Chapter 4 - Operation and Administration Using the CLI Syntax Description Display Format (for each existing Neighbour BS in each of the existing BSs if requested for all) Command Modes Managing BSs Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display the Airframe Dynamic Permutation parameters of a specific BS.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu# show airframe-all bs [<(1 to 16777215 StepSize 1)> ] Privilege Level 10 Syntax Description Command Modes Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display all Airframe parameters of a specific BS.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu(config-bs-66053)# rateadapt-general [dl-basicrate {ctcQpskOneOverTwoTimesSix | ctcQpskOneOverTwoTimesFour | ctcQpskOneOverTwoTimesTwo | ctcQpskOneOverTwo | ctcQpskThreeOverFour | ctcQamSixteenOneOverTwo | ctcQamSixteenThreeOverFour | ctcQamSixtyFourOneOverTwo | ctcQamSixtyFourTwoOverThree | ctcQamSixtyFourThreeOverFour | ctcQamSixtyFourFiveOverSix}] [ul-basicrate {ctcQpskOneOverTwoTimesSix | ctcQpskOneOverTwoTimesFour | ctcQpskOneOver
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Managing BSs 10 Parameter Description Presence Default Value Possible Values dl-basicrate {ctcQpskOneOverTwo TimesSix | ctcQpskOneOverTwo TimesFour | ctcQpskOneOverTwo TimesTwo | ctcQpskOneOverTwo | ctcQpskThreeOverFo ur | ctcQamSixteenOneO verTwo | ctcQamSixteenThree OverFour | ctcQamSixtyFourOne OverTwo | ctcQamSixtyFourTwo OverThree | ctcQamSixtyFourThre eOverFour | ctcQamSixtyFourFive OverSix} The downli
Chapter 4 - Operation and Administration Using the CLI ul-basicrate {ctcQpskOneOverTwo TimesSix | ctcQpskOneOverTwo TimesFour | ctcQpskOneOverTwo TimesTwo | ctcQpskOneOverTwo | ctcQpskThreeOverFo ur | ctcQamSixteenOneO verTwo | ctcQamSixteenThree OverFour | ctcQamSixtyFourOne OverTwo | ctcQamSixtyFourTwo OverThree | ctcQamSixtyFourThre eOverFour | ctcQamSixtyFourFive OverSix} Managing BSs The uplink basic rate Optional ctcQpskO neOverTw o ctcQpskOneOverTw oTimesSix ctcQpskOneOverTw oTimesFour
Chapter 4 - Operation and Administration Using the CLI mincinr-qpsk-1by2-re p4 <(-20 to 30 StepSize 0.1)> Managing BSs The minimal CINR in dB Required to allow QPSK 1/2 Repetition 4 Uplink transmissions. Optional -20 -20 to 30 in steps of 0.1 Optional -20 -20 to 30 in steps of 0.1 Optional -20 -20 to 30 in steps of 0.1 Optional -20 -20 to 30 in steps of 0.1 Must be in the range from mincinr-qpsk-1by2rep6 to mincinr-qpsk-1by2rep2 mincinr-qpsk-1by2-re p2 <(-20 to 30 StepSize 0.
Chapter 4 - Operation and Administration Using the CLI mincinr-qam16-1by2 <(-20 to 30 StepSize 0.1)> Managing BSs The minimal CINR in dB Required to allow 16QAM 1/2 Uplink transmissions. Optional -20 -20 to 30 in steps of 0.1 Optional -20 -20 to 30 in steps of 0.1 Optional -20 -20 to 30 in steps of 0.1 Optional -20 -20 to 30 in steps of 0.
Chapter 4 - Operation and Administration Using the CLI mincinr-qam64-3by4 <(-20 to 30 StepSize 0.1)> Managing BSs The minimal CINR in dB Required to allow 64QAM 3/4 Uplink transmissions. Optional -20 -20 to 30 in steps of 0.1 Optional -20 -20 to 30 in steps of 0.1 Must be in the range from mincinr-qam64-2by 3 to mincinr-qam64-5by 6 mincinr-qam64-5by6 <(-20 to 30 StepSize 0.1)> The minimal CINR in dB Required to allow 64QAM 5/6 Uplink transmissions.
Chapter 4 - Operation and Administration Using the CLI Managing BSs This parameter will be restored to its default value, while the other parameters will remain unchanged. To restore all Rate Adaptation parameters to their default value, run the following command: npu(config-bs-66053)# no rateadapt-general NOTE Refer to Section 4.8.20.1 for a description and default values of these parameters.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu# show rateadapt-general bs [<(1 to 16777215 StepSize 1) Privilege Level 1 Syntax Description Display Format (for each existing BS if requested for all BSs) 4Motion Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display Rate Adaptation parameters of a specific BS.
Chapter 4 - Operation and Administration Using the CLI Command Modes Managing BSs Global command mode 4.8.21 Managing BS Bearer Interface Parameters After enabling the BS configuration mode, you can execute the following tasks: Configure one or more of the Bearer Interface parameters (refer to Section 4.8.21.1). Restore the default values of some or all of the Bearer Interface parameters (refer to Section 4.8.21.2).
Chapter 4 - Operation and Administration Using the CLI Command Modes Managing BSs [ip-subnetmask ] The IP subnet mask of the bearer interface of the BS Mandatory when creating a new BSl N/A Subnet mask [dflt-gw ] The IP address of the default gateway of the bearer interface of the BS Mandatory when creating a new BSl N/A IP address [mtu-size <(1500 to 9000 StepSize 1)> ] MTU size (in bytes) of the bearer interface of the BS Optional 1500 1500 - 9000 [linkusage-har
Chapter 4 - Operation and Administration Using the CLI Managing BSs NOTE Refer to Section 4.8.21.1 for a description and default values of these parameters. Command Syntax npu(config-bs-66053)# no bearer [mtu-size ] [linkusage-hardthrshld ] Privilege Level 10 Command Modes bs configuration mode 4.8.21.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes Managing BSs Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display Bearer Interface parameters of a specific BS. Do not specify a value for this parameter if you want to display Bearer Interface parameters of all BSs.
Chapter 4 - Operation and Administration Using the CLI 4.8.22.
Chapter 4 - Operation and Administration Using the CLI [activemsthrshld <(0 to 1024 StepSize 1)> ] Managing BSs Threshold for the number of MSs in active operation state (not Idle) served by the BS. Exceeding this threshold will set the alarm “Excessive MS number”. Optional 0 0 to 1024 Optional 0 0 to 100 Optional 0 0 to 120000 Optional 0 0 to 120000 A value of 0 means that the alarm is disabled.
Chapter 4 - Operation and Administration Using the CLI 4.8.22.2 Managing BSs Restoring the Default Values of Authentication Parametes To restore the default values of some or all of the Authentication parameters, run the following command: npu(config-bs-66053)# no auth-general [suspendedeapprocthrshld] [activemsthrshld] [maxeaproundsthrshld] [nonauth-macctrlratethrshld] [nonauth-pduratethrshld] You can restore only some parameters to their default values by specifying only those parameters.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu# show auth-general bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display information for a particular BS. For example, to display the Authentication parameters of BS 66053, run the following command: npu# show auth-general bs 66053 Do not specify this parameter if you want to view information for all existing BSs.
Chapter 4 - Operation and Administration Using the CLI Managing BSs 4.8.23 Managing Handover Control Parameters After enabling the BS configuration mode, you can execute the following tasks: Configure one or more of the Handover Control parameters (refer to Section 4.8.23.1). Restore the default values of some or all of the Handover Control parameters (refer to Section 4.8.23.2).
Chapter 4 - Operation and Administration Using the CLI enable-teksharing Managing BSs 2 hexadecimal digits that can be represented as 8 bits iIdentifying re-entry process management messages that may be omitted during the current HO attempt. The omission is due to the availability of MS service and operational context information and the MS service and operational status post-HO completion.
Chapter 4 - Operation and Administration Using the CLI 4.8.23.2 Managing BSs Restoring the Default Values of Handover Control Parametes To restore the default values of some or all of the Handover Control parameters, run the following command: npu(config-bs-66053)# no hoctrl [enable-teksharing] [rtxtimer] You can restore only one parameter to the default values by specifying only that parameter.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Specify the BS ID if you want to display information for a particular BS. For example, to display the Handover Control parameters of BS 66053, run the following command: npu# show hoctrl bs 66053 Do not specify this parameter if you want to view information for all existing BSs.
Chapter 4 - Operation and Administration Using the CLI Managing BSs In addition to the configurable parameters, the following status parameter is also displayed: Parameter Description Possible Values SchedulingServiceSupport Scheduling Service Support. A string of two hexadecimal digits that can be presented as 8 bits where bits 5-7 are always 0.
Chapter 4 - Operation and Administration Using the CLI 4.8.24.1 Managing BSs Enabling the Bearer Traffic QoS Marking Rule Configuration Mode\Creating a Bearer Traffic QoS Marking Rule To configure the parameters of a Bearer Traffic QoS Marking Rule, first enable the BS Bearer Traffic QoS Marking Rule configuration mode for the specific Bearer Traffic QoS Marking Rule. Run the following command to enable the BS Bearer Traffic QoS Marking Rule configuration mode.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu(config-bs-66053)# bearertrafficqos <(1 to 16383 StepSize 1)> Privilege Level 10 Syntax Description Command Modes Parameter Description Presence bearertraffi cqos <(1 to 16383 StepSize 1)> The Bearer Traffic QoS Marking Rule number Mandatory Default Value Possible Values 1 - 16383 BS configuration mode For example, to define Bearer Traffic QoS Marking Rule 1 for BS 66053, run the following command: npu(con
Chapter 4 - Operation and Administration Using the CLI Command Syntax Managing BSs npu(config-bs-66053-bearertrafficqos-1)# mrkngrule [rule-status {Enable | Disable} ] [rule-name ] [srvcflow-datadeliverytype {uGS | bE | eRTVR | any} ] [srvcflow-trafficpriority <(0 to 7 StepSize 1) | (255 to 255 StepSize 1)> ] [srvcflow-mediaflowtype ] [enable-srvcflow-mediaflowtype {TRUE | FALSE} ] [outerdscp <(0 to 63 StepSize 1)> ] [bp8021p <(0 to 7 StepSize 1)> ] Privilege Level Syntax De
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.8.24.3 Managing BSs TRUE enable-srvcflow-med iaflowtype {TRUE | FALSE} If TRUE, the srvcflow-mediaflowtype (see above) will be considered. when looking for a match. If FALSE it will not be considered. Mandatory when creating a new rule outerdscp <(0 to 63 StepSize 1)> DSCP value to be used for marking of outer IP header (IP/GRE). Optional 0 0 - 63 bp8021p <(0 to 7 StepSize 1)> 802.
