Chapter 3 - Operation and Administration of the Macro BTS Display Format (for each existing Neighbor BS in each of the existing BSs if requested for all) BSIDLSB Managing BSs : NeighborBSIDLSB : SynchronizationIndicator : EIRP : Bandwidth(MHz) : UplinkFeedbackZonePermutationBase PreambleIndex : : UCDConfigurationChangeCount : DCDConfigurationChangeCount : IsotropicrecpwrforInitrang CenterFrequency(MHz) PagingGroupId neighborS
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show nbr-requiredcnr bs Command Syntax npu# show nbr-requiredcnr bs [<(1 to 16777215 StepSize 1)> bs-id-lsb <(1 to 16777215 Privilege Level 1 Syntax Description 4Motion StepSize 1)> ] Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> The BS ID Optional N/A 1-16777215 bs-id-lsb <(1 to 16777215 StepSize 1)> The Neighbor BS ID.
Chapter 3 - Operation and Administration of the Macro BTS Display Format (for each existing Neighbor BS in each of the existing BSs if requested for all) Command Modes 3.9.9.7.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Do not specify these parameters if you want to view configuration information for all existing Neighbor BSs in all BSs.
Chapter 3 - Operation and Administration of the Macro BTS TrigName {scnReqCinrMin | scnReqRssiMin | scnReqRtdMax | hoReqCinrMaxNbs | hoReqRssiMaxNbs | hoReqCinrMargin | hoReqRssiMargin | hoReqRtdMax | hoReqCinrMinSbs | hoReqRssiMinSbs} ] Managing BSs The Trigger name scnReqCinrMin Specify only if you want to display a specific Trigger of a specific Neighbor BS in a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Do not specify these parameters if you want to view configuration information for all existing Neighbor BSs in all BSs.
Chapter 3 - Operation and Administration of the Macro BTS Display Format (for a selected Trigger) Command Modes 3.9.9.7.5 Managing BSs bs-id-lsb <(1 to 16777215 StepSize 1)> The Neighbor BS ID. TrigName {hoReqCinrMaxNbs | hoReqRssiMaxNbs | hoReqCinrMargin | hoReqRssiMargin} ] The Trigger name {hoReqCinrMaxNbs Specify only if you want to display a specific Specific BS Trigger of a specific Neighbor BS in a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Specify the BS ID and the Neighbor BS ID (bs-id-lsb) if you want to display configuration for a particular Neighbor BS in a particular BS. For example, to display all parameters of Neighbor BS 68000 in BS 66503, run the following command: npu# show nbr-all bs 66053 bs-id-lsb 68000 Do not specify these parameters if you want to view configuration information for all existing Neighbor BSs in all existing BSs.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes Managing BSs Global command mode 3.9.10 Managing the RF Frequency Parameter After enabling the BS configuration mode, you can configure the RF frequency parameter (refer to Section 3.9.10.1). You can display configuration information for the RF frequency parameter of a selected or all existing BSs (refer to Section 3.9.10.2). 3.9.10.
Chapter 3 - Operation and Administration of the Macro BTS [frequency <(2022.5 to 2217.5 StepSize 0.125) | (2302.5 to 2397.5 StepSize 0.125) | (2487.5 to 2687.5 StepSize 0.125) | (3302.5 to 3397.5 StepSize 0.125) | (3402.5 to 3597.5 StepSize 0.125) | (3602.5 to 3797.5 StepSize 0.125)>] The center of the frequency band in which the BS will transmit, in MHz. Managing BSs Mandatory N/A Must be within the valid range of the relevant ODU. The indicated Possible Values are for a bandwidth of fiveMhz.
Chapter 3 - Operation and Administration of the Macro BTS Command Syntax npu# show rf bs [<(1 to 16777215 StepSize 1) Privilege Level 1 Syntax Description Display Format 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 RF frequency parameter of a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.11.1 Managing BSs Configuring the Baseband Bandwidth Parameter To configure the Baseband bandwidth parameter: From the BS configuration mode, run the following command: npu(config-bs-66053)# baseband [bandwidth {fiveMHz | tenMHz | sevenMHz}] IMPORTANT A bandwidth of 7 MHz (sevenMHz) is not applicable for ODUs in the 2.x GHz band.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Airframe Structure, General (see Section 3.9.12.2.1) ul-dl-allocation Airframe Structure, Map Zone (see majorgrps Section 3.9.12.2.2) Airframe Structure, Uplink Data Zone (see subchannels Section 3.9.12.2.6) Triggers (see Section 3.9.7.1) triggers-scnreq-rtd-max triggers-horeq-rtd-max 3.9.11.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Display Format 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 Baseband bandwidth parameter of a specific BS. Do not specify a value for this parameter if you want to display the Baseband bandwidth parameter of all BSs.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs In addition, you can, at any time, display configuration information for each of the Airframe parameters tables (refer to Section 3.9.12.5). 3.9.12.1 Enabling the Airframe Configuration Mode To configure the Airframe parameters, first enable the Airframe configuration mode. Run the following command to enable the Airframe configuration mode.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Downlink Diversity (refer to Section 3.9.12.2.3) Uplink Feedback Zone (refer to Section 3.9.12.2.4) Downlink Data Zone (refer to Section 3.9.12.2.5) Uplink Data Zone (refer to Section 3.9.12.2.6) Mimo (refer to Section 3.9.12.2.7) IMPORTANT After completing the Airframe configuration, do not forget to execute the apply command before exiting the Airframe configuration mode: npu(config-bs-66053-airframe)# apply 3.9.12.2.
Chapter 3 - Operation and Administration of the Macro BTS Command Syntax Managing BSs npu(config-bs-66053-airframe)# general [cell-id <(0 to 31 StepSize 1)> ] [preamble-grp <(1 to 2 StepSize 1)>] [segment <(0 to 2 StepSize 1)> ] [frame-offset ] [ul-duration <(3 to 7 StepSize 1 | 10 to 10 StepSize1)> ] [nbr-beam-forming {yes | no} ] Privilege Level Syntax Description 10 Parameter Description Presence Default Value Possible Values [cell-id <(0 to 31 StepSize 1)> ] The Cell ID (IDCe
Chapter 3 - Operation and Administration of the Macro BTS [ul-duration <(3 to 7 StepSize 1 | 10 to 10 StepSize1)> ] The total duration of the uplink in a frame, in slots. (one slot equals 3 symbols). Managing BSs Mandatory when creating a new BS. N/A 3 - 7, 10 Optional no yes The range is 4-7 or 10 for bandwidth = 5 or 10MHz, 3-5 or 7 for bandwidth = 7MHz. To avoid BS-BS interference, the ul-duration must be identical in all BSs in a geographical region.
Chapter 3 - Operation and Administration of the Macro BTS Command Syntax Managing BSs npu(config-bs-66053-airframe)# mapzone [size <(-1 to -1 StepSize 1) | (2 to 16 StepSize 2)> ] [majorgrps ] [repetition <(1 to 1 StepSize 1) | (2 to 6 StepSize 2)> ] [RCID-Usage {enable | disable} ] Privilege Level Syntax Description 4Motion 10 Parameter Description Presence Default Value Possible Values size <(-1 to -1 StepSize 1) | (2 to 16 StepSize 2)> The map zone size in symbols.
Chapter 3 - Operation and Administration of the Macro BTS majorgrps The Major groups allocated to the BS for maps transmission. Two hexadecimal numbers representing 8 bits numbered 0 to 7 (left to right). Bits 0 to 5 indicate whether Subchannel Groups 0 to 5 (respectively) are allocated. Bit 6 and 7 are set to 0. Managing BSs Mandatory when creating a new BS. N/A a string of two hexadecimal numbers. If BW=5 MHz, bits 1, 3 and 5 are not relevant ("don't care").
