 ss-private
The bs-private group define the commands that monitors or updates the private mib
related information. The user upon entering the ss-private command locks into the CLI to
execute commands only related to BS private mib.
FullMAX#
FullMAX# ss-private
FullMAX(ss-private)#
Command Purpose Privileges
FullMAX# ss-private The command allows the user to lock into
the group ss-private and execute all the
commands related to the group.
A/O
This table contains statistical information that can be used to characterize the adaptive
modulation and coding performance in the uplink.
Command Purpose Privileges
FullMAX(ss-private)#show
ss-rx-amc-count-table
<diuc-index>
This command shows all the
parameters and their values for
RxAmcCountTable..
A/O
Example:
FullMAX(ss-private)# show ss-rx-amc-count-table 1
ss-rx-octets for diuc-index 1 is 0
ss-rx-packets for diuc-index 1 is 0
ss-tx-erroredpackets for diuc-index 1 is 0
The Downlink Interval Usage Code indicates the uplink burst profile in the UCD
message.
Command Purpose Privileges
FullMAX(ss-private)# show
ss-rx-diuc-index
This command allows the users to
display the avaliable diuc-index
A/O
Example:
FullMAX(ss-private)# show ss-rx-diuc-index
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ss-ul-diuc-index: 1
ss-ul-diuc-index: 2
ss-ul-diuc-index: 3
ss-ul-diuc-index: 4
ss-ul-diuc-index: 5
ss-ul-diuc-index: 6
ss-ul-diuc-index: 7
ss-ul-diuc-index: 8
ss-ul-diuc-index: 9
ss-ul-diuc-index: 10
This object counts the number of octets received in the downlink using the downlink
burst profile indexed by diuc-index.
Command Purpose Privileges
FullMAX(ss-private)#show
ss-rx-octets
<diuc-index>
This command allows the user to
display the number of octets
received in DL burst profile indexed
by diuc-index.
A/O
Example:
FullMAX(ss-private)# show ss-rx-octets 1
ss-rx-octets for diuc-index 1 is 0
This object counts the number of packets received in the downlink using the downlink
burst profile indexed by
Command Purpose Privileges
FullMAX(ss-private)#show
ss-rx-packets
<diuc-index>
This Command allows the user to display
the number of packets received in DL
burst profile indexed by diuc-index
A/O
Example:
FullMAX(ss-private)#show ss-rx-packets 1
ss-rx-packets for diuc-index 1 is 0
Command Purpose Privileges
FullMAX(ss-private)#show
ss-rx-erroredPackets
<diuc-index>
This command allows the use rto
display the number of errored
packets indexed by diuc-index
A/O
Example:
FullMAX(ss-private)# show ss-rx-erroredPackets 1
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ss-tx-errored packets for uiuc index 1 is 0
This table contains statistical information that can be used to characterize the adaptive
modulation and coding performance in the downlink.
Command Purpose Privileges
FullMAX(ss-private)#show
ss-tx-amc-count-table
<uiuc-index>
This command allows the user to
display the parametes and values of
the TxAmcCount Table.
A/O
Example:
FullMAX(ss-private)# show ss-tx-amc-count-table 1
ss-tx-octets for uiuc-index 1 is 0
ss-tx-packets for uiuc-index 1 is 0
The Uplink Interval Usage Code indicates the uplink burst profile in the UCD message.
Command Purpose Privileges
FullMAX(ss-private)# show
ss-tx-uiuc-index
This command allows the user to
display avaliable uiuc- indices
A/O
Example:
FullMAX(ss-private)# show ss-tx-uiuc-index
ss-dl-uiuc-index: 0
ss-dl-uiuc-index: 1
ss-dl-uiuc-index: 2
ss-dl-uiuc-index: 3
ss-dl-uiuc-index: 4
ss-dl-uiuc-index: 5
ss-dl-uiuc-index: 6
ss-dl-uiuc-index: 7
ss-dl-uiuc-index: 8
ss-dl-uiuc-index: 9
ss-dl-uiuc-index: 10
ss-dl-uiuc-index: 11
ss-dl-uiuc-index: 12
This object counts the number of octets transmitted in the uplink using the uplink burst
profile indexed by uiuc-index
Command Purpose Privileges
FullMAX(ss-private)#show
ss-tx-octets <uiuc-index>
This command allows the user to
display the Octets indexed by
A/O
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uiuc-index.
Example:
FullMAX(ss-private)# show ss-tx-octets 1
ss-tx-octets for uiuc-index 1 is 0
This object counts the number of packets transmitted in the uplink using the uplink burst
profile indexed by uiuc-index .