Chapter 4 - Operation and Administration Using the CLI Command Syntax Managing BSs npu(config-bs-66053-bearertrafficqos-1)# no mrkngrule [rule-status ] [rule-name ] [srvcflow-datadeliverytype [srvcflow-trafficpriority ] [outerdscp ] [bp8021p ] Privilege Level 10 Command Modes bs bearer traffic qos marking rule configuration mode 4.8.24.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu(config-bs 66053)# no bearertrafficqos <(1 to 16383 StepSize 1)> Privilege Level 10 Syntax Description Command Modes 4.8.24.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Display Format (for each existing Service Mapping Rule if requested for all Service Mapping Rules) Command Modes 4Motion Managing BSs 1 Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 number <(1 to 16383 StepSize 1)> ] The Bearer Traffic QoS Marking Rule number.
Chapter 4 - Operation and Administration Using the CLI Managing BSs 4.8.25 Managing Control Traffic QoS Marking Rules To configure the Control Traffic QoS Marking Rules: 1 Enable the Control Traffic QoS Marking Rules configuration mode (refer to Section 4.8.25.1) 2 You can now execute any of the following tasks: » Configure one or more of the Control Traffic QoS Marking Rules parameters tables (refer to Section 4.8.25.
Chapter 4 - Operation and Administration Using the CLI Managing BSs After executing the above tasks, you can terminate the Control Traffic QoS Marking Rules configuration mode (refer to Section 4.8.25.4) and return to the BS configuration mode. Note that for properly completing the Control Traffic QoS Marking Rules configuration the apply command must be executed prior to exiting the Control Traffic QoS Marking Rules configuration mode.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu(config-bs-66053-ctrltrafficqos)# intmngmnt [dscp <(0 to 63 Privilege Level 10 Syntax Description Command Modes 4.8.25.2.2 StepSize 1)> ] [inter8021p <(0 to 7 StepSize 1)> ] Parameter Description Presence Default Value Possible Values dscp <(0 to 63 StepSize 1)> DSCP priority value to be used for marking of internal management traffic Optional 0 0 - 63 inter8021p <(0 to 7 StepSize 1)> 802.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.8.25.3 Managing BSs Parameter Description Presence Default Value Possible Values dscp <(0 to 63 StepSize 1)> DSCP priority value to be used for marking of intra-ASN (R8/R6) traffic Optional 0 0 - 63 intra8021p <(0 to 7 StepSize 1)> 802.
Chapter 4 - Operation and Administration Using the CLI Managing BSs NOTE Refer to Section 4.8.25.2.1 for a description and default values of these parameters. Command Syntax npu(config-bs-66053-ctrltrafficqos)# no intmngmnt [dscp ] Privilege Level 10 Command Modes bs control traffic qos marking rules (ctrltrafficqos) configuration mode 4.8.25.3.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.8.25.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Specify the BS ID if you want to display configuration for a particular BS. For example, to display the Internal Management Traffic QoS Marking Rules parameters of BS 66053, run the following command: npu# show ctrltrafficqos-intmngmnt bs 66053 Do not specify this parameter if you want to view configuration information for all existing BSs.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.8.25.5.2 Managing BSs Global command mode Displaying Configuration Information for Intra ASN Traffic QoS Marking Rules Parameters To display configuration for the Intra ASN Traffic QoS Marking Rules parameters, run the following command: npu# show ctrltrafficqos-intraasn bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display configuration for a particular BS.
Chapter 4 - Operation and Administration Using the CLI Display Format (for each existing BS if requested for all BSs) Command Modes 4.8.25.5.3 Managing BSs BSIDLSB : IntraASNDSCP : IntraASN802.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes Managing BSs Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display all Control Traffic QoS Marking Rules parameters of a specific BS.
Chapter 4 - Operation and Administration Using the CLI Managing BSs You can display configuration for the Management Alarm Threshold parameters of a selected or all existing BSs (refer to Section 4.8.26.3). 4.8.26.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu(config-bs-66053)# no mngmnt-alrmthrshld [retransmit-rate] [drop-rate] You can restore only one parameter to the default value by specifying only that parameter. For example, to restore only the drop-rate parameter to the default value, run the following command: npu(config-bs-66053)# no mngmnt-alrmthrshld drop-rate This parameter will be restored to its default value, while the other parameter will remain unchanged.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu# show mngmnt-alrmthrshld bs Command Syntax npu# show mngmnt-alrmthrshld bs [<(1 to 16777215 StepSize 1) Privilege Level 1 Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display Management Alarm Thr
Chapter 4 - Operation and Administration Using the CLI Managing BSs You can display configuration information for the ID-IP Mapping of a selected or all existing BSs (refer to Section 4.8.27.3). 4.8.27.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu(config-bs 66053)# no idip <(1 to 16777215 StepSize 1)> Privilege Level 10 Syntax Description Command Modes 4.8.27.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Display Format (for each entry if requested for all) Command Modes 4Motion Managing BSs 1 Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 nw-node-id <(1 to 16777215 StepSize 1)> The Next Hop (Network Node) BS ID.
Chapter 4 - Operation and Administration Using the CLI Managing BSs 4.8.28 Managing Ranging Parameters To configure the Ranging parameters: 1 Enable the Ranging configuration mode (refer to Section 4.8.28.1) 2 You can now execute any of the following tasks: » Configure one or more of the Ranging parameters tables (refer to Section 4.8.28.2) » Restore the default values of parameters in one or more of the Ranging parameters tables (refer to Section 4.8.28.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu(config-bs-66053)# ranging Privilege Level 10 Command Modes bs configuration mode 4.8.28.2 Configuring Ranging Parameters After enabling the Ranging configuration mode you can configure the following parameters tables: General (refer to Section 4.8.28.2.1) Bandwidth Request (refer to Section 4.8.28.2.2) Handover Ranging (refer to Section 4.8.28.2.3) Initial Ranging (refer to Section 4.8.28.2.
Chapter 4 - Operation and Administration Using the CLI Command Syntax Managing BSs npu(config-bs-66053-ranging)# general [start-of-rng-codes <(0 to 255 StepSize 1)> ] [contbased-rsrvtimeout <(0 to 255 StepSize 1)> ] [max-cellradius {one | two | four | eight | fifteen | twentyThree | thirty} ] Privilege Level Syntax Description 10 Parameter Description Presence Default Value Possible Values start-of-rng-codes <(0 to 255 StepSize 1)> Start of Ranging Codes: The starting number S of the group of c
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.8.28.2.
Chapter 4 - Operation and Administration Using the CLI final-backoff-windo w-size <(0 to 15 StepSize 1)> Managing BSs Final backoff window size for contention BW requests; expressed as a power of 2. Optional 4 0 - 15 Cannot higher than or equal to bwreq init-backoff-window-size. Command Modes 4.8.28.2.
Chapter 4 - Operation and Administration Using the CLI Managing BSs init-backoff-window -size <(0 to 15 StepSize 1)> Initial backoff window size for handover ranging contention ; expressed as a power of 2. Optional 0 0 - 15 final-backoff-windo w-size <(0 to 15 StepSize 1)> Final backoff window size for handover ranging contention; expressed as a power of 2. Optional 4 0 - 15 Cannot higher than or equal to horng init-backoff-window-size. Command Modes 4.8.28.2.
Chapter 4 - Operation and Administration Using the CLI codes <(0 to 255 StepSize 1)> Managing BSs Number of Initial Ranging CDMA Codes. Optional 14 0 - 255 Note that the sum of initial ranging codes, periodic ranging codes, bandwidth request codes, handover ranging codes and start of ranging codes should be equal to or less than 256. init-backoff-window -size <(0 to 15 StepSize 1)> Initial backoff window size for initial ranging contention ; expressed as a power of 2.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Managing BSs Parameter Description Presence Default Value Possible Values codes <(0 to 255 StepSize 1)> Number of Periodic Ranging CDMA Codes. Optional 0 0 - 255 Note that the sum of initial ranging codes, periodic ranging codes, bandwidth request codes, handover ranging codes and start of ranging codes should be equal to or less than 256.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.8.28.3 Managing BSs Parameter Description Presence Default Value Possible Values thrshld-correction <(0 to 250 StepSize 0.1)> Timing correction range threshold (in microseconds) below which corrections aren't made. Optional 1 0 - 250 in steps of 0.1 thrshld-rngstatus <(0 to 250 StepSize 0.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu(config-bs-66053-ranging)# no general max-cellradius The parameter will be restored to its default value, while the other parameters will remain unchanged. To restore all Ranging General parameters to their default value, run the following command: npu(config-bs-66053-ranging)# no general NOTE Refer to Section 4.8.28.2.1 for a description and default values of these parameters.
Chapter 4 - Operation and Administration Using the CLI Managing BSs NOTE Refer to Section 4.8.28.2.2 for a description and default values of these parameters. Command Syntax npu(config-bs-66053-ranging)# no bwreq [codes ] Privilege Level 10 Command Modes bs ranging configuration mode 4.8.28.3.