Chapter 3 - Operation and Administration of the Macro BTS 3.9.12.2.3 Managing BSs Configuring the Airframe Downlink Diversity Mode Parameter The system supports the following operation modes in the downlink: MIMO Matrix A or B Beam Forming In MIMO Matrix A or B mode the system can use either MIMO Matrix A or Matrix B. The selection between Matrix A and Matrix B is performed automatically for each MS according to link conditions and supported MS capabilities.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Command Syntax npu(config-bs-66053-airframe)# dldiveraity [mode ] Privilege Level 10 Syntax Description Command Modes 3.9.12.2.4 Parameter Description Presence Default Value Possible Values mode The diversity mode used in downlink transmissions. Optional matrixA0rB matrixAorB beamForming is not applicable for 2-channels AU.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Command Modes 3.9.12.2.5 Managing BSs Parameter Description Presence Default Value Possible Values [permbase <(0 to 69 StepSize 1)> ] The permutation base used in the feedback zone Mandatory when creating a new BS.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.12.2.6 Managing BSs Configuring Airframe Uplink Data Zone Parameter To configure the Airframe Uplink Data Zone parameter, run the following command: npu(config-bs-66053-airframe)# uldatazone permbase <(0 to 69 StepSize 1)> IMPORTANT When creating a new BS, the Airframe Structure Uplink Data Zone mandatory permbase parameter must be configured.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Data rate gain is achieved when MS works at matrix B/SM, spatial multiplexing MIMO mode. It is assumed that either all MSs support MIMO (not necessary both modes) or all MSs don't support MIMO (SIMO support only). The DL MIMO feature influences several system elements such as frame structure, rate adaptation and feedback zone.
Chapter 3 - Operation and Administration of the Macro BTS [first-zone-mi n-size <(-1 to -1 StepSize 1) | (2 to 34 StepSize 2)> ] Determines the initial size (in OFDMA symbols) of the first zone. When reuse 3 is used within first zone, this parameter should be equal across all BSs within deployment. Managing BSs Optional -1 (no limitation) -1 (no limitation) or 2xN where N=1 to 17. Optional -1 (no limitation) -1 (no limitation) or 2xN where N=1 to 17.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Table 3-31: First Zone Minimum Size Recommended Value Range Bandwidth (MHz) First Zone Scheme* Basic Map Repetition Minimum Size (symbols) (up to a maximum of Y as defined below) 7/10 Full Loading 6 No Limitation or 8+2N 4 No Limitation or 6+2N 2 No Limitation or 4+2N 1 No Limitation or 4+2N 6 N/A (non trivial configuration) 4 8+2N 2 6+2N 1 6+2N 6 N/A (non trivial configuration) 4 No Limitation or 8+2N 2 No L
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs The value of Y that sets the upper limit for the Minimum and Maximum Size parameters depends on the Maximum Cell Radius and Total Uplink Duration parameters, using the following formula: Y=A-3*(Total Uplink Duration)-(Extra TTG), where A=46 for BW of 5 or 10 MHz, and 32 for BW of 7 MHz.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs NOTE Refer to Section 3.9.12.2.1 for a description and default values of the parameter. Command Syntax npu(config-bs-66053-airframe)# no general [preamble-grp ] Privilege Level 10 Command Modes bs airframe configuration mode 3.9.12.3.
Chapter 3 - Operation and Administration of the Macro BTS Privilege Level 10 Command Modes bs airframe configuration mode 3.9.12.3.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu(config-bs-66053-airframe)# no mimo NOTE Refer to Section 3.9.12.2.7 for a description and default values of these parameters. Command Syntax npu(config-bs-66053-airframe)# no mimo [first-zone-min-size ] Privilege Level 10 Command Modes bs airframe configuration mode 3.9.12.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Map Zone (refer to Section 3.9.12.5.2) Downlink Diversity (refer to Section 3.9.12.5.3) Uplink Feedback Zone (refer to Section 3.9.12.5.4) Downlink Data Zone (refer to Section 3.9.12.5.5) Uplink Data Zone (refer to Section 3.9.12.5.6) Mimo (refer to Section 3.9.12.5.7) All (refer to Section 3.9.12.5.8) 3.9.12.5.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Display Format (for each existing Neighbor BS in each of the existing BSs if requested for all) Command Modes 3.9.12.5.2 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 Airframe General parameters of a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show airframe-mapzone bs Command Syntax npu# show airframe-mapzone bs [<(1 to 16777215 StepSize 1)> ] Privilege Level 1 Syntax Description Display Format (for each existing Neighbor BS in each of the existing BSs if requested for all) Command Modes 3.9.12.5.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Specify the BS ID if you want to display configuration for a particular BS. For example, to display the Airframe Downlink Diversity parameters of BS 66503, run the following command: npu# show airframe-dldiversity bs 66053 Do not specify the BS ID if you want to view configuration information for all existing BSs.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes 3.9.12.5.4 Managing BSs Global command mode Displaying Configuration Information for Airframe Uplink Feedback Zone Parameters To display configuration for the Airframe Uplink Feedback Zone parameters, run the following command: npu# show airframe-ulfeedbackzone bs [<(1 to 16777215 StepSize 1)>] Specify the BS ID if you want to display configuration for a particular BS.
Chapter 3 - Operation and Administration of the Macro BTS Display Format BSIDLSB Managing BSs : ULFeedbackZonePermutationBase : (for each existing Neighbor BS in each of the existing BSs if requested for all) Command Modes 3.9.12.5.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Display Format 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 Downlink Data Zone parameters of a specific BS. Do not specify a value for this parameter if you want to display the Airframe Downlink Data Zone parameters of all BSs.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show airframe-uldatazone bs Command Syntax npu# show airframe-uldatazone bs [<(1 to 16777215 StepSize 1)> ] Privilege Level 1 Syntax Description Display Format 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 Uplink Data Zone parameters of a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show airframe-mimo 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 Airframe MIMO parameters of BS 66503, run the following command: npu# show airframe-mimo bs 66053 Do not specify the BS ID if you want to view configuration information for all existing BSs.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes 3.9.12.5.8 Managing BSs Global command mode Displaying Configuration Information for All Airframe Parameters To display configuration for all Airframe parameters, run the following command: npu# show airframe-all bs [<(1 to 16777215 StepSize 1)>] Specify the BS ID if you want to display configuration for a particular BS.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs 3.9.13 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 3.9.13.1). Restore the default values of some or all of the Bearer Interface parameters (refer to Section 3.9.13.2).
Chapter 3 - Operation and Administration of the Macro BTS Command Modes Managing BSs [ip-address ] The IP address of the bearer interface of the BS. Must be unique in the network. All BS bearer interfaces of the unit should be in the same subnet, together with the NPU’s bearer interface (if applicable). Mandatory when creating a new BS. N/A IP address [ip-subnetmask ] The IP subnet mask of the bearer interface of the BS Mandatory when creating a new BS.
Chapter 3 - Operation and Administration of the Macro BTS Command Syntax npu(config-bs-66053)# no bearer [bearer-vlan ] Privilege Level 10 Command Modes bs configuration mode 3.9.13.3 Managing BSs Displaying Configuration Information for Bearer Interface Parameters To display configuration information of Bearer Interface parameters, run the following command: npu# show bearer bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display information for a particular BS.
Chapter 3 - Operation and Administration of the Macro BTS 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.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs You can display configuration information for the Authentication parameters of a selected or all existing BSs (refer to Section 3.9.14.3). 3.9.14.