Command Purpose Privileges
FullMAX(ss-private)#show
ss-tx-packets <diuc-index>
This command allows the user to
display the packets in UL burst
indexed by uiuc-index
A/O
Example:
FullMAX(ss-private)# show ss-tx-packets 1
ss-tx-packets for uiuc-index 1 is 0
This Table measures service flow traffic
Command Purpose Privileges
FullMAX(ss-private)# show
cmn-sf-table <sfid>
This command allows the user to
display the parameters and values
for cmn-sf-table for this SFID
A/O
Example:
FullMAX(ss-private)#show cmn-sf-table 2001
sf-total-octets for sfid 2001 is 0
sf-total-pkts for sfid 2001 is 0
sf-errored-pkts for sfid 2001 is 0
sf-frag-orig for sfid 2001 is 0
sf-frag-total for sfid 2001 is 0
sf-missing-frag for sfid 2001 is 0
Command Purpose Privileges
FullMAX(ss-private)#show
cmn-pm-sfid
This command allows the user to
display the avlaibale SFID.
A/O
Example:
FullMAX(ss-private)# show cmn-pm-sfid
cmn-pm-sfid 2001
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cmn-pm-sfid 2002
cmn-pm-sfid 3000
This determines the total octets received/transmitted on this service flow.
Command Purpose Privileges
FullMAX(ss-private)#show
sf-total-octets <sfid>
This command allows the user to diplay
the total octets received or transmitted for
this service-flow.
A/O
Example:
FullMAX(ss-private)# show sf-total-octets 2001
sf-total-octets for sfid (2001) : 1000
This determines the total number of packets received /transmitted on this service flow.
Command Purpose Privileges
FullMAX(ss-private)#show
sf-total-pkts <sfid>
This Command allows the user to
display the total packets received
or trasmitted for this service-flow
A/O
Example:
FullMAX(bs-private)#show sf-total-pkts 2001
sf-total-pkts for sfid (2001): 22
This determines number of packets that were dropped due to missing fragments / bad
ARQ blocks.
Command Purpose Privileges
FullMAX(ss-private)#show
sf-errored-pkts <sfid>
This Command Allows the user to
display the total errored packets
received or transmitted for this service
flow.
A/O
Example:
FullMAX(ss-private)# show sf-errored-pkts 2001
sf-errored-pkts for sfid (2001): 1
This determines number of fragments / ARQ blocks originally transmitted/received on
this service flow.
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Command Purpose Privileges
FullMAX(ss-private)#
show sf-frag-orig <sfid>
This Command allows the user to
display the total fragments received
or transmitted originally on this
service flow.
A/O
Example:
FullMAX(ss-private)# show sf-frag-orig 2001
sf-frag-orig for sfid (2001) : 2
This determines total fragments / ARQ blocks transmitted / received on this service
flow.
Command Purpose Privileges
FullMAX(ss-private)# show
sf-frag-total <sfid>
This Command allows the user to
display the total fragments
received or transmitted on this
service flow.
A/O
Example:
FullMAX(ss-private)# show sf-frag-total 2001
sf-frag-total for sfid (2001): 2
Description
This determines the number of missing received fragments received or NACK.
Command Purpose Privileges
FullMAX(ss-private)# show
sf-missing-frag <sfid>
This command allows the user to
display the number of missing
received fragments or NACK.
A/O
Example:
FullMAX(ss-private)# show sf-missing-frag 2001
sf-missing-frag for sfid (2001): 1
4.3.6 ss-chconfig
The ss-chconfig group define the commands that monitors or updates the channel config
MIB related information. The user upon entering(locking) the ss-chconfig group can
execute commands only related to ss-chconfig group.
FullMAX#
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FullMAX# ss-chconfig
FullMAX(ss-chconfig)#
Command Purpose Privileges
FullMAX#ss-chconfig
The command allows the user to lock into
the group ss-chconfig and execute all the
commands related to the group.
A/O
Each entry in the table contains optional channels configuration. A table can include a
single active channel configuration and some inactive channel configurations A MS
when searching for a new BS will scan the table for available channels.
Command Purpose Privileges
FullMAX(ss-chconfig)#show
ss-channel-config-table
<chn-index>
The command allows the user
display the channel configuration
based on index. A/O
A/O
Example:
FullMAX(ss-chconfig)# show channel-config-table 1
center-channel-frequency for chn-index 1 is 12000
Hz
center-bandwidth for chn-index 1 is 120 Hz
center-config-status for chn-index 1 is ACTIVE
Index in channel-config-table.
Command Purpose Privileges
FullMAX(ss-chconfig)# show
channel-config-index
The command allows the user display
all the channel configuration indices
A/O
Example:
FullMAX(ss-chconfig)# show channel-config-index
Channel-config-index 1
Channel-config-index 2
sets an optional center frequency for the transmitter and receiver Units are in Hz
Command Purpose Privileges
FullMAX(ss-chconfig)# show
center-channel-frequency
<chn-index>
The command allows the user display
center frequencies for the given
index.
A/O
Example:
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FullMAX(ss-chconfig)# show center-channel-frequency 1
center-channel-frequency for chn-index 1 16000 Hz
sets the bandwidth of the channel in the associated center frequency Units are in Hz.
Command Purpose Privileges
FullMAX(ss-chconfig)#show
center-bandwidth
<chn-index>
The command allows the user display
bandwidth for the given index.