Chapter 4 - Operation and Administration Using the CLI Privilege Level 10 Command Modes bs ranging configuration mode 4.8.28.3.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu(config-bs-66053-ranging)# no periodicrng [codes] [init-backoff-window-size] [final-backoff-window-size] You can restore only some parameters to their default values by specifying only those parameters.
Chapter 4 - Operation and Administration Using the CLI Managing BSs The parameter will be restored to its default value, while the other parameter will remain unchanged. To restore all Ranging Timing Correction parameters to their default value, run the following command: npu(config-bs-66053-ranging)# no timingcorrection NOTE Refer to Section 4.8.28.2.6 for a description and default values of these parameters.
Chapter 4 - Operation and Administration Using the CLI 4.8.28.5 Managing BSs Displaying Configuration Information for Ranging Parameters You can display the current configuration information for the following parameters tables: General (refer to Section 4.8.28.5.1) Bandwidth Request (refer to Section 4.8.28.5.2) Handover Ranging (refer to Section 4.8.28.5.3) Initial Ranging (refer to Section 4.8.28.5.4) Periodic Ranging (refer to Section 4.8.28.5.5) Timing Correction (refer to Section 4.8.28.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes 4.8.28.5.2 Managing BSs Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display the Ranging General parameters of a specific BS.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu# show ranging-bwreq bs [<(1 to 16777215 StepSize 1) Privilege Level 1 Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes 4.8.28.5.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu# show ranging-horng bs 66053 Do not specify this parameter if you want to view configuration information for all existing BSs. To display information for all BSs, run the following command: npu# show ranging-horng bs Command Syntax npu# show ranging-horng bs [<(1 to 16777215 StepSize 1) Privilege Level 1 Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes 4.8.28.5.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu# show ranging-initrng bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display configuration for a particular BS. For example, to display the Initial Ranging parameters of BS 66053, run the following command: npu# show ranging-initrng bs 66053 Do not specify this parameter if you want to view configuration information for all existing BSs.
Chapter 4 - Operation and Administration Using the CLI 4.8.28.5.5 Managing BSs Displaying Configuration Information for Periodic Ranging Parameters To display configuration for the Periodic Ranging parameters, run the following command: npu# show ranging-periodicrng bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display configuration for a particular BS.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.8.28.5.6 Managing BSs Global command mode Displaying Configuration Information for Ranging Timing Correction Parameters To display configuration for the Ranging Timing Correction parameters, run the following command: npu# show ranging-timingcorrection bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display configuration for a particular BS.
Chapter 4 - Operation and Administration Using the CLI Display Format (for each existing BS if requested for all BSs) Command Modes 4.8.28.5.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes Managing BSs Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display all Ranging parameters of a specific BS. Do not specify a value for this parameter if you want to display all Ranging parameters of all BSs. Global command mode 4.8.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu(config-bs-66053)# alrm-thrshld [dl-droppedpackets <(1 to 1000 StepSize 1)> ] [unalloc-slots <(1 to 100 StepSize 1)> ] [dl-retransmissions <(-1 to -1 StepSize 1) | (1 to 10 StepSize 0.1)> ] [ul-retransmissions <(-1 to -1 StepSize 1) | (1 to 10 StepSize 0.1)> ] [dl-subburstdrop <(0 to 100 StepSize 0.01)> ] [ul-subburstdrop <(0 to 100 StepSize 0.
Chapter 4 - Operation and Administration Using the CLI Command Modes Managing BSs dl-subburstdrop <(0 to 100 StepSize 0.01)> Downlink Sub-Burst Drop Rate. Threshold for excessive downlink HARQ sub-burst drop rate alarm (in percents). Optional 100 0 to 100 in steps of 0.01 ul-subburstdrop <(0 to 100 StepSize 0.01)> Uplink Sub-Burst Drop Rate. Threshold for excessive uplink HARQ sub-burst drop rate alarm (in percents). Optional 100 0 to 100 in steps of 0.
Chapter 4 - Operation and Administration Using the CLI Managing BSs To restore all Alarm Threshold parameters to their default value, run the following command: npu(config-bs-66053)# no alrm-thrshld NOTE Refer to Section 4.8.29.1 for a description and default values of these parameters.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes Managing BSs 1 Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 Specify a value for this parameter if you want to display Alarm Threshold parameters of a specific BS.
Chapter 4 - Operation and Administration Using the CLI Managing BSs npu# show harq bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display information for a particular BS. For example, to display the HARQ Maximum Retransmissions parameter of BS 66053, run the following command: npu# show harq bs 66053 Do not specify this parameter if you want to view information for all existing BSs.
Chapter 4 - Operation and Administration Using the CLI Command Modes Managing BSs Global command mode 4.8.31 Managing BS Reserved Parameters After enabling the BS configuration mode, you can execute the following tasks: Configure one or more of the BS Reserved parameters (refer to Section 4.8.31.1). Restore the default values of some or all of the BS Reserved parameters (refer to Section 4.8.31.2).
Chapter 4 - Operation and Administration Using the CLI Managing BSs Command Syntax npu (config-bs-66053)# bs-reserved [reserved-1 ] [reserved-2 ] [reserved-3 ] [reserved-4 ] [reserved-5 ] [reserved-6 ] [reserved-7 ] [reserved-8 ] [reserved-9 ] [reserved-10 ] [reserved-11 ] [reserved-12 ] [reserved-13 ] [reserved-14
Chapter 4 - Operation and Administration Using the CLI Managing BSs You can restore only some parameters to the default values by specifying only those parameter. For example, to restore only the reserved-1 and reserved-2 parameters to the default values, run the following command: npu(config-bs-66053)# no bs-reserved reserved-1 reserved-2 These parameters will be restored to the default value, while the other parameters will remain unchanged.
Chapter 4 - Operation and Administration Using the CLI Managing BSs Do not specify this parameter if you want to view information for all existing BSs.
Chapter 4 - Operation and Administration Using the CLI Display Format (for each existing BS if requested for all BSs) Command Modes Managing BSs BSIDLSB : ReservedParameter1 : ReservedParameter2 : ReservedParameter3 : ReservedParameter4 : ReservedParameter5 : ReservedParameter6 : ReservedParameter7 : ReservedParameter8 : ReservedParameter9 : ReservedParameter10 : ReservedParameter11 : ReservedPara
Chapter 4 - Operation and Administration Using the CLI Managing BSs In certain cases, such as entity reset, other entities are not aware of service termination of an MS in that entity, and keep maintaining the MS context. This may result in service failure, excessive consumption of memory resources and accounting mistakes.
Chapter 4 - Operation and Administration Using the CLI 4.8.32.
Chapter 4 - Operation and Administration Using the CLI 4.8.32.
Chapter 4 - Operation and Administration Using the CLI 4.9 Managing Sectors Managing Sectors Up to 6 Sector objects can be created and configured. The Sector’s configuration includes the association of all the objects that form a sector, including BS, AU/AU-Port, ODU/ODU-Port and Antenna/Antenna Port. This section include: “Configuring Sector Parameters”, Section 4.9.1 “Configuring Sector Association Entries”, Section 4.9.2 4.9.
Chapter 4 - Operation and Administration Using the CLI Managing Sectors To create a new Sector object, the mandatory heading and width parameters must be specified.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes Managing Sectors Parameter Description Presence Default Value Possible Values <(1 to 6 StepSize 1)> The Sector ID Mandatory N/A 1-6 heading <(0 to 359 StepSize 1)> The sector heading (The center angle of the sector), in degrees. Mandatory when creating a new Sector N/A 0 - 359 width <(0 to 359 StepSize 1)> The planned sector coverage, in degrees.
Chapter 4 - Operation and Administration Using the CLI Managing Sectors Command Syntax npu(config-sector-params-1)# sector-definition [sector-name ] [heading <(0 to 359 StepSize 1)> ] [width <(0 to 359 StepSize 1)> ] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values sector-name The sector name (description). Must be unique in the site (shelf).
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Command Modes 4.9.1.3 Managing Sectors 10 Parameter Description Presence Default Value Possible Values [reserved-N ] (N=1-4) Reserved parameter number N Optional null (an empty string) A string of 32 printable characters.
Chapter 4 - Operation and Administration Using the CLI Managing Sectors Command Syntax npu(config-sector-params-1)# no sector-definition [sector-name] Privilege Level 10 Command Modes sector-params configuration mode 4.9.1.3.
Chapter 4 - Operation and Administration Using the CLI 4.9.1.4 Managing Sectors Terminating the Sector Parameters Configuration Mode Run the following command to terminate the Sector Parameters configuration mode: npu(config-sector-params-1)# exit Command Syntax npu(config-sector-params-1)# exit Privilege Level 10 Command Modes sector-params configuration mode 4.9.1.
Chapter 4 - Operation and Administration Using the CLI 4.9.1.6 Managing Sectors Displaying Configuration Information for Sector Parameters You can display the current configuration and (where applicable) additional status information for the following parameters tables: Sector Definition (refer to Section 4.9.1.6.1) Sector Reserved (refer to Section 4.9.1.6.2) 4.9.1.6.
Chapter 4 - Operation and Administration Using the CLI Display Format (for each existing ODU object if requested for all ODUs) Command Modes 4.9.1.6.
Chapter 4 - Operation and Administration Using the CLI Display Format (for each existing ODU object if requested for all ODUs) Command Modes 4.9.2 Managing Sectors SectorID : ReservedParameter1 : ReservedParameter2 : ReservedParameter3 : ReservedParameter4 : Global command mode Configuring Sector Association Entries The Sector Association entry defines all the components that together form a Sector.