Chapter 3 - Operation and Administration of the Macro BTS [activemsthrshld <(0 to 1024 StepSize 1)> ] 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”. Managing BSs Optional 1024 0 to 1024 Optional 100 0 to 100 A value of 0 means that the alarm is disabled. [maxeaproundsthrshl d <(0 to 100 StepSize 1)> ] Threshold for the number of EAP rounds in one direction in the same EAP session.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs maxeaproundsthrshld parameters to the default values, run the following command: npu(config-bs-66053)# no auth-general activemsthrshld maxeaproundsthrshld These parameters will be restored to their default values, while the other parameters will remain unchanged. To restore all Authentication parameters to their default value, run the following command: npu(config-bs-66053)# no auth-general NOTE Refer to Section 3.9.14.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Command Syntax npu# show auth-general bs [<(1 to 16777215 StepSize 1) Privilege Level 1 Syntax Description Display Format 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 Authentication parameters of a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS 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 3 - Operation and Administration of the Macro BTS Managing BSs 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. Bits 0-4 indicate whether specific services are supported, where a value of 1 means that the service is supported: UGS (0), RT-PS(1), NRT-PS(2), BE(3), ERT-PS(4). A string of two hexadecimal digits.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.16.1 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 3 - Operation and Administration of the Macro BTS Syntax Description Command Modes Managing BSs 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(config-bs-66053)# bearertrafficqos 1 NOTE The following examples are for BS Bearer Traffic QoS Marking
Chapter 3 - Operation and Administration of the Macro BTS Command Syntax Managing BSs npu(config-bs-66053-bearertrafficqos-1)# mrkngrule [rule-status {Enable | Disable} ] [rule-name ] [srvcflow-datadeliverytype {uGS | rTVR | nRTVR | 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)> ] Privileg
Chapter 3 - Operation and Administration of the Macro BTS srvcflow-mediaflowty pe One of key entries into the traffic marking rules table. Media Flow Type should be defined in ASN-GW or AAA server. Managing BSs Mandatory when creating a new rule (if relevant) N/A A string of up to 32 characters Only relevant if enable-srvcflow-mediaflowtyp e (see below) is TRUE. Command Modes 3.9.16.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs To restore all Bearer Traffic QoS Marking Rule non-mandatory parameters to their default value, run the following command: npu(config-bs-66053-bearertrafficqos-1)# no mrkngrule NOTE Refer to Section 3.9.16.2 for a description and default values of these parameters.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Command Syntax npu(config-bs 66053)# no bearertrafficqos <(1 to 16383 StepSize 1)> Privilege Level 10 Syntax Description Command Modes 3.9.16.
Chapter 3 - Operation and Administration of the Macro BTS Privilege Level Syntax Description Display Format (for each existing Service Mapping Rule if requested for all Service Mapping Rules) 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 3 - Operation and Administration of the Macro BTS Managing BSs 3.9.17 Managing Control Traffic QoS Marking Rules Control Traffic QoS Marking Rules are used to define the DSCP and VLAN Priority (802.1p) value to be used for marking of internal management traffic (management traffic to/from the AUs) and intra-ASN (R8/R6) management traffic. To configure the Control Traffic QoS Marking Rules: 1 Enable the Control Traffic QoS Marking Rules configuration mode (refer to Section 3.9.17.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs After executing the above tasks, you can terminate the Control Traffic QoS Marking Rules configuration mode (refer to Section 3.9.17.4) and return to the BS configuration mode. Command Syntax npu(config-bs-66053)# ctrltrafficqos Privilege Level 10 Command Modes bs configuration mode 3.9.17.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Command Modes 3.9.17.2.2 Managing BSs 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 3 - Operation and Administration of the Macro BTS Command Modes 3.9.17.3 Managing BSs bs control traffic qos marking rules (ctrltrafficqos) configuration mode Restoring Default Values for Control Traffic QoS Marking Rules Configuration Parameters After enabling the Control Traffic QoS Marking Rules configuration mode you can restore the default values for parameters in the following parameters tables: Internal Management (refer to Section 3.9.17.3.1) Intra ASN (refer to Section 3.9.17.3.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes 3.9.17.3.
Chapter 3 - Operation and Administration of the Macro BTS Command Syntax npu(config-bs-66053-ctrltrafficqos)# exit Privilege Level 10 Command Modes bs control traffic qos marking rules (ctrltrafficqos) configuration mode 3.9.17.5 Managing BSs Displaying Configuration Information for Control Traffic QoS Marking Rules Parameters You can display the current configuration information for the following parameters tables: Internal Management (refer to Section 3.9.17.5.
Chapter 3 - Operation and Administration of the Macro BTS Privilege Level Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes 3.9.17.5.2 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 the Internal Management Traffic QoS Marking Rules parameters of a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs 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 ctrltrafficqos-intraasn bs Command Syntax npu# show ctrltrafficqos-intraasn bs [<(1 to 16777215 StepSize 1) Privilege Level 1 Syntax Description Display Format (for each existing BS if requested for all BSs) Command Modes 3.9.17.5.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show ctrltrafficqos-all bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display configuration for a particular BS. For example, to display all Control Traffic QoS Marking Rules parameters of BS 66053, run the following command: npu# show ctrltrafficqos-all bs 66053 Do not specify this parameter if you want to view configuration information for all existing BSs.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes Managing BSs Global command mode 3.9.18 Managing ID-IP Mapping Parameters After enabling the BS configuration mode, you can execute the following tasks: Configure one or more ID-IP Mapping entry (refer to Section 3.9.18.1). Delete one or more ID-IP Mapping entries (refer to Section 3.9.18.2). You can display configuration information for the ID-IP Mapping of a selected or all existing BSs (refer to Section 3.9.18.3). 3.9.18.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes Managing BSs bs configuration mode IMPORTANT When creating a new BS, at least one ID-IP Mapping entry must be configured. 3.9.18.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show idip bs 66053 nw-node-id 66055 Do not specify these parameters if you want to view information of ID-IP Mapping entries in all existing BSs.
Chapter 3 - Operation and Administration of the Macro BTS Display Format (for each entry if requested for all) Command Modes 4Motion BSIDLSB NetworkNodeID NetworkNodeIPAddress Managing BSs : : : Global command mode 618 System Manual
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs 3.9.19 Managing Ranging Parameters To configure the Ranging parameters: 1 Enable the Ranging configuration mode (refer to Section 3.9.19.1) 2 You can now execute any of the following tasks: » Configure the Ranging General parameters (refer to Section 3.9.19.2) » Restore the default values of one or more of the Ranging General parameters (refer to Section 3.9.19.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes 3.9.19.
Chapter 3 - Operation and Administration of the Macro BTS max-cellradius {one | two | four | eight | fifteen | twentyThree | thirty} The Maximum Cell Radius (in km) Managing BSs Optional two one two four eight fifteen twentyThree thirty Command Modes 3.9.19.
Chapter 3 - Operation and Administration of the Macro BTS Privilege Level 10 Command Modes bs ranging configuration mode 3.9.19.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show ranging-general bs Command Syntax npu# show ranging-general 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 the Ranging General par
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs You can display configuration and status information for the Alarm Threshold parameters of a selected or all existing BSs (refer to Section 3.9.20.3). 3.9.20.
Chapter 3 - Operation and Administration of the Macro BTS ul-mednoise <(-135 to -100 StepSize 1)> The uplink median noise level represents the median value of the noise floor histogram. If the uplink median noise level exceeds this value, an excessive uplink median noise alarm will be generated. Managing BSs Optional -124 -135 to -100 The value is in dBm/tone.
Chapter 3 - Operation and Administration of the Macro BTS [ert-exc-dl-dr op-thr <(1 to 1000 StepSize 1)> ] Command Modes 3.9.20.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.20.3 Managing BSs Displaying Configuration Information for Alarm Threshold Parameters To display configuration information of Alarm Threshold parameters, run the following command: npu# show alrm-thrshld bs [<(1 to 16777215 StepSize 1) Specify the BS ID if you want to display information for a particular BS.
Chapter 3 - Operation and Administration of the Macro BTS Display Format (for each existing BS if requested for all BSs) BSIDLSB Managing BSs : UplinkMedNoise Uplink99%Noise(dBm) : ThresholdforExcessiveDLDroppedPacketsRatioBestEffort: ThresholdforExcessiveDLDroppedPacketsRatioRealTime: ThresholdforExcessiveDLDroppedPacketsRatioNonRealTime: ThresholdforExcessiveDLDroppedPacketsRatioUgs ThresholdforExcessiveDLDroppedPacketsRatioErt Command Modes : : G
Chapter 3 - Operation and Administration of the Macro BTS 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 3 - Operation and Administration of the Macro BTS 3.9.22.1 Managing BSs Configuring BS Keep-Alive Parameters To configure one or several keep-alive parameters, run the following command: npu(config-bs-66053)# keep-alive [asn-ka {enable | disable} ] [period <(10 to 1000 StepSize 1)> ] [rtx-cnt <(0 to 10 StepSize 1)> ] [rtx-time <(5000 to 10000 StepSize 1)> ] IMPORTANT An error may occur if you provide an invalid value for any of these parameters.