A/O
Example:
FullMAX(ss-chconfig)# show center-bandwidth 2
center-bandwidth for chn-index 2 is 1600 Hz
The channel sampling clock
Command Purpose Privileges
FullMAX(ss-chconfig)#show
sampling-clock <chn-index>
The command allows the user display
sampling clock time for the given
index.
A/O
Example:
FullMAX(ss-chconfig)# show sampling-clock 2
sampling-clock for chn-index 2 is 16
The ID of the PHY filter to use for this channel.
Command Purpose Privileges
FullMAX(ss-chconfig)#show
filter-id <chn-index>
The command allows the user display
filter id for the given index.
A/O
Example:
FullMAX(ss-chconfig)# show filter-id 2
filter-id for chn-index 2 is 16
Indicates the current state of this entry
inactiveOption(0) - indicates that this entry is a scanning option that is not currently in
use.
currentActive(1) - indicates that this entry is the current channel channel configuration
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Command Purpose Privileges
FullMAX(ss-chconfig)#show
channel-config-status <chn-
index>
The command allows the user
display the current status for the
given index
A/O
Example:
FullMAX(ss-chconfig)# show channel-config-status 2
channel-config-status for chn-index 2 is ACTIVE
This determines the row status of the Channel config table for this config-index.
Command Purpose Privileges
FullMAX(ss-chconfig)#show
channel-row-status
The command allows the user
display the row status for the
given index
A/O
Example:
FullMAX(ss-chconfig)# show channel-row-status 2
channel-row-status for chn-index 2 is ACTIVE
4.3.7 ss-trap
The trap-ctrl-register group defines the commands that monitors or updates the trap mib
related information. The user upon entering the trap-ctrl-register command locks into the
CLI to execute commands only related to BS and MS trap control register mib.
FullMAX#
FullMAX# ss-trap
FullMAX (ss-trap) #
Command Purpose Privileges
FullMAX# ss-trap The command allows the user to lock into
the group ss-trap and execute all the
commands related to the group
A/O
Within this group we can get the following parameters.
SstrapControlRegister
PriTrapControlRegister.
The parameter is used to enable or disable the SS traps.
Command Purpose Privileges
FullMAX(ss-trap)# set ss-
trap-control-register <val>
(enable or disable)
The command allows the user to
enable or disable the SS traps
A
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FullMAX(ss-trap)#show ss-
trap-control-register
The command allows the user
display the enable or disable
status of the SS traps.
A/O
Example:
FullMAX(ss-trap)# set ss-trap-control-register 0
Updated ss-trap-control-register 0 (disable)
FullMAX(ss-trap)# show ss-trap-control-register
ss-trap-control-register 0 (disable)
Low Rssi threshold for generating the RSSI alarm trap.
Command Purpose Privileges
FullMAX(ss-trap)# set
rssi-low-threshold <val>
The command allows the user to
update the lower threshold for
generating RSSI alaram trap
A
FullMAX(ss-trap)#show
rssi-low-threshold
The command allows the user to
display the lower threshold for
generating RSSI alaram trap
A/O
Example:
FullMAX(ss-trap)# set rssi-low-threshold 34
Updated rssi-low-threshold 34 dBm
FullMAX(ss-trap)# show rssi-low-threshold
rssi-low-threshold 34 dBm
High Rssi threshold for generating the RSSI alarm trap.
Command Purpose Privileges
FullMAX(ss-trap)# set
rssi-high-threshold <val>
The command allows the user to update
the higher threshold for generating
RSSI alaram trap
A
FullMAX(ss-trap)# show
rssi-high-threshold
The command allows the user to
display the higher threshold for
generating RSSI alaram trap.
A/O
Example:
FullMAX(ss-trap)# set rssi-high-threshold 34
Updated rssi-high-threshold 54 dBm
FullMAX(ss-trap)# show rssi-high-threshold
rssi-high-threshold 54 dBm
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-trap-ctrl
The object is used to enable or disable Base Station traps From left to right, the set bit
indicates the corresponding Base Station trap is enabled.
{ wmanPriPowerStatusChange (0), wmanPriFanStatusChange (1),
wmanPriTemperatureChange (2), wmanPriConfigChange (3),
wmanPriAfeBitError (4) }
Command Purpose Privileges
FullMAX(ss-trap)#set
private-trap-ctrl <val>
This command allows the user to
display the value of the private trap
control
A
FullMAX(ss-trap)#show
private-trap-ctrl
This command allows the user to
display the value of the private trap
control
A/O
Example:
FullMAX(ss-trap)# set private-trap-ctrl 21
updated private-trap-ctrl
{ wmanPriPowerStatusChange(0),
wmanPriPowerStatusChange(2),
wmanPriPowerStatusChange(4)}
FullMAX(ss-trap)# show private-trap-ctrl
private-trap-ctl enabled
{ wmanPriPowerStatusChange(0),
wmanPriPowerStatusChange(2),
wmanPriPowerStatusChange (4)}