Chapter 4 - Operation and Administration Using the CLI Managing Sectors Command Syntax npu (config)# sector-assoc <(1 to 16777215 StepSize 1)> <(1 to 4 StepSize 1) | (7 to 9 Privilege Level 10 Syntax Description Command Modes StepSize 1)> <(1 to 4 StepSize 1)> sector-id <(1 to 6 StepSize 1)> odu-no <(1 to 28 StepSize 1)> antenna-no <(1 to 28 StepSize 1)> odu-port-no <1 to 4 StepSize 1> antenna-port-no <1 to 8 StepSize 1> Parameter Description Presence Default Value Possible Values <(1 to 16777
Chapter 4 - Operation and Administration Using the CLI » Managing Sectors The configured frequency is within the valid range defined by the required ODU type in the specified ODU object and the bandwidth parameter. » The Operator ID is the same as Operator ID configured for previously associated BSs. » In all tables that includes only non-mandatory parameters at least one parameter has been configured. » Wherever needed, the apply command has been executed.
Chapter 4 - Operation and Administration Using the CLI Managing Sectors npu (config)# no sector-assoc <(1 to 16777215 StepSize 1)> <(1 to 4 StepSize 1) | (7 to 9 StepSize 1)> <(1 to 4 StepSize 1)> Command Syntax npu (config)# no sector-assoc <(1 to 16777215 StepSize 1)> <(1 to 4 StepSize 1) | (7 to 9 StepSize 1)> <(1 to 4 StepSize 1)> Privilege Level 10 Syntax Description Command Modes Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> BS ID (bs-id-lsb)
Chapter 4 - Operation and Administration Using the CLI Managing Sectors Command Syntax npu# show sector-assoc [bs-id-lsb <(1 to 16777215 StepSize 1)> au-slot-no <(1 to 4StepSize 1) | (7 to 9 StepSize 1)> au-port-no <(1 to 4 StepSize 1)> ] Privilege Level 1 Syntax Description Display Format (for each existing ODU Port if requested for all ODU Ports) Command Modes 4Motion Parameter Description Presence Default Value Possible Values BS ID Optional N/A 1
Chapter 4 - Operation and Administration Using the CLI 4.10 Monitoring Performance of Hardware and Software Monitoring Performance of Hardware and Software Components This section describes the procedures for: “Monitoring Hardware Components” on page 778 “Monitoring Software Components” on page 784 “Displaying Statistics for Physical and IP Interfaces” on page 815 “Displaying System Files” on page 819 4.10.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software To view the current status of all shelf components, run the following command: npu# show shelf status [{NPU [] | PSU [] |PIU [] | AVU | Fan []}] NOTE Refer Figure 4-1 for more information about the slot IDs assigned to each shelf component.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software NOTE For more information about setting thresholds for CPU and memory usage, refer to “Displaying CPU and Memory Utilization Limits for the NPU” on page 183. Command Syntax npu# show resource usage Privilege Level 1 Display Format Resource Command Modes 4.10.1.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Monitoring Performance of Hardware and Software Parameter Description Presence Default Value Possible Values {ftp | telnet | tftp | ssh | icmp | snmp | R4-R6 | igmp | eap | arp | all-others | | all} Indicates the application for which packets discarded by rate limiting are to be displayed.
Chapter 4 - Operation and Administration Using the CLI Display Format Monitoring Performance of Hardware and Software RATELIMIT COUNTERS: Pre-defined applications -------------------------------------------Application Packets discarded SSH SNMP RATELIMIT COUNTERS: User-defined applications --------------------------------------------Application Packets discarded
Chapter 4 - Operation and Administration Using the CLI Syntax Description Monitoring Performance of Hardware and Software Parameter Description Presence Default Value Possible Values [{Name |Address | RackLocation | ContactPerson |AsnName |Region | ProductType |ShelfHwVersio n}] Indicates the shelf parameter for which informationis to be displayed. If you do not enter any value for this parameter, information for all the shelf parameters is displayed.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software NOTE An error may occur if you have not configured a unique identifier for the 4Motion shelf. Command Syntax npu# show site identifier Privilege Level 1 Display Format Site Id Command Modes Global command mode : 4.10.2 Monitoring Software Components IMPORTANT The software components listed in this section are available only if you are operating the NPU in the ASN-GW mode.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software “Managing Statistics for the DHCP Server” on page 808 “Managing Statistics for the DHCP Proxy” on page 810 “Managing Statistics for the DHCP Relay” on page 812 “Managing Statistics for the SFA Functionality” on page 814 4.10.2.1 Managing Statistics for the IGMP Functionality IMPORTANT The IGMP functionality is not supported in the current release.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software After you run this command, the statistics for the IGMP functionality are displayed. Command Syntax npu# show igmp statistics Privilege Level 1 Display Format IGMP Statistics: igmpQueryRx = igmpReportRx = igmpReportTx = igmpErrQueryRx = igmpErrReportRx = igmpMcastGroups = igmpInvalidEvent = Command Modes 4.10.2.1.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software “Displaying Statistics for the MIP-FA Functionality” on page 787 “Resetting Statistics for the MIP-FA Functionality” on page 789 4.10.2.2.1 Displaying Statistics for the MIP-FA Functionality You can display statistics counters that provide information about the requests and responses, and the number of active and failed IP address allocations by the MIP-FA functionality.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-32: Statistics Counters for the MIP-FA Functionality Statistics Counter Indicates the number of... mipIpDeallocFailed IP address deallocation failures that have occurred (for MSs for which the NPU is serving as the MIP-FA). mipInvalidEvent Invalid events that have occurred because of receipt of messages by MIP-FA (NPU).
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.10.2.2.2 Monitoring Performance of Hardware and Software Global command mode Resetting Statistics for the MIP-FA Functionality Run the following command to reset statistics for the MIP-FA functionality npu# clear mip-fa statistics After you run this command, the statistics counter is reset to 0. NOTE The privilege level of this command is 15. 4.10.2.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-33: Statistics Counters for the PMIP Client Functionality Statistics Counter Indicates the number of... mipRRQRtx MIP registration requests retransmitted by the PMIP client (NPU). mipRRPErr Erroneous MIP registration responses received by the PMIP client (NPU). mipMsSoftLifetimeExp Number of times the soft lifetime timer has expired.
Chapter 4 - Operation and Administration Using the CLI Display Format Monitoring Performance of Hardware and Software PMIP-Client Statistics : mipNumPmipMS = mipRRPRx = mipRRQTx = mipRRQRtx = mipRRPErr = mipMsSoftLifetimeExp = mipIpAllocFailed = mipIpDeallocFailed = mipFaMigFailed = mipInvalidEvent = Command Modes 4.10.2.3.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-34: Statistics Counters for the Authenticator Functionality 4Motion Statistics Counter Indicates the number of... eapIdReqTx EAP ID requests transmitted by the Authenticator functionality (NPU). This does not include the number of retransmissions. eapIdReqRtx EAP ID requests retransmitted by the Authenticator functionality (NPU).
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-34: Statistics Counters for the Authenticator Functionality Statistics Counter Indicates the number of... eapReauthAttempts Reauthentication attempts processed by the Authenticator functionality (NPU). eapInvalidNai Invalid NAIs received by the Authenticator functionality (NPU).
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Command Syntax npu# show authenticator statistics Privilege Level 1 4Motion 794 System Manual
Chapter 4 - Operation and Administration Using the CLI Display Format Monitoring Performance of Hardware and Software Authenticator Function Statistics : eapIdReqTx = eapIdReqRtx = eapIdRspRx = eapIdRspDrop = eapTransferTx = eapTransferRtx = eapTransferRx = eapTransferDrop = eapStartRx = eapStartDrop = eapCounterIdReqExp = eapCounterTransferExp = eapRndOver = eapAuthSuccess = eapAuthFailure = <
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.10.2.4.2 Monitoring Performance of Hardware and Software Global command mode Resetting Statistics for the Authenticator Functionality Run the following command to reset statistics for the Authenticator functionality: npu# clear authenticator statistics After you run this command, the statistics counter is reset to 0. NOTE The privilege level of this command is 15. 4.10.2.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-35: Statistics Counters for the Data Path Function 4Motion Statistics Counter Indicates the number of... dpPathRegRprtTx Path registration reports transmitted by the data path function (NPU). This does not include the number of retransmissions. dpPathRegRprtRtx Path registration reports retransmitted by the data path function (NPU).
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-35: Statistics Counters for the Data Path Function 4Motion Statistics Counter Indicates the number of... dpPathPreRegRprtAckRx Path pre-registration reports for which the data path function (NPU) has received an ACK. dpPathPreRegRprtAckTx Path pre-registration reports for which the data path function (NPU) has transmitted an ACK.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-35: Statistics Counters for the Data Path Function Statistics Counter Indicates the number of... dpPathDeregRprtAckDrop Path de-registration reports for which the data path function (NPU) has dropped an ACK. dpActiveSF Active service flows. dpActiveGRESessions Active GRE sessions.
Chapter 4 - Operation and Administration Using the CLI Display Format Monitoring Performance of Hardware and Software Data Path Function Statistics : dpPathRegReqRx = dpPathRegReqTx = dpPathRegReqRtx = dpPathRegReqDrop = dpPathRegRprtRx = dpPathRegRprtTx = dpPathRegRprtRtx = dpPathRegRprtDrop = dpPathRegRprtAckRx = dpPathRegRprtAckTx = dpPathRegRprtAckDrop = dpPathPreRegReqRx = dpPathPreRegReqTx = dpPa
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software dpPathDeregRprtDrop = dpPathDeregRprtAckRx = dpPathDeregRprtAckTx = dpPathDeregRprtAckDrop = dpActiveSF = dpActiveGRESessions = Command Modes 4.10.2.5.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-36: Statistics Counters for the Context Function Statistics Counter Indicates the number of... ctxtfnCtxtReqRtx Context requests retransmitted by the Context function (NPU). ctxtfnCtxtReqRx Context requests received by the Context function (NPU). ctxtfnCtxtReqDrop Context requests dropped by the Context function (NPU).