Chapter 3 - Operation and Administration of the Macro BTS [rtx-time <(5000 to 10000 StepSize 1)> ] Command Modes 3.9.22.2 Time in milliseconds to wait for a response before initiating another polling attempt or reaching a decision that the polled entity has failed (if the maximum number of retries set by rtx-cnt has been reached).
Chapter 3 - Operation and Administration of the Macro BTS Display Format Managing BSs BSIDLSB Keep Alive Configuration ASN-KA : Period (sec) : Retransmissions Count : Retransmission Time : Command Modes Global command mode 3.9.23 Managing the BS Idle Mode Parameters The single sector Idle Mode capability provides the benefits of MS power savings and manageable total sector active and non active users, together with reduced overhead on the backhaul network.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Command Syntax npu(config-bs-66053)# idle-mode [paging-group-id <(0 to 65535 StepSize 1)>] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values [paging-group-id <(0 to 65535 StepSize 1)> ] The Paging Group ID of the BS. Mandatory 0 0 to 65535 0 means that Idle Mode is disabled. If other than 0 (disable), should be unique in the network (different paging-group for each BS).
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Display Format Managing BSs Parameter Description Presence Default Value Possible Values [<(1 to 16777215 StepSize 1)> ] The BS ID Optional N/A 1-16777215 BSIDLSB : PagingGrpId : Specify a value for this parameter if you want to display the Idle Mode Paging Group ID Parameter of a specific BS.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs fairness among users, while ER scheduling scheme ensures maximum data-rate fairness among users at the expense of lower aggregate sector throughput. Using ER scheduling scheme exposes the system to excessive allocation of air resources to highly active users having relatively poorer channel conditions.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.24.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.24.2 Managing BSs Restoring the Default Values of Scheduler Parameters To restore the default values of some or all of the Scheduler parameters, run the following command: npu(config-bs-66053)# no scheduler [scheduler-mode ] [dl-abuse-protection-level ] [ul-abuse-protection-level ] You can restore only some parameters to the default values by specifying only those parameter.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Specify the BS ID if you want to display information for a particular BS. For example, to display the Scheduler parameters of BS 66053, run the following command: npu# show scheduler bs 66053 Do not specify this parameter if you want to view information for all existing BSs.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs 3.9.25 Managing the BS ASN-GW Load Balancing Parameters The Load Balancing feature provides a WiMAX operator with the capability to build resilient ASN infrastructure using ASN-GW redundancy. Every BS is provisioned with a list of redundant ASN-GWs (pool). The BS applies round-robin mechanism in order to pick an Authenticator for each MS that performs initial network entry.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs Command Syntax npu(config-bs-66053)# asNGWLoadBalancing Privilege Level 10 Command Modes bs configuration mode 3.9.25.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.25.3 Managing BSs Restoring the Default Configuration of ASN-GW Load Balancing Pools After enabling the ASN-GW Load Balancing configuration mode, run the following command to restore the default configuration of ASN-GW load balancing pools: npu(config-bs-5-ASNGWLoadBalancing)# no ASNGWLoadBalancing [asn-gw-pool-1 ] [asn-gw-pool-2 ] Specify a pool to restore the configuration of this pool to the default value (enabled).
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs npu# show ASNGWLoadBalancing 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 ASN-GW Load Balancing configuration parameters of BS 66053, run the following command: npu# show ASNGWLoadBalancing bs 66053 Do not specify this parameter if you want to view information for all existing BSs.
Chapter 3 - Operation and Administration of the Macro BTS Managing BSs After enabling the Beam Forming configuration mode, you can execute the following tasks: Configure the Beam Forming parameter (refer to Section 3.9.26.2). Restore the default values of the Beam Forming parameter (refer to Section 3.9.26.3). You can display configuration value for the beamforming parameter of a selected or all existing BSs (refer to Section 3.9.26.4). 3.9.26.
Chapter 3 - Operation and Administration of the Macro BTS 3.9.26.3 Managing BSs Restoring the Default Value of the Beam Forming Parameter To restore the default values of the Beam Forming parameters, run the following command: npu(config-bs-66053)# no beamform [cal-atten ] Command Syntax npu(config-bs-66053)# no beamform [cal-atten ] Privilege Level 10 Command Modes bs beamform configuration mode 3.9.26.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Display Format 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 parameters of a specific BS. Do not specify a value for this parameter if you want to display parameters of all BSs.
Chapter 3 - Operation and Administration of the Macro BTS 3.10 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 3.10.1 “Configuring Sector Association Entries”, Section 3.10.2 3.10.
Chapter 3 - Operation and Administration of the Macro BTS Managing Sectors To create a new Sector object, the width parameter must be specified. Run the following command to create a new Sector object and enable the parameters configuration mode for this ODU: npu (config)# sector-params <(1 to 6 StepSize 1)> [width <(0 to 359 StepSize 1)>] A new Sector object is created with default values for all parameters except to the mandatory width parameter.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes Managing Sectors <(1 to 6 StepSize 1)> The Sector ID Mandatory N/A 1-6 width <(0 to 359 StepSize 1)> The planned sector coverage, in degrees. Mandatory when creating a new Sector N/A 0 - 359 Global configuration mode NOTE The following examples are for sector-1 parameters configuration mode. 3.10.1.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Command Modes 3.10.1.2.2 Managing Sectors Parameter Description Presence Default Value Possible Values sector-name The sector name (description). Must be unique in the site (shelf). Optional null (empty string) A string of up to 32 characters heading <(0 to 359 StepSize 1)> The sector heading (The center angle of the sector), in degrees.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Command Modes 3.10.1.3 Managing Sectors 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 3 - Operation and Administration of the Macro BTS Command Modes 3.10.1.3.2 Managing Sectors sector-params configuration mode Restoring the Default Values of Sector Reserved Parameters To restore Sector Reserved parameters to their default value, run the following command: npu(config-sector-params-1)# no sector-reserved [reserved-1] [reserved-2] [reserved-3] [reserved-4] You can restore only selected parameters to their default value by specifying only those parameter.
Chapter 3 - Operation and Administration of the Macro BTS Command Syntax npu(config-sector-params-1)# exit Privilege Level 10 Command Modes sector-params configuration mode 3.10.1.5 Managing Sectors Deleting a Sector Object Run the following command to delete a Sector object: npu(config)# no sector-params <(1 to 6 StepSize 1)> IMPORTANT An associated Sector (specified in a Sector Association) cannot be deleted.
Chapter 3 - Operation and Administration of the Macro BTS Managing Sectors Sector Reserved (refer to Section 3.10.1.6.2) 3.10.1.6.1 Displaying Configuration Information for Sector Definition Parameters To display configuration information for the Sector Definition parameters of a specific or all Sector objects, run the following command: npu# show sector-definition [sector-id <(1 to 6 StepSize 1)>] Specify the Sector ID (1-6) if you want to display configuration information for a particular Sector.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes 3.10.1.6.2 Managing Sectors Global command mode Displaying Configuration Information for Sector Reserved Parameters To display configuration information for the reserved parameters of a specific or all Sector objects, run the following command: npu# show sector-reserved [sector-id <(1 to 6 StepSize 1)>] Specify the Sector ID (1-6) if you want to display configuration for a particular Sector.
Chapter 3 - Operation and Administration of the Macro BTS Command Modes Managing Sectors Global command mode 3.10.2 Configuring Sector Association Entries The Sector Association entry defines all the components that together form a Sector. Because of the unique functionality of Sector Association entries, they can only be created: An existing Sector Association entry cannot be modified (to modify an entry, it must first be deleted and then created again with the modified values).
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Command Modes Managing Sectors Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> BS ID (bs-id-lsb) Mandatory N/A 1-16777215 <(1 to 4 StepSize 1) | (7 to 9 StepSize 1)> AU Slot ID Mandatory N/A 1-4, 7-9 <(1 to 4 StepSize 1)> AU Port Number Mandatory N/A 1-4 sector-id <(1 to 6 StepSize 1)> Sector ID Mandatory N/A 1-6 odu-no <(1 to 28 StepSize 1)> ODU Number Mandat
Chapter 3 - Operation and Administration of the Macro BTS Managing Sectors The specified AU object exists (see Section 3.6). The specified ODU object exists (the mandatory parameters required-type and txpower for port 1 have been configured). The configured txpower is within the valid range for the required ODU type (see Section 3.7). The Antenna object exists (the mandatory heading parameter has been configured). The specified Antenna Port No.
Chapter 3 - Operation and Administration of the Macro BTS Privilege Level Syntax Description Command Modes Managing Sectors 10 Parameter Description Presence Default Value Possible Values <(1 to 16777215 StepSize 1)> BS ID (bs-id-lsb) Mandatory N/A 1-16777215 <(1 to 4 StepSize 1) | (7 to 9 StepSize 1)> AU Slot ID Mandatory N/A 1-4, 7-9 <(1 to 4 StepSize 1)> AU Port Number Mandatory N/A 1-4 Global configuration mode Note that if all Sector Association entries with a particular BS a
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Display Format (for each existing ODU Port if requested for all ODU Ports) Parameter Description Presence Default Value Possible Values BS ID Optional N/A 1-16777215 <(1 to 4 StepSize 1) | (7 to 9 StepSize 1)> AU Slot ID Optional N/A 1-4, 7-9 <(1 to 4 StepSize 1)> AU Port Number Optional N/A 1-4 Specify only if you want to display configuration of a particular Sector Ass
Chapter 3 - Operation and Administration of the Macro BTS 3.11 Monitoring HW and SW Components Monitoring HW and SW Components This section describes the procedures for: “Monitoring Hardware Components” on page 660 “Displaying System Files” on page 667 3.11.
Chapter 3 - Operation and Administration of the Macro BTS Display Format Command Modes 3.11.1.
Chapter 3 - Operation and Administration of the Macro BTS Monitoring HW and SW Components npu# show shelf status Command Syntax npu# show shelf status [{NPU | PSU [] |PIU [] | AVU | Fan []}] Privilege Level 1 Syntax Description Parameter Description Presence Default Value Possible Values [{NPU | PSU [] |PIU [] | AVU | Fan []} Indicates the shelf components for which you want to display the current statu
Chapter 3 - Operation and Administration of the Macro BTS Monitoring HW and SW Components FAN: » FAN#: (1-10) » HlthState:Healthy/Faulty PIU » Slot# (1-2) » AdmnState: Yes/No » ReqHWVer: The configured HW Version- 5 (58A) or 6 (35A) » PrsntState: Installed/Not Installed » HlthState:Healthy/Faulty » OperState: Active/Non-active » InstHWVer: The installed HW Version- 5 (58A,) 6 (35A) or 7 (not installed) PSU 3.11.1.
Chapter 3 - Operation and Administration of the Macro BTS Monitoring HW and SW Components Privilege Level 1 Display Format Current shelf temperature: [Celsius] / [Farenheit] Command Modes Global command mode 3.11.1.4 Displaying Utilization of CPU and Memory Resources for the NPU To display the utilization of CPU and memory resources for the NPU, run the following command: npu# show resource usage After you run this command, the current CPU and memory usage is displayed.
Chapter 3 - Operation and Administration of the Macro BTS 3.11.1.
Chapter 3 - Operation and Administration of the Macro BTS Syntax Description Monitoring HW and SW Components 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 3 - Operation and Administration of the Macro BTS Display Format Monitoring HW and SW Components RATELIMIT COUNTERS: Pre-defined applications -------------------------------------------Application Packets discarded SSH SNMP RATELIMIT COUNTERS: User-defined applications --------------------------------------------Application Packets discarded <
Chapter 3 - Operation and Administration of the Macro BTS Monitoring HW and SW Components npu# show saved {Performance | Active-alarm | Log | User-history} files [recent <1-65535>] For example, if you want to view the 30 most recently saved log files, residing in the TFTP boot directory of the NPU, run the following command: npu# show saved Log files recent 30 Command Syntax npu# show saved {Performance | Active-alarm | Log | User-history} files [recent <1-65535>] Privilege Level 1 Syntax Description
Chapter 3 - Operation and Administration of the Macro BTS Privilege Level 1 Command Modes Global command mode 4Motion 669 Monitoring HW and SW Components System Manual
Chapter 3 - Operation and Administration of the Macro BTS 3.12 Troubleshooting Troubleshooting 3.12.1 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 3 - Operation and Administration of the Macro BTS 3.12.1.1 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 3 - Operation and Administration of the Macro BTS 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 3.12.1.2. IMPORTANT An error may occur if: Tracing is already enabled for the requested destination (file or console). An internal error has occurred.
Chapter 3 - Operation and Administration of the Macro BTS 3.12.1.1.2 Troubleshooting Disabling System-level Tracing To disable tracing at the system-level, run the following command: 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 3 - Operation and Administration of the Macro BTS 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 Trace File : Console : Trace Server : (ServerIP - ) Command Modes 3.12.1.
Chapter 3 - Operation and Administration of the Macro BTS Troubleshooting You can also disable tracing for a particular module. This section describes the commands to be used for: “Configuring Trace Levels” on page 675 “Disabling Module-level Tracing” on page 676 “Displaying Trace Levels” on page 677 NOTE By default, module-level tracing is disabled. 3.12.1.2.
Chapter 3 - Operation and Administration of the Macro BTS Troubleshooting npu(config)# trace level SIGASN Detailed 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 3 - Operation and Administration of the Macro BTS Troubleshooting For example, run the following command if you want to disable tracing for WiMAX signaling protocols: 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}
Chapter 3 - Operation and Administration of the Macro BTS Troubleshooting Specify the module for which you want to view the configured trace level. If you do not specify the name of the module, the trace levels configured for all modules is displayed.
Chapter 3 - Operation and Administration of the Macro BTS Troubleshooting monitoring for source and destination interfaces or displaying configuration information for a particular interface. To enable port monitoring, you are required to configure: 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.
Chapter 3 - Operation and Administration of the Macro BTS 3.12.2.1 Troubleshooting Enabling the Port Monitoring Session The port monitoring session refers to the association of a destination interface with one or more source interfaces. You can monitor incoming, outgoing or both types of traffic that is mirrored from the source interface to the destination interface. NOTE For the current release, only one monitor session can be set up.
Chapter 3 - Operation and Administration of the Macro BTS Privilege Level Syntax Description Troubleshooting 10 Parameter Description Presence Default Value Possible Values {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 3 - Operation and Administration of the Macro BTS Command Modes 3.12.2.2 Troubleshooting Global configuration mode 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 3 - Operation and Administration of the Macro BTS Syntax Description Troubleshooting Parameter Description Presence Default Value Possible Values [{source interface 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 3 - Operation and Administration of the Macro BTS 3.12.2.
Chapter 4 Operation and Administration of the Micro BTS
Chapter 4 - Operation and Administration of the Micro BTS In This Chapter: “Micro BTS System Management” on page 687 “The Monitor Program” on page 688 “IP Addresses Configuration” on page 691 “The Main Menu” on page 692 “BTS Menu” on page 693 “Sector Menu” on page 706 “BS Menu” on page 708 “Equipment Menu” on page 735 “GPS Menu” on page 740 4Motion 686 System Manual
Chapter 4 - Operation and Administration of the Micro BTS 4.1 Micro BTS System Management Micro BTS System Management The Micro BTS can be managed using any of the following options: SNMP based management using AlvariSTAR/AlvariCRAFT (or another network management system customized to support management of the system). Using Telnet to access the embedded Monitor application via the Ethernet port. Accessing the embedded Monitor application locally via the MON port.
Chapter 4 - Operation and Administration of the Micro BTS 4.2 The Monitor Program 4.2.1 Accessing the Monitor Program The Monitor Program To access the Monitor program via the MON connector: 1 Use the Monitor cable to connect the MON connector to the COM port of your ASCII ANSI terminal or PC. The COM port connector on the Monitor cable is a 9 pin D type plug. 2 Run a terminal emulation program, such as HyperTerminal™.