Chapter 4 - Operation and Administration Using the CLI Display Format Monitoring Performance of Hardware and Software Context Function Statistics : ctxtfnCtxtReqTx = ctxtfnCtxtReqRtx = ctxtfnCtxtReqRx = ctxtfnCtxtReqDrop = ctxtfnCtxtRprtTx = ctxtfnCtxtRprtRtx = ctxtfnCtxtRprtRx = ctxtfnCtxtRprtDrop = ctxtfnCtxtRprtAckTx = ctxtfnCtxtRprtAckRx = ctxtfnCtxtRprtAckDrop = ctxtfnPkmv2Failure = Command Modes 4.10.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-37: Statistics Counters for the MS State Change Functionality 4Motion Statistics Counter Indicates the number of... msscfnMsscReqTx MS state change requests transmitted by the MS state change functionality (NPU). This does not include retransmissions. msscfnMsscReqRtx MS state change requests retransmitted by the MS state change functionality (NPU).
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-37: Statistics Counters for the MS State Change Functionality Statistics Counter Indicates the number of... msscfnMsSecCapMismatch MS network entry failures because of unsupported security capability mismatch. Run the following command to display statistics for the MS state change functionality.
Chapter 4 - Operation and Administration Using the CLI 4.10.2.7.2 Monitoring Performance of Hardware and Software Resetting Statistics for the MS State Change Functionality Run the following command to reset statistics for the MS state change functionality: npu# clear msscfn statistics After you run this command, the statistics counter is reset to 0. NOTE The privilege level of this command is 15. 4.10.2.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-38: Statistics Counters for RADIUS Statistics Counter Indicates the number of... msscfnMsscRspTx MS state change responses transmitted by the MS state change functionality (NPU). This does not include retransmissions. msscfnMsscRspRtx MS state change responses retransmitted by the MS state change functionality (NPU).
Chapter 4 - Operation and Administration Using the CLI Display Format Monitoring Performance of Hardware and Software Radius Statistics : radAccessReqTx = radAccessReqRtx = radAccessChallengeRx = radAccessAcceptRx = radAccessRejectRx = radAccessChallengeDrop = radAccessAcceptDrop = radAccessRejectDrop = radTimerAccessReqExp = radCounterAccessReqExp = radInvalidEvent = radMsProfileChange = radEapMismatch =
Chapter 4 - Operation and Administration Using the CLI 4.10.2.9.1 Monitoring Performance of Hardware and Software Displaying Statistics for the DHCP Server You can display statistics counters that provide information about the requests and responses processed by the DHCP server. The following table lists the statistics counters for the DHCP server: Table 4-39: Statistics Counters for DHCP Server Statistics Counter Indicates the number of...
Chapter 4 - Operation and Administration Using the CLI Display Format Monitoring Performance of Hardware and Software DHCP Server Statistics : dhcpDiscoverRx = dhcpDiscoverDrop = dhcpRequestRx = dhcpRequestDrop = dhcpReleaseRx = dhcpReleaseDrop = dhcpLeaseTimerExp = dhcpInvalidEvent = Command Modes 4.10.2.9.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-40: Statistics Counters for the DHCP Proxy Statistics Counter Indicates the number of... dhcpDiscoverDrop DHCP discover messages dropped by the DHCP proxy. dhcpRequestRx DHCP requests received by the DHCP proxy. dhcpRequestDrop DHCP requests dropped by the DHCP proxy. dhcpLeaseTimerExp DHCP lease timer expiries handled by the DHCP proxy.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software 4.10.2.10.2 Resetting Statistics for the DHCP Proxy Run the following command to reset statistics for the DHCP proxy: npu# clear dhcp-proxy statistics After you run this command, the statistics counter is reset to 0. NOTE The privilege level of this command is 10. 4.10.2.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-41: Statistics Counters for the DHCP Relay Statistics Counter Indicates the number of... dhcpNakRx DHCP NACK messages received by the DHCP relay. dhcpNakDrop DHCP NACK messages dropped by the DHCP relay. dhcpIpAllocFailed Failed IP address allocations handled by the DHCP relay. dhcpInvalidEvent Invalid events that occurred because of messages received by the DHCP relay.
Chapter 4 - Operation and Administration Using the CLI Command Modes Monitoring Performance of Hardware and Software Global command mode 4.10.2.11.2 Resetting Statistics for the DHCP Relay Run the following command to reset statistics for the DHCP relay: npu# clear dhcp-relay statistics After you run this command, the statistics counter is reset to 0. NOTE The privilege level of this command is 10. 4.10.2.
Chapter 4 - Operation and Administration Using the CLI Command Syntax npu# show sfa statistics Privilege Level 1 Display Format SFA Statistics : Monitoring Performance of Hardware and Software sfaQosMappingFail = sfaSfDescMissing = sfaDfltLpApplied = sfaRejMsMissingProf = sfaLocalServProfApplied = Command Modes Global command mode 4.10.2.12.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-43: Statistics Counters for the Physical Interfaces Statistics Counter Indicates the number of... rxError Packets Erroneous packets received by the AU. rxUnknown Packets Unknown packets received by the AU. txBytes Bytes transmitted by the AU. txUnicast Packets Unicast packets transmitted by the AU. txBroadcast Packets Broadcast packets transmitted by the AU.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Table 4-45: Parameters for Displaying Statistics for All Physical, IP, and Virtual Interfaces Interface Parameters Example Physical Interfaces Fast Ethernet: npu# show interfaces fastethernet 0/1 counters npu# show interfaces fastethernet 0/2 counters npu# show interfaces fastethernet 0/3 counters npu# show interfaces fastethernet 0/4 counters npu# show interfaces
Chapter 4 - Operation and Administration Using the CLI Syntax Description Display Format (Fast Ethernet/Gi gabit Ethernet) 4Motion Monitoring Performance of Hardware and Software Parameter Description Presence Default Value Possible Values [{[ ] | internal-mgmt | external-mgmt | bearer | local-mgmt}] counters Indicates the type of interface (physical or IP) for which statistics are to be displayed.
Chapter 4 - Operation and Administration Using the CLI Display Format (IP Interfaces) Command Modes Monitoring Performance of Hardware and Software Port = rxBytes = rxUnicast Packets = rxDiscarded Packets = rxError Packets = txBytes = txUnicast Packets = Global command mode 4.10.
Chapter 4 - Operation and Administration Using the CLI Monitoring Performance of Hardware and Software Command Syntax npu# show saved {Performance | Active-alarm | Log | User-history} files [recent <1-65535>] Privilege Level 1 Syntax Description Parameter Description Presence Default Value Possible Values Performance| Active-alarm |Log|User-hi story Indicates the type of system files that are to be displayed: Mandatory N/A Performance Active-alarm Log User-history [recent <1-65535>]
Chapter 4 - Operation and Administration Using the CLI 4.11 Troubleshooting Troubleshooting 4.11.1 Configuring Tracing The system can generate traces to be used for tracing the execution sequence of a module and determining the actual cause of an erroneous condition. Traces are recorded for events that occur with respect to the following system modules: System startup procedures: Refers to all procedures/events that occur during system startup.
Chapter 4 - Operation and Administration Using the CLI 4.11.1.1 Troubleshooting Managing System-level Tracing System-level tracing refers all the procedures to be executed for managing tracing for the entire system. To manage system-level tracing: Enable/disable logging for the entire system and specify the destination (file or console) where traces are to be maintained. Make periodic backups of trace files You can, at any time, view the current destination to where traces are maintained.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting NOTE After you have enabled system-level tracing, you can configure the types of traces (brief or detailed) to be generated for each module. By default, module-level tracing is disabled. To configure tracing for each module, refer to Section 4.11.1.2. IMPORTANT An error may occur if: Tracing is already enabled for the requested destination (file or console). An internal error has occurred.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting npu(config)# no trace destination {file|console} IMPORTANT An error may occur if: Tracing is already disabled for the requested destination (file or console). An internal error has occurred.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting IMPORTANT This command may not be successfully executed if an internal error occurs while processing the result. Command Syntax npu(config)# show trace destination Privilege Level 1 Display Format Tracefile() Command Modes Global command mode 4.11.1.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting “Configuring Trace Levels” on page 826 “Disabling Module-level Tracing” on page 827 “Displaying Trace Levels” on page 828 NOTE By default, module-level tracing is disabled. 4.11.1.2.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting Command Syntax npu(config)# trace level [{StartupMgr|SWDownload|FaultMgr|PerfMgr|ShelfMgr|SIGASN|UserIF|AUMgr}] {Brief|Detailed} Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values [{StartupMgr|S WDownload|Faul tMgr|PerfMgr|S helfMgr|SIGASN |UserIF|AUMgr} ] Indicates the name of the module for which the trace level is to be configured.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting npu(config)# no trace level SIGASN Command Syntax npu(config)# no trace level [{StartupMgr|SWDownload|FaultMgr|PerfMgr|ShelfMgr|SIGASN|UserIF|AUMgr}] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values [{StartupMgr|S WDownload|Faul tMgr|PerfMgr|S helfMgr|SIGASN |UserIF|AUMgr} ] Indicates the name of the module for which tracing is to be disabled.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting Command Syntax npu(config)# show trace level [{StartupMgr|SWDownload|FaultMgr|PerfMgr|ShelfMgr|SIGASN|UserIF|AUMgr}] Privilege Level 1 Syntax Description Parameter Description Presence Default Value Possible Values [{StartupMgr|S WDownload|Faul tMgr|PerfMgr|S helfMgr|SIGASN |UserIF|AUMgr} ] Indicates the name of the module for which you want to display the configured trace levels.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting Source interfaces: Refers to the FastEthernet or GigabitEthernet interface for which incoming, outgoing or both types of traffic is to be monitored. You can configure port monitoring for one or more source interfaces. Destination interface: Refers to the interface where the packets are sent for analysis.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting NOTE For the current release, only one monitor session can be set up. This means that only one destination can be configured for one or more source interfaces.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Troubleshooting Parameter Description Presence Default Value Possible Values {destination interface | source interface } Indicates whether port monitoring is to be enabled for a source or destination interface. Specify the interface type and interface ID for the interface to be configured.
Chapter 4 - Operation and Administration Using the CLI 4.11.2.2 Troubleshooting Disabling a Port Monitoring Session You can disable a port monitoring session for a source or destinations interface for which port monitoring is enabled.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Troubleshooting Parameter Description Presence Default Value Possible Values [{source interface |destination interface < interface-id >}] Indicates whether port monitoring is to be disabled for a source or destination interface. Specify the interface type and interface ID for the interface to be configured.
Chapter 4 - Operation and Administration Using the CLI Troubleshooting npu# show port-monitoring Command Syntax npu# show port-monitoring Privilege Level 1 Display Format Port Monitoring: enabled Monitor Port: Gi0/9 Port ---- Command Modes 4Motion Ingress-Monitoring Egress-Monitoring ------------------ ------------ Fa0/1 Fa0/2 Fa0/3 Fa0/4 Fa0/5 Fa0/6 Fa0/7
Appendix A Antenna Configurations
Appendix A - Antenna Configurations In this Appendix: “Introduction” on page 838 “Antenna Configurations” on page 839 “Antenna Down-Tilt Guidelines” on page 842 4Motion 837 System Manual
Appendix A - Antenna Configurations A.1 Introduction Introduction The 4Motion Access Units implement four transmit/receive channels and are hardware-capable of supporting adaptive beam-forming and MIMO Matrix B technologies in all possible configurations (only MIMO Matrix B, only beam-forming, both beam-forming and MIMO Matrix B in different zones, and combined beam-forming and MIMO Matrix B).
Appendix A - Antenna Configurations Antenna Configurations A.2 Antenna Configurations A.2.1 Second Order Diversity Configurations For this scenario, it is proposed to use one of the following configurations: A.2.1.1 Two-Element Wide Slant (/----10λ----\) This configuration consists of two dual-slant antennas separated by at least 10 wavelengths, when only one antenna element of each is connected, with different polarizations.
Appendix A - Antenna Configurations Antenna Configurations different polarizations in each side. This configuration is suitable for combined beam-forming plus MIMO Matrix B operation. This configuration also provides second order diversity. Figure A-1: Four-Element Wide Double Dual-Slant A.2.3.2 Narrow Double Dual-Slant Array (XX) A closely spaced dual-slant pair also allows for MIMO Matrix B operation combined with beam-forming, providing second order diversity as well.
Appendix A - Antenna Configurations Antenna Configurations The 4Motion solution can accommodate a wide spectrum of antenna arrays besides the ones described above.
Appendix A - Antenna Configurations A.3 Antenna Down-Tilt Guidelines Antenna Down-Tilt Guidelines Antennas may support mechanical down tilt (MDT), electrical down tilt (EDT) and remote electrical tilt (RET). Typical adjustment ranges for MDT and EDT are 0 to -10 degrees. As a ground rule it is recommended to minimize the usage of MDT, preferring EDT instead. The degree of tilt to be used is highly dependant on sector configuration and specific environment considerations and conditions.
Appendix B Software Upgrade
Appendix B - Software Upgrade In This Appendix: “Before You Start” on page 845 “Upgrading the NPU” on page 846 “Upgrading the AU” on page 853 4Motion 844 System Manual
Appendix B - Software Upgrade B.1 Before You Start Before You Start To load new NPU/AU software files to the unit's flash memory, you are required to execute a simple loading procedure using a TFTP application. Before performing the upgrade procedure, ensure that you have the most recent instructions, and that the correct software files are available on your computer. The NPU flash stores two software files that can be used for NPU upgrade, and three software files to be used for AU software upgrade.
Appendix B - Software Upgrade B.2 Upgrading the NPU Upgrading the NPU To upgrade the NPU, first configure the TFTP server that you want to use for the software version download, and then download the image to the NPU flash. You can then reboot the NPU with the downloaded image. After you have tested and verified that the NPU is functioning properly with the shadow image, you can make the shadow image as the operational image.
Appendix B - Software Upgrade Command Syntax Syntax Description Command Modes Upgrading the NPU npu(config)# software version server Parameter Description Presence Default Value Possible Values Denotes the IP address of the TFTP server to be used for the software version download. Mandatory N/A Valid IP address Global configuration mode NOTE After you have configured the TFTP server, you can, at any time, view the TFTP server configuration information.
Appendix B - Software Upgrade Upgrading the NPU IMPORTANT An error may occur if you execute this command when: Another software download is already in progress. The shadow image to be downloaded is already residing in the NPU flash as the shadow or operational image. The TFTP server is not configured. For more information about configuring the TFTP server, refer to “Step 1: Configuring the TFTP Server” on page 846.
Appendix B - Software Upgrade Upgrading the NPU In the above command, you can specify the shadow image name that is to be used for NPU reboot. If you do not specify a value for the shadow image name parameter, the shadow image that was last downloaded is used for rebooting the NPU.
Appendix B - Software Upgrade Upgrading the NPU IMPORTANT An error may occur if you run this command when the NPU is not running with the shadow image. Command Syntax npu(config)# switchover npu Command Modes Global configuration mode B.2.
Appendix B - Software Upgrade B.2.3 Upgrading the NPU Displaying the TFTP Configuration Information You can, at any time (during or after the download procedure), run the following command to view the configuration information about the TFTP server that is used for the NPU software upgrade: npu# show software version server IMPORTANT An error may occur if configuration information is requested for a TFTP server that is not configured.
Appendix B - Software Upgrade Upgrading the NPU An error may occur while: Downloading the software image from the TFTP server Decompressing the downloaded file Validating the downloaded file Copying of the software image to the NPU flash Run the following command to view the download status: npu# show download status npu After you run the above command, the TFTP server address, image name and version, download status, and the number of bytes that have been downloaded, are displayed.
Appendix B - Software Upgrade B.3 Upgrading the AU Upgrading the AU To upgrade the AU software, first configure the TFTP server that you want to use for software version download, and then download the image to the NPU flash. You can store up to three images to be used for AU upgrade. You are required to create a mapping between the AU slot and the image residing in the NPU flash.
Appendix B - Software Upgrade Upgrading the AU “Step 4: Downloading the Image to the AU Flash” on page 857 “Step 5: Resetting and Rebooting the AU with the Shadow Image” on page 858 IMPORTANT If you are inserting/re-inserting the AU card, you are required to execute this procedure before inserting and powering up the AU card. If an error occurs while booting up of the AU, it is reset upto three times, after which it is completely shut down. B.3.1.
Appendix B - Software Upgrade B.3.1.2 Upgrading the AU Step 2: Downloading the AU Image to the NPU Flash After the TFTP server is configured, run the following command to download the AU image (to be used for software upgrade) to the NPU flash: npu(config)# Download AU image IMPORTANT The NPU flash can store a maximum of three AU images. If you download a new AU image to the NPU flash, the oldest image (that is not used for any mapping) is overwritten.
Appendix B - Software Upgrade Command Modes B.3.1.3 Upgrading the AU Global configuration mode Step 3: Creating the AU-to-Image Mapping After you have downloaded the AU image to the NPU flash, you can map this image to a specific AU slot. You can also use this image to create the default AU-to-image mapping. IMPORTANT If you are inserting/re-inserting the AU card, run this command before inserting and powering up the AU card.
Appendix B - Software Upgrade Syntax Description Upgrading the AU Parameter Description Presence Default Value Possible Value Indicates the AU to which the image is to be mapped. Mandatory N/A 1, 2, 3, 4, 7, 8, 9 (valid slot ID) default: if you want to create a default AU-to-imag e mapping that can be used by all AUs for which a mapping does not exist. Command Modes B.3.1.4 Denotes the name of the image to be mapped to the AU slot.
Appendix B - Software Upgrade Upgrading the AU IMPORTANT An error may occur if: The AU image is not present in the NPU flash You execute this command immediately after inserting the AU card, and it is still registering itself with the 4Motion system. An AU image is currently being downloaded to the AU flash. The AU software image version is incompatible with the AU hardware. Command Syntax Syntax Description Command Modes B.3.1.
Appendix B - Software Upgrade Upgrading the AU However, the AU is immediately shut down after it boots up with the operational image. npu(config)# reboot au [] shadow [] Specify the image name that you have used for creating the mapping in, “Step 3: Creating the AU-to-Image Mapping” on page 856. If you define another image name in this command, the AU-to-image mapping is updated with this image (provided this image is also residing in the NPU flash).
Appendix B - Software Upgrade Syntax Description Upgrading the AU Parameter Description Presence Default Value Possible Value [] Denotes the slot ID of the AU to be rebooted with the image residing in the AU flash. Optional N/A 1, 2, 3 4, 7, 8, 9 Mandatory N/A Valid shadow image name If you do not specify a value for this parameter, the image is used to reboot all AUs. Command Modes B.3.2 Denotes the name of the AU image to be used for rebooting the AU.
Appendix B - Software Upgrade Command Syntax Syntax Description Upgrading the AU npu# show software version au [] Parameter Description Presence Default Value Possible Value [] Indicates the AU slot ID for which information about the shadow, operational, and running images is to be displayed. Optional N/A 1 , 2 3, 4, 7, 8, 9 If you do not specify a value for this parameter, information about the shadow, operational, and running images for all AUs is displayed.
Appendix B - Software Upgrade Upgrading the AU Writing to flash Download complete An error may occur while: Downloading the software image from the TFTP server Validating the downloaded file Copying of the software image to the NPU flash Run the following command to view the download status of the AU image to NPU flash: npu# show software download status au IMPORTANT An error may occur if you execute this command when no download procedure is in progress.
Appendix B - Software Upgrade Upgrading the AU Specify the AU slot ID to display the AU-to-image mapping for a specific AU slot. If you want to view the default AU-to-image mapping, specify default. If you do not specify the slot ID or default, all the AU-to-image mappings are displayed.