Chapter 4 - Operation and Administration of the Micro BTS 4.2.2 The Monitor Program Using the Monitor Program This section describes the Monitor program structure and navigation rules. Each menu or submenu specifies the unit type, the management IP address, the running SW version and a description of the menu. Each menu or submenu displays a list of numbered options. To access an option, enter the number of the required option at the > prompt.
Chapter 4 - Operation and Administration of the Micro BTS The Monitor Program Select the Exit option in the Main menu to exit the program and terminate the session.
Chapter 4 - Operation and Administration of the Micro BTS IP Addresses Configuration 4.3 IP Addresses Configuration 4.3.1 IP Address Configuration Restrictions 1 The following IP addresses should not be used and will be rejected: 0.0.0.0 224.0.0.0 - 255.255.255.255 (Multicasts, RFC 3171 D, RFC 1700 E) 4.3.2 IP Subnets In a binary representation (32 bits) a Subnet Mask string must comprise a series of contiguous binary '1's starting from the MSB, followed by a series of contiguous binary '0's.
Chapter 4 - Operation and Administration of the Micro BTS 4.
Chapter 4 - Operation and Administration of the Micro BTS 4.5 BTS Menu BTS Menu The BTS menu includes the following options: “General” “Connectivity” “Unit Control” “Management” 4.5.1 General The BTS General submenu enables viewing the current values and updating the general BTS parameters. The BTS General parameters are: “BTS Number” “BTS Name” “BTS Address” “Contact Person” 4.5.1.1 BTS Number A BTS identifier for management purposes. Should be unique in the managed network.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu The default is null (an empty string). 4.5.1.4 Contact Person An optional descriptive parameter. A string of up to 32 printable characters. The default is null (an empty string). 4.5.2 Connectivity The Connectivity submenu includes the following options: “Management Interface” “ASN-GW Load Balancing Pools” “L1 & L2” 4.5.2.
Chapter 4 - Operation and Administration of the Micro BTS 4.5.2.1.3 BTS Menu IP Subnet mask The Subnet Mask of the Management interface. The default is 255.255.255.0. 4.5.2.1.4 802.1P Priority The 802.1P (VLAN) Priority of management traffic. The range is 0-7. The default is 0. 4.5.2.1.5 DSCP The DSCP value of management traffic. The range is 0-63. The default is 0. 4.5.2.1.6 Next Hop Gateway The Default Gateway IP address of the Management interface. The default is 0.0.0.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu unique number in the range from 1 to 10) before defining the ASN-GW IP address. An IP address must be unique per both pools. Select: Use this option to select an entry in the pool by it’s index. You can then view the entry’s IP address, update the IP address, or delete the entry. 4.5.2.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu “ShutDown Operation” 4.5.3.1 Reset Select this option to reset the BTS. To avoid unintentional reset, you will be prompted to confirm the reset request. Changes to some of the configurable parameters are applied only after reset. 4.5.3.2 Monitor Inactivity Timeout The Monitor Inactivity Timeout (min) parameter determines the amount of inactive time following which the unit automatically exits the Monitor program.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu The SW Version Control menu includes the following options: “SW Inventory” “SW Version Control” 4.5.3.3.1 SW Inventory Select this option to view the current available versions and the running version: Operational SW Version Number Shadow SW Version Number Current Running SW Source: Operational or Shadow 4.5.3.3.
Chapter 4 - Operation and Administration of the Micro BTS 4.5.3.3.2.3 BTS Menu Load to Shadow The Load to Shadow option enables initiating a process of loading a new SW file to the BTS. The loaded SW file will be stored as the new Shadow file. The IP address of the TFTP Server holding the SW file to be loaded is defined by the TFTP Server parameter (see “TFTP Server” on page 699) You will be prompted to enter the File Path And File Name (up to 80 characters) 4.5.3.3.2.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu Show: Select this option to view the details of the last request for restoring a configuration file from an external TFTP server. The displayed details include: » File Name » TFTP Server IP Address » Process Status Update: Select this option to initiate a new process of restoring a configuration file from an external TFTP server.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu Update: Select this option to initiate a new process of restoring a local configuration file. You will be prompted to define the following parameters: » Restore From Local Backup: Select noAction or restoretoRAM. If you selected restoretoRAM, you will be prompted to select the name of the local file. » Local File Name: The name of the local backup file to be restored. A string comprising 1 to 30 characters.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu IMPORTANT Before shutting down the system, it is recommended that you save the configuration file. The last saved configuration is used for rebooting the system. After shutting down the system you cannot restart it from remote. To start up the unit (after shut down), switch off and then switch on the power supply, reset: Select this option to reset the BTS. To avoid unintentional reset, you will be prompted to confirm the reset request.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu “SNMP Traps Managers” “Authorized Managers” 4.5.4.1 SNMP Traps Managers Up to 5 SNMP Traps Managers can be defined. The SNMP Trap Managers menu includes the following options: “Show” “Add” “Select” 4.5.4.1.0.1 Show Select this option to view the details of the currently defined SNMP Traps Managers. 4.5.4.1.0.2 Add Select this option to add a new SNMP Traps Manager.
Chapter 4 - Operation and Administration of the Micro BTS BTS Menu 4.5.4.1.0.2.3 Community The name of the SNMP Read Community used by the Trap Manager. Traps are sent toward those Managers for which this parameter is configured. A string of up to 10 printable characters, case-sensitive. 4.5.4.1.0.2.4 Enable Traps Distribution Indicates whether the sending of traps to the management station is enabled or disabled. 4.5.4.1.0.
Chapter 4 - Operation and Administration of the Micro BTS 4.5.4.2.2 BTS Menu Add Select this option to add a new authorized manager. Up to 5 Authorized Managers can be defined. The following parameters can be configured: “Manager Number” “Read Community” “Write Community” 4.5.4.2.2.1 Manager Number A unique number from 1 to 5. 4.5.4.2.2.2 Read Community The SNMP Read Community to be used by the Authorized Manager.
Chapter 4 - Operation and Administration of the Micro BTS 4.6 Sector Menu Sector Menu The unit supports a single sector. The Sector menu includes the following options: “Sector Definition” “Sector Association” 4.6.1 Sector Definition The Sector Definition menu enables viewing or modifying the sector description parameters which are informative descriptions for inventory purposes. The Sector Definition parameters are: 4.6.1.1 Name The sector name.