Appendix B - Software Upgrade Syntax Description Command Modes B.3.6 Upgrading the AU Parameter Description Presence Default Value Possible Value Denotes the slot ID of the AU for which the AU slot to image mapping is to be deleted. Mandatory N/A Valid slot ID Global command mode Deleting AU Images from the NPU Flash The NPU flash can store a maximum of three AU images.
Appendix B - Software Upgrade Syntax Description Command Modes B.3.7 Upgrading the AU Parameter Description Presence Default Value Possible Value Denotes the name of the AU image that is to be deleted from the NPU flash.
Appendix C Configuration Example
4Motion® Configuration Via AlvariSTAR™ Quick Start Guide Software Version 2.
4Motion Configuration Using AlvariSTAR Date 30.12.2008 Legal Rights Document Name 4Motion Configuration Using Document Number DN1031 AlvariSTAR Written By: Carmit Partoush No. of pages: 43 Title: Product Expert NMS Rev: A Rev. Date A 30.12.2008 Name Notes Carmit Partoush © Copyright 2008 Alvarion Ltd. All rights reserved. The material contained herein is proprietary, privileged, and confidential and owned by Alvarion or its third party licensors.
4Motion Configuration Using AlvariSTAR Contents Contents 1 Scope ........................................................................................................1 2 Pre-Configuration Requirements............................................................1 3 4Motion Configuration.............................................................................3 3.1 Configuration Via the CLI ......................................................................................... 3 3.1.
4Motion Configuration Using AlvariSTAR Contents 3.2.7 GPS.................................................................................................................... 11 3.2.8 Antenna.............................................................................................................. 12 3.2.9 AAA Configuration ............................................................................................. 13 3.2.10 Service Group .........................................................
4Motion Configuration Using AlvariSTAR 1 Scope Scope The purpose of this document is to guide you through the elementary configuration steps that must be carried out to manage a 4Motion release 2.5 site via the AlvariSTAR EMS system and to establish a first link with the BTS. Please note: this document describes a specific configuration with specific IP addresses and specific values. The purpose of this example is to demonstrate site configuration with air link and CPE management support.
4Motion Configuration Using AlvariSTAR Pre-Configuration Requirements Parameter Value Bit per second 115200 Data bits 8 Parity None Stop bits 1 Flow control Xon/Xoff NOTE The default login ID and password are: Login ID: root Password: admin123 2. Show Software Versions Before you start ensure that you have the correct software files available on the NPU card. ¾ Show NPU versions npu# show software version npu ¾ Show au versions npu# sh au image repository 3.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 5. If you performed Software Upgrade, you must upload the Vendor Configuration File. You can do this via AlvariSTAR (see Annex B). 3 4Motion Configuration 3.1 Configuration Via the CLI The following should be configured via the CLI 3.1.1 Site ID Configuration Site Identifier is a mandatory parameter and is used as the site's unique ID on the net.
4Motion Configuration Using AlvariSTAR 4Motion Configuration npu# c t npu(config)# snmp-mgr ReadCommunity public ReadWriteCommunity private npu(config)# exit npu# wr Configurations saved successfully 3.1.4 Access List Definition Create a standard Access List (ACL) (number 1) and enable the ACL configuration mode. This ACL allows unlimited access to the AU. This policy can be changed later via the AlvariSTAR configuration screens.
4Motion Configuration Using AlvariSTAR 4Motion Configuration (10.0.22.29 is an example for the IP address of the default route.) npu# c t npu(config)# ip route 0.0.0.0 0.0.0.0 10.0.22.29 (default gateway ip address next hop) npu(config)# exit npu# wr Configurations saved successfully 3.1.6 Creating the AU-to-Image Mapping Map AU software version to a specific AU slot. You can also use this image to create the default AU-to-image mapping.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 1: L1\L2 Connectivity Table 2: L1\L2 Connectivity Category Parameter Name NMS connectivity mode Value In band Notes MGMT and data are connected through the same port and separated by VLAN Site VLAN configuration Bearer VLAN ID 11 Default VLAN Site VLAN configuration External management 12 Default VLAN VLAN ID Ethernet ports (backhaul) Administrative port state Up 3.2.1.
4Motion Configuration Using AlvariSTAR NMS Module Agents BS applications BS 4Motion Configuration NMS Master Agent BS CSGw card NMS IP Network ASNGW application BS NMS System Cell Site 1 VLANs Bearer, NMS IP of Bearer VLAN NMS IP of Backbone NMS External Layer 2Eth Switch supporting VLANs IP of Cell Site Internal NMS VLAN Bearer VLANs Bearer, NMS BS NMS Module Agents BS applications CSGw card BS Bearer (R6/R8/R4) IP Network NMS Master Agent External ASN GW ASNGW application BS Cell
4Motion Configuration Using AlvariSTAR 4Motion Configuration Table 3: IP Interfaces Parameter Name Value Administrative status Up IP Address External Management- 192.168.1.1 Bearer- 172.16.0.1 Local Management- 172.31.0.1 IP Subnet Mask 255.255.255.0 MTU size 1500 VLAN ID External Management -Vlan ID- 12 Bearer- Vlan ID -11 Local Management- Vlan ID-9 3.2.3 IP Routing 1. Select Connectivity > IP routing from the navigation tree. 2.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 3: Management Table 4: IP Interfaces Parameter Name 3.2.5 Value IP Address External Management IP address should be configure Port Number 162 (default port number) Community Public Enable Site Traps Enable AU 1. Select Equipment > Shelf > AU from the navigation tree. 2. Right-click on the AU icon and click Create. 3. AU number – select a slot number. 4. Follow Table 5 for the AU configuration. 5.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 4: AU Table 5: AU Configuration Parameter name Type Value 3 DSP Notes Typically used. Note that AU may support also 4DSP Ports 4 Channels Bandwidth 20 AU number 3.2.6 Default for 4Motion AU cards According to the physical slot ODU 1. Select Equipment > External > ODU from the navigation tree. 2. Right-click on the ODU icon and click Create – a new ODU ID will open (see Figure 5). 3.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 5: New ODU A new ODU is added to the navigation tree according to the ODU number (e.g. ODU 2). This new screen allows ODU configuration. 6. On the ODU configuration screen, click Apply to accept the default values. IMPORTANT You must click Apply on the ODU configuration screen to complete the ODU creation even if no change was made to the screen.
4Motion Configuration Using AlvariSTAR 4Motion Configuration IMPORTANT Any change in this screen requires NPU reset. You can restart the NPU after the entire configuration is complete. 3.2.8 Antenna This section describes the parameters needed in order to configure the antennas settings. NOTE The default values presented in this document are used only to provide the minimal requirements for establishing a connection.
4Motion Configuration Using AlvariSTAR 3.2.9 4Motion Configuration AAA Configuration This configuration will create an AAA association for system authentication and provisioning (the R3 interface). 1. Select ASNGW > AAA from the navigation tree. 2. Configure the parameters as described in Table 6. 3. Click Apply to accept the changes. Figure 8: AAA Table 6: AAA Client Parameters Parameter Name Value Notes Source IP interface bearer Read only Primary AAA server 172.30.105.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3.2.10 Service Group This section describes the configuration of service interfaces and service groups. 3.2.10.1 Service Interface 1. Select ASNGW > Service Group > Service Interfaces from the navigation tree. 2. Two service interfaces must be defined: one for Data and one for management. Add service interfaces; define the service using Figure 9, Figure 10 and Table 7. 3. Click Apply to accept the changes.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 10: Service Interfaces - Management Table 7: Service Interface Parameter Name Value – for Data Value – for Management service interface Name ISP CPE_MNG Description ISP_int CPE_MNG type VLAN VLAN Tunnel MTU size 1480 1480 Service VLAN ID 100 70 Default gateway IP 172.30.104.254 192.168.107.1 address 3.2.10.2 Service Group 1. Select ASNGW > Service Group > Service Groups from the navigation tree. 2.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 11: Service Group Parameters - Data Figure 12: DHCP Function - Data 4Motion - DN1031 16
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 13: Service Group Parameters - Management Figure 14: DHCP Function & Management Server - Management Table 8: Service Group Parameters Parameter Name Value – for Data Value – for Management Service group parameters Name Group1 CPE-MNG Type IP IP Service Interface Name ISP CPE-MNG DHCP function Mode Server server Lease Time 86,400 86400 4Motion - DN1031 17
4Motion Configuration Using AlvariSTAR Parameter Name 4Motion Configuration Value – for Data Value – for Management DHCP Own IP Address 172.30.104.1 192.168.107.5 Enable server VLAN V V DNS Server IP Address 0.0.0.0 172.10.17.1 IP address poll from 172.30.104.100 192.168.107.10 IP address poll to 172.30.104.120 192.168.107.20 Subnet mask 255.255.255.0 255.255.255.0 Default gateway IP address 172.30.104.254 192.168.107.1 DHCP Function Management server Server host name 172.30.105.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 15: QoS - Internal Rule Figure 16: QoS- External Rule 3.2.12 SFA 1. Select SFA from the navigation tree. 2. In the classification rules tab, add two classifications rules: DSCP and DSCP6. Follow Figure 17 and Figure 18. 3. In the Layer 3 section, Enable IP TOS. 4. Define IP TOS according to Table 9.
4Motion Configuration Using AlvariSTAR 4Motion Configuration NOTE DSCP6 is relevant only when using CPE R2. Figure 17: SFA - DSCP Figure 18: SFA – DSCP6 Table 9: TOS Parameters Classification Rule Name TOS Range TOS Mask DSCP From 0 to 1 63 DSCP6 From 6 to 7 0 3.2.13 Service Profile 1. Select SFA > Service Profile from the navigation tree. A Default service profile already exists. Use the default profile or create a new profile.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3. Change the profile status to Enable. 4. Click Apply to accept the changes. To create a new service profile: 1. Right-click on the service profile icon and click Create. 2. Define service profile name. A new service profile is created. 3. Click Apply to accept the changes. This newly created Service Profile will be 'empty', without a Service Flow. 4. Add a new service flow and follow Table 10.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 20: Service Profile – Data Table 10: Service Profile Parameter Name Value – for Data Value – for Management Service flow parameters Flow ID 2 1 Media flow type Data MNG Reference service group Group1 CPE-MNG Data delivery type Uplink: BE Uplink: BE Downlink: BE Downlink: BE Uplink: 512 Uplink: 250 Downlink: 512 Downlink: 250 Uplink: 0 Uplink: 0 Downlink: 0 Downlink: 0 DSCP DSCP6 Max sustained traffic rate (kbps)
4Motion Configuration Using AlvariSTAR Parameter Name 4Motion Configuration Value – for Data DL Value – for Management DSCP DSCP6 3.2.14 BS 1. In the navigation tree, right click on BS and click Create. 2. Define the following: ¾ BS LSB- This value should be unique in the network. For example, 1.2.3 (Driven from the value 01.02.03 (HEX) which is 66051 (DEC) ¾ Operator ID- populated with the last operator ID in the DB. Should be the same for all BSs of a specific operator. 3.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Parameter Name Central frequency Value 2600.0 3.2.14.1.1.2 Air Frame Structure General Configure the parameters according to Table 12. Figure 22: RC AFSG NOTE Preamble Index formula: segment X 32 + Cell ID Segment- available values: 0-2 Cell ID- available values: 0-31 Please notice that if the value of Preamble Index = 0, It means that this AU is down.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3.2.14.1.1.3 Air Frame Structure Zone Configure the parameters from Table 13. The following parameters are for 10 MHz bandwidth.
4Motion Configuration Using AlvariSTAR Category Dynamic permutation 4Motion Configuration Parameter Name Value Permutation base 0 Start allocation 0 Downlink Permutation Static base Uplink Permutation base Static 3.2.14.1.1.4 Diversity Use none at this point, it is not mandatory for first link. 3.2.14.1.2 Advanced 1. Select BS > BS ID > Radio > Advance from the navigation tree. 2. Configure the parameters according to the screen captures below. 3.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3.2.14.1.2.2 Channel Description 3.2.14.1.2.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3.2.14.1.2.4 Power Control Policy 3.2.14.1.2.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3.2.14.1.2.6 Handover 3.2.14.1.2.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3.2.14.1.2.8 Management 3.2.14.2 Connectivity 3.2.14.2.1 Basic Select BS > BS ID > Connectivity > Basic from the navigation tree. 3.2.14.2.1.1 Bearer 1. Configure the bearer parameters according to Table 14. 2. Click Apply to accept the changes. Figure 24: Bearer Table 14: Bearer Category Parameter Name Value Bearer Connectivity IP Address 172.16.0.20 Bearer Connectivity IP sub mask 255.255.255.
4Motion Configuration Using AlvariSTAR 4Motion Configuration 3.2.14.2.1.2 Authentication 1. Configure the authentication parameters according to Table 18. 2. Click Apply to accept the changes. NOTE Active MSs counts the number of connected MSs. Therefore, increase the threshold value, otherwise an alarm will be generated for exceeded number of MSs as soon as an MS connects.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 26: Connectivity - Advanced 3.2.15 Site Sector 1. In the navigation tree, right-click on Site Sector and create new site sector. 2. Select the site sector number. 3. Click Apply to accept the change. A new Site Sector is created. 4. In the new site sector window, define the parameters according to Figure 27. 5. Click Apply to accept the changes.
4Motion Configuration Using AlvariSTAR 3.3 4Motion Configuration Apply All Changes For all the changes to take effect, you need to restart the NPU via AlvariSTAR. NOTE The NPU restart must be performed only via AlvariSTAR, otherwise the last changes will not be saved.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Annex A. CPEs Support This example describes the following: 1. configuration of SI, SG, SP, SF for all other CPEs (not R2) 2. Working with IP mode (thus far, VLAN mode was described) A.1. Service Interface Service interface configuration Type IP-in IP is used A.2.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 28: Service Group A.3.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 29: SFA A.4. Service Create a new service profile with the following flow: 1. One service flow with the service group describe in A.2. 2. Define three classifiers for downlink and three for uplink as described in A.3.
4Motion Configuration Using AlvariSTAR 4Motion - DN1031 4Motion Configuration 37
4Motion Configuration Using AlvariSTAR 4Motion Configuration Annex B. Uploading the Vendor Configuration File Uploading vendor configuration file is mandatory after every software upgrade. To upload the vendor configuration file: 1. Take the vendor_startup.xml file and generate a .gz file (zip file) from it. 2. From the navigation tree, select File Manager and import vendor_startup.xml.gz file, by clicking Import > Select File > Import. 3.
4Motion Configuration Using AlvariSTAR 4Motion Configuration Figure 30: Restore Configuration 10. Perform NPU reset. The NPU will start up with the configured vendor parameters (including asnif and csnif).
Glossary
Glossary 10Base-T An Ethernet cabling standard where data is transmitted in baseband spectrum of a twisted pair cable (i.e. Cat 3 or better, Cat 5 in most networks) with data rate of 10 Mbps. (10 for 10Mbps, Base for baseband, T for twisted pair). 10Base-T implementation uses star topology. 100Base-T An Ethernet cabling standard where data is transmitted in baseband spectrum of a twisted pair cable (i.e. Cat 5 or better), with data rate of 100 Mbps. 100Base-T implementation uses star topology.
Glossary ASN Access Service Network. An ASN is defined as a complete set of network functions needed to provide radio access to a WiMAX subscriber. An ASN is comprised of network elements such as one or more Base Stations (BS) and one or more ASN gateways (ASN-GW). An ASN may be shared by more than one Connectivity Service Network (CSN). ASN-GW Access Service Network Gateway. The ASN-GW is a network entity that acts as a gateway between the ASN and CSN.
Glossary CDMA Code Division Multiple Access is a second generation (2G) cellular technology defined by Qualcomm in IS-95 and IS-2000. A coding scheme, used as a modulation technique, in which multiple channels are independently coded for transmission over a single wideband channel. In some communication systems, CDMA is used as an access method that permits carriers from different stations to use the same transmission equipment by using a wider bandwidth than the individual carriers.
Glossary DHCP Dynamic Host Configuration Protocol. A protocol for dynamically assigning IP addresses from a pre-defined list to nodes on a network. Using DHCP to manage IP addresses simplifies client configuration and efficiently utilizes IP addresses. DL Down Link DSCP Differentiated Service Code Point, AKA DiffServ: An alternate use for the ToS byte in IP packets.
Glossary ETSI European Telecommunications Standards Institute. A non-profit organization producing voluntary telecommunications standards used throughout Europe, some of which have been adopted by the EC as the technical base for Directives or Regulations. FA Foreign Agent. A mobility agent on the foreign network that can assist the mobile node in receiving datagrams delivered to the care-of address.
Glossary IANA Internet Assigned Numbers Authority. A regulatory group that maintains all assigned and registered Internet numbers, such as IP and multicast addresses. ICMP Internet Control Message Protocol is a protocol designed to allow hosts to send error and control messages to other network devices. Basically ICMP provides communication between the Internet Protocol (IP) software on network devices.
Glossary IGMP Internet Group Membership Protocol) is protocol used by IP hosts to report their host group memberships to any immediately neighboring multicast routers. The use of IP multicasting in TCP/IP networks is defined as a TCP/IP standard in RFC 1112. In addition to defining address and host extensions for how IP hosts support multicasting, this RFC also defines the IGMP version 1. Version 2 of IGMP is defined in RFC 2236.
Glossary MTU Maximum Transmission Unit. This is the greatest amount of data that can be transferred in one physical frame on the network. If a packet that has a smaller MTU than the packet's frame length is sent, fragmentation will occur. For TCP MTU can range from 68 to 1500 bytes. Larger MTUs provide for lower overhead (fewer headers). MS Mobile Station. The equipment used by the end user to access the WiMAX network. NAI Network Address Identifier.
Glossary OFDM Orthogonal Frequency Division Multiplexing: A method for multiplexing signals, which divides the available bandwidth into a series of frequencies known as tones. Orthogonal tones do not interfere with each other when the peak of one tone corresponds with the null. The rapid switching, frequency-hopping technique is intended to allow more robust data service. OFDMA Orthogonal Frequency Division Multiple Access. It’s a logical extension of OFDM and a modulation/multiple access technique.
Glossary PICMG The PCI Industrial Computers Manufacturer's Group is a consortium of over 450 industrial computer product vendors. PICMG's charter is to develop specifications for PCI-based systems and boards for use in industrial computing applications. PICMG 2.x series is a specification for PCI-based equipment that combines the power of low cost PCI silicon and software with the rugged Eurocard packaging. PIM Protocol Independent Multicast. A protocol-independent multicast routing protocol.
Glossary RS-232 A serial interface published by the EIA (Electronic Industries Association) for asynchronous data communication over distances up to a few hundred feet. Characterized by a single-ended (not differential) physical layer, it uses one signal wire for transmission, another for reception, and a common wire (ground), plus some timing and control signals.
Glossary SNMP Simple Network Management Protocol. A network management protocol that provides a means to monitor and control network devices, and to manage configurations, statistics collection, performance, and security. SNMP works by sending messages, called protocol data units (PDUs), to different parts of a network. SNMP-compliant devices, called agents, store data about themselves in Management Information Bases (MIBs) and return this data to the SNMP requesters.
Glossary UL 1. Abbreviation for “Underwriters’ Laboratory”. The UL is an independent organization which conducts safety tests and product certifications. 2. Up Link UTC Coordinated Universal Time. The reference for the official time used by all countries in the world, maintained by an ensemble of atomic clocks around the world, and it is independent from the time zones. The modern implementation of Greenwich Mean Time. VLAN Virtual Local Area Network.