Chapter 4 - Operation and Administration of the Micro BTS Sector Menu Sector Association Id: 1 Radio Number: 1 and 2 Radio Port Number: 1 Antenna Number: 1 ( Antenna Port Number: 1 and 2 Note: Two vertical antennas are treated as one Antenna with 2 ports 4Motion 707 System Manual
Chapter 4 - Operation and Administration of the Micro BTS 4.7 BS Menu BS Menu The unit supports a single BS. The BS menu enables defining the BS, updating the BS parameters or deleting the BS (the BS ID LSB of an existing BS cannot be modified. To change the BS ID LSB, you must delete the BS and re-define it). The BS menu includes two options: “Add” “Select” 4.7.1 Add Select the Add option to define the BS. Only a single BS can be defined.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.1.5 BS Menu Cell ID The Cell ID (IDCell) used for preamble selection. The range is from 0 to 31. 4.7.1.6 Segment Number The segment (BS) number in a three sector BS (0-2). 4.7.1.7 Total Uplink Duration The total duration of the uplink in a frame, in slots (one slot equals 3 symbols). To avoid BS-BS interference, the ul-dl-allocation must be identical in all BSs in a geographical region.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.1.10 BS Menu DL Permutation Base The permutation base used in the downlink data zone. The valid range is from 0 to 31. 4.7.1.11 Permutation Base The permutation base used in the uplink feedback zone. The valid range is from 0 to 69. 4.7.1.12 UL Permutation Base The permutation base used in the uplink data zone. The valid range is from 0 to 69. 4.7.1.13 IP Address The IP address of the bearer interface of the BS.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.2 BS Menu Select Select the BS to view or update its parameters or to delete it. BS is selected by its BS ID LSB. The selected BS menu includes the following options: “General” “Air Frame Structure Zones” “Mobility” “Power Control” “Feedback” “Air Frame Structure General” “Connectivity” “Management” “Keep Alive” “Scheduler” 4.7.2.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu “Center Frequency” “Bandwidth” “Paging Group ID” 4.7.2.1.1 Operator ID The unique identifier of the wireless network operator. The same Operator ID must be used by all BSs in the managed wireless network. A number in the range 1-16777215. The Operator ID used in the system is in the format A.B.C where A, B, C are from 0 to 255. The Operator used in the Monitor program is an integer that is calculated by the formula A*65536+B*256+C.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu During IM, MS performs location updates when moving from one PG to another. While in the same PG, MS does not need to transmit in the UL and can be paged in the DL if there is traffic targeted at it. The range of the Paging Group ID parameter is from 0 to 65535. 0 means that Idle Mode is not enabled. If Idle Mode is enabled (Paging Group ID is not 0), must be unique in the network (different Paging Group ID for each BS). 4.7.2.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu ctcQamSixteenOneOverTwo 16-QAM 1/2 ctcQamSixteenThreeOverFour (16-QAM 3/4) ctcQamSixtyFourOneOverTwo (64-QAM 1/2) ctcQamSixtyFourTwoOverThree (64-QAM 2/3) ctcQamSixtyFourThreeOverFour (64-QAM 3/4) ctcQamSixtyFourFiveOverSix 64-QAM 5/6 The default is ctcQpskOneOverTwo (QPSK 1/2). 4.7.2.2.1.2 UL Permutation Base The permutation base used in the uplink data zone. The valid range is from 0 to 69. 4.7.2.2.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu ctcQamSixteenThreeOverFour (16-QAM 3/4) ctcQamSixtyFourOneOverTwo (64-QAM 1/2) ctcQamSixtyFourTwoOverThree (64-QAM 2/3) ctcQamSixtyFourThreeOverFour (64-QAM 3/4) ctcQamSixtyFourFiveOverSix 64-QAM 5/6 The default is ctcQpskOneOverTwo (QPSK 1/2). 4.7.2.2.2.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.2.2.3 BS Menu First Zone The First Zone menu enables viewing/updating the values configured for the following parameters: “Major Group” “Basic Map Repetition” “Minimum Size” “Maximum Size” “Maximum Map Size” 4.7.2.2.3.1 Major Group The major groups allocated to the BS for maps transmission. Two hexadecimal digits in the range 00 to fc, representing 8 bits numbered 0 to 7 (left to right).
Chapter 4 - Operation and Administration of the Micro BTS 4.7.2.2.3.3 BS Menu Minimum Size The initial size (in symbols) of the first zone. When reuse 3 is used within first zone, this parameter should be equal across all BSs within deployment. The available options are 2, 4,....34 (2xN where N=1-17) or No Limitation. The default is No Limitation. See limitations in “First Zone Minimum Size Recommended Value Range” table below. Other values should be avoided.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu Recommended values for First Zone Minimum Size and Maximum Size: Table 4-2: First Zone Minimum Size Recommended Value Range Bandwidth (MHz) First Zone Scheme* Basic Map Repetition Minimum Size (symbols) (up to a maximum of Y as defined below) 7/10 Full Loading 6 No Limitation or 8+2N 4 No Limitation or 6+2N 2 No Limitation or 4+2N 1 No Limitation or 4+2N 6 N/A (non trivial configuration) 4 8+2N 2 6+2N 1 6+2N 6 N/A (n
Chapter 4 - Operation and Administration of the Micro BTS BS Menu The value of Y that sets the upper limit for the Minimum and Maximum Size parameters depends on the Maximum Cell Radius and Total Uplink Duration parameters, using the following formula: Y=A-3*(Total Uplink Duration)-(Extra TTG), where A=46 for BW of 5 or 10 MHz, and 32 for BW of 7 MHz.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu used only if all MSs served by the BS support RCID. When enabled, CIDs of either 7 or 11 bits will be dynamically used, according to the current number of MS served at each given moment. The RCID Usage defines whether RCID is enabled or disabled. The default is Disable. 4.7.2.3 Mobility The Mobility menu enables viewing/updating the values configured for the following parameter: 4.7.2.3.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu “Required C/N Levels - 64-QAM 5/6” “Allowed Interference Level” 4.7.2.4.1 Target Ni The target noise and interference level for the PUSC zone, in dBm. The range is from -130 to -110 in steps of 1 (dBm). The default is -127. 4.7.2.4.2 Required C/N Levels - ACK The C/N in dB required for sending ACK, reported to the MS for power control purposes. The range is from -20 to 50 (dB). The default is 7. 4.7.2.4.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu Must be in the range from Required C/N Levels - QPSK 1/2 - 16 to Required C/N Levels - QPSK 1/2 + 14. The default is 16. 4.7.2.4.7 Required C/N Levels -16-QAM 1/2 The C/N in dB required for transmitting 16-QAM 1/2, reported to the MS for power control purposes. The range is from -20 to 50 (dB). Must be in the range from Required C/N Levels - QPSK 3/4 - 8 to Required C/N Levels - QPSK 3/4 + 7. The default is 19. 4.7.2.4.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.2.4.12 BS Menu Required C/N Levels - 64-QAM 5/6 The C/N in dB required for transmitting 64-QAM 5/6, reported to the MS for power control purposes. The range is from -20 to 50 (dB). Must be in the range from Required C/N Levels - 64-QAM 3/4 - 8 to Required C/N Levels - 64-QAM 3/4 + 7. The default is 28. 4.7.2.4.13 Allowed Interference Level This parameter defines the correction of maximum allowed UL SINR based on measured DL SINR.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.2.6 BS Menu Air Frame Structure General The Air Frame Structure General menu enables viewing/updating the values configured for the following parameters: “Cell ID” “Preamble Group” “Segment Number” “Preamble Index” “Total Uplink Duration” “Operational Status Channel 1” “Operational Status Channel 2” “Neighbor with Beamforming” 4.7.2.6.1 Cell ID The Cell ID (IDCell) used for preamble selection. The range is from 0 to 31. 4.7.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu To avoid BS-BS interference, the ul-dl-allocation must be identical in all BSs in a geographical region. The range is 4-7 or 10 for bandwidth of 5 or 10MHz, 3-5 or 7 for bandwidth of 7MHz. 4.7.2.6.6 Operational Status Channel 1 Read-only. The operational status of Channel 1. 4.7.2.6.7 Operational Status Channel 2 Read-only. The operational status of Channel 2. 4.7.2.6.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu “IP Address” “IP Subnet Mask” “Default Gateway” “Vlan ID” “Default Gateway Connectivity Status” 4.7.2.7.1.1 IP Address The IP address of the bearer interface of the BS. Must be unique in the network. Should be in the same subnet, together with the unit’s bearer interface. 4.7.2.7.1.2 IP Subnet Mask The IP subnet mask of the bearer interface of the BS. 4.7.2.7.1.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.2.7.2.2 BS Menu Thresholds - Suspended EAP Process Suspended EAP authentication process threshold. It is used to set an alarm. The range is 0-10000. The default is 10000. Note: The relevant alarm is not supported in current release. 4.7.2.7.2.3 Threshold - Active MSs The threshold for the number of MSs in active operation state (not Idle) served by the BS. Exceeding this threshold sets the alarm “Excessive MS number”. The range is 0-1024.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu 4.7.2.7.3.1.2 802.1p Priority 802.1p priority value to be used for marking of intra-ASN (R8/R6) traffic. The range is 0-7. The default is 0. 4.7.2.7.3.2 Internal Management Traffic QOS Rules The Internal Management Traffic QOS Rules menu enables viewing/updating the values configured for the following parameters: “Diffserv Code Point” “802.1p Priority” 4.7.2.7.3.2.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu 4.7.2.7.3.3.2 Rule Status The status of the rule (Enable or Disable). 4.7.2.7.3.3.3 Marking Rule Name The name of the QoS Marking Rule. An optional s string of up to 32 characters. 4.7.2.7.3.3.4 Service Flow Data Delivery Type The Service Flow Type for data delivery services: ugs, rtvr, nrtvr, be, ertvr, or ANY. 4.7.2.7.3.3.5 Service Flow Traffic Priority The priority of Service Flow traffic. 0-7 or ANY (255). 4.7.2.7.3.3.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu “Primary Pool” “Secondary Pool” 4.7.2.7.4.1 Pools Availability The Pools Availability option enables viewing/updating the status (Enabled/Disabled) of each of the pools. The Secondary Pool can be enabled only if the Primary Pool is enabled. 4.7.2.7.4.2 Primary Pool The Primary Pool option enables viewing the IP Address and current Connectivity Status for each of the ASN-GWs in the pool, based on selection of the ASN-GW Index. 4.7.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu “Best Effort” “RT-VR” “NRT-VR” “UGS” “ERT-VR” 4.7.2.8.2.1 Best Effort The threshold for excessive DL dropped packets ratio (in promils), of DL packets in all Best Effort services, which when exceeded triggers a Best Effort service alarm. The range is from 1 to 1000 (promil). The default is 1000. 4.7.2.8.2.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu “Keep Alive Period” “Polling Period” “Number of Retransmissions” 4.7.2.9.1 Enable Keep Alive Enable/disable the keep-alive mechanism. The default is Disable. The following parameters are applicable only if Keep Alive is enabled. 4.7.2.9.
Chapter 4 - Operation and Administration of the Micro BTS BS Menu Assuming a sector with diversity (different channels conditions) of active users, ET scheme enables higher aggregate sector throughput at the expense of data-rate fairness among users, while ER scheduling scheme ensures maximum data-rate fairness among users at the expense of lower aggregate sector throughput.
Chapter 4 - Operation and Administration of the Micro BTS 4.7.2.10.1 BS Menu Scheduler Mode The basis for allocating excess bandwidth among relevant users: Equal Rate: Throughput Fairness Equal Time: Resource Fairness The selected mode is applicable for both uplink and downlink schedulers. The default is Equal Rate. 4.7.2.10.2 Scheduler DL Abuse Protection Level Applicable only if the selected Scheduler Mode is Equal Rate.
Chapter 4 - Operation and Administration of the Micro BTS 4.8 Equipment Menu Equipment Menu The Equipment menu includes the following options: “AU” “Radio” “Antenna” 4.8.1 AU The AU menu includes the following options: “General” “Control” 4.8.1.1 General The AU General menu enables viewing the general AU properties and status and updating the Required AU Type. 4.8.1.1.1 Required AU Type Read-only according to the HW of the unit.
Chapter 4 - Operation and Administration of the Micro BTS 4.8.1.1.8 Equipment Menu Health Read-only. The health status of the AU card. 4.8.1.1.9 AU MAC Address Read-only. The primary MAC address of the AU card. 4.8.1.1.10 AU MAC Address Secondary Read-only. The secondary MAC address of the AU card. 4.8.1.2 Control The AU Control menu includes the following parameter: 4.8.1.2.1 Shutdown Power Port 1 This parameter can be used to shutdown power to port 1 of the radio.
Chapter 4 - Operation and Administration of the Micro BTS Equipment Menu AAAA = Lower bound of frequency band in MHz, rounded up to the nearest integer. BBBB = Upper bound of frequency band in MHz, rounded down. ZZZ = always 000 in TDD systems. W = always N in TDD systems. PP = maximum transmit power in dBm, rounded down. R = number of receive channels. T = number of transmit channels. C = Y if cavity filter or a gap in the band is present, N if not. O = Reserved (0).
Chapter 4 - Operation and Administration of the Micro BTS 4.8.2.1.8 Equipment Menu Required Port Configuration Read-only. The port configuration according to the properties defined by the installed radio type. 4.8.2.1.9 Serial Number Read-only. The serial number of the radio card. 4.8.2.2 Port The Radio Port menu enables viewing the general radio port properties and status and viewing/updating some general parameters. 4.8.2.2.1 TX Power The required Tx power at the radio port, in dBm.
Chapter 4 - Operation and Administration of the Micro BTS 4.8.3.2 Equipment Menu Mechanical Down Tilt The downwards mechanical tilt of the antenna (in degrees) as opposed to the electrical tilt already integrated in the antenna (and thus taken as reference; instead of the horizontal plane). The range is from -90.0 to 90.0 using 0.1 degree resolution. Used only for information (inventory) purposes. The default is 0. 4.8.3.3 Electrical Down Tilt The downwards electrical tilt of the antenna, in degrees.
Chapter 4 - Operation and Administration of the Micro BTS 4.9 GPS Menu GPS Menu The GPS menu includes the following options: “General Configuration” “Inventory & Statuses” 4.9.1 General Configuration The GPS General Configuration menu enables viewing/updating the following parameters: 4.9.1.1 GPS Type The type of time synchronization source to be used. The currently available options are None and Trimble Lassen. The default is None, 4.9.1.2 Longitude The longitude of the site.
Chapter 4 - Operation and Administration of the Micro BTS 4.9.1.5 GPS Menu UTC Time and Date The UTC (Coordinated Universal Time) date and time. Configurable only if the GPS Type is set to None. Otherwise it is the read-only data received from the GPS receiver. The format is hh: mm: ss, dd/mm/yyyy hh between 0 and 23, mm between 0 and 59, ss between 0 and 59, dd/mm with usual date and month rules, yyyy between 2006 to 9999. 4.9.1.6 Hold Over Passed Timeout Applicable only if a GPS receiver is used.
Chapter 4 - Operation and Administration of the Micro BTS 4.9.1.11 GPS Menu Advance Hour Factor When Daylight Saving is enabled, this parameter defines the amount of time by which the clock should be advanced during the daylight saving period. The available values are 0 (daylight saving disabled), 1 and 2 (hours). The default is 0. 4.9.1.12 Start Date When Daylight Saving is enabled, this parameter defines the date for starting the daylight saving feature.
Chapter 4 - Operation and Administration of the Micro BTS 4.9.2.5 GPS Menu 4 Satellites and more Not applicable if a GPS receiver is not connected. Indicating whether 4 (the minimum required for initial synchronization) or more satellites are received by the GPS receiver (OK or Failed). 4.9.2.6 2 Satellites and more Not applicable if a GPS receiver is not connected.
Appendix A Sector Connections Schemes
Appendix A - Sector Connections Schemes In this Appendix: “Introduction” on page 746 “Fourth Order Diversity, Beam Forming and MIMO” on page 747 “Fourth Order Diversity, MIMO” on page 748 “Second Order Diversity” on page 750 4Motion 745 System Manual
Appendix A - Sector Connections Schemes A.1 Introduction Introduction The 4Motion 4-Channels Access Units implement four transmit/receive channels and are capable of supporting Beam Forming and/or MIMO Matrix A/B technologies. The operation mode is selected via software, giving the maximal flexibility to select the appropriate mode for each scenario and for each user. The 2-Channels Access Units can support only MIMO Matrix A/B technology.
Appendix A - Sector Connections Schemes A.2 Fourth Order Diversity, Beam Forming and MIMO Fourth Order Diversity, Beam Forming and MIMO This section describes the configurations that enable support of both Beam Forming and MIMO technologies. Only ODUs that support Beam Forming should be used. The example is for two 4x2 ODUs, where only the Tx/Rx ports are used.
Appendix A - Sector Connections Schemes A.3 Fourth Order Diversity, MIMO Fourth Order Diversity, MIMO This section describes the configurations that enable support of MIMO technologies with fourth order diversity. A.3.1 Wide Double Dual slant Array Two separated Dual Slant antennas provide also space diversity.
Appendix A - Sector Connections Schemes A.3.
Appendix A - Sector Connections Schemes A.4 Second Order Diversity Second Order Diversity All following configuration are shown with one 2x2 ODU. Two 1x1 ODUs can be used instead of the 2x2 ODU, provided both ODUs support the same frequency band. A.4.1 Wide Double Single Slant Array (Space and Polarization Diversity) This configuration consists of two dual-slant antennas separated by at least 10 wavelengths, where only one antenna element of each is connected, with different polarization.
Appendix A - Sector Connections Schemes A.4.
Appendix A - Sector Connections Schemes A.4.
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.
