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PMP 320 Administration and Configuration Guide
Cambium
PMP 320
Release Notes
System Releasee2.3
PMP320RELEASENOTES April 2012© 2012 Cambium Networks. All Rights Reserved.
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PMP 320 Module Essential Information
The following tables may be referenced for information regarding module management access andfactory default procedures.
AP
Default IP Address forManagement GUI Access
192.168.2.101
Default AdministratorUsername
admin
Default AdministratorPassword
admin
Resetting to FactoryDefaults (2 options)
1. Restore Configuration Control Index 1 located in the AP GUIat Administration > Configuration Control then reboot theradio.
2. While powered, insert a default plug into the radio‟s RJ11 portfor one minute, then remove. When the radio is rebooted, itis configured with the factory defaults.
CSM
Default IP Address for
Management GUI Access
10.1.1.254
Default AdministratorUsername
administrator
Default AdministratorPassword
cambium
Previous to CSM software version f12b00-v8.1.4, theCSM‟s default administrator password was „motorola‟. If afactory default procedure is initiated for a CSM withsoftware version >= f12b00-v8.1.4 which is still
configured with the default password of „motorola‟, thedefault administrator password will be changed to„cambium‟.
Resetting to FactoryDefaults (2 options)
1. Restore the factory default settings by using the CSM GUIrestore function located at Management > Restore Default,then reboot the radio.
2. Use the Reset factory default tool, which may be downloadedfrom the Cambium support website.
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Accuracy
While reasonable efforts have been made to assure the accuracy of this document, Cambium Networks assumes no liability resulting from anyinaccuracies or omissions in this document, or from use of the information obtained herein. Cambium Networks reserves the right to makechanges to any products described herein to improve reliability, function, or design, and reserves the right to revise this document and to makechanges from time to time in content hereof with no obligation to notify any person of revisions or changes. Cambium Networks does notassume any liability arising out of the application or use of any product, software, or circuit described herein; neither does it convey licenseunder its patent rights or the rights of others. It is possible that this publication may contain references to, or information about CambiumNetworks products (machines and programs), programming, or services that are not announced in your country. Such references orinformation must not be construed to mean that Cambium Networks intends to announce such Cambium Networks products, programming, orservices in your country.
Copyrights
This document, Cambium Networks products, and 3rd Party Software products described in this document may include or describe copyrighted
Cambium Networks and other 3rd Party supplied computer programs stored in semiconductor memories or other media. Laws in the United
States and other countries preserve for Cambium Networks, its licensors, and other 3rd Party supplied software certain exclusive rights for
copyrighted material, including the exclusive right to copy, reproduce in any form, distribute and make derivative works of the copyrightedmaterial. Accordingly, any copyrighted material of Cambium Networks, its licensors, or the 3
rd Party software supplied material contained in the
Cambium Networks products described in this document may not be copied, reproduced, reverse engineered, distributed, merged or modifiedin any manner without the express written permission of Cambium Networks. Furthermore, the purchase of Cambium Networks products shallnot be deemed to grant either directly or by implication, estoppel, or otherwise, any license under the copyrights, patents or patent applicationsof Cambium Networks or other 3rd Party supplied software, except for the normal non-exclusive, royalty free license to use that arises byoperation of law in the sale of a product.
Restrictions
Software and documentation are copyrighted materials. Making unauthorized copies is prohibited by law. No part of the software ordocumentation may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer
language, in any form or by any means, without prior written permission of Cambium Networks
License Agreements
The software described in this document is the property of Cambium Networks and its licensors. It is furnished by express license agreementonly and may be used only in accordance with the terms of such an agreement.
High Risk Materials
Components, units, or 3rd Party products used in the product described herein are NOT fault -tolerant and are NOT designed, manufactured, or
intended for use as on-line control equipment in the following hazardous environments requiring fail-safe controls: the operation of NuclearFacilities, Aircraft Navigation or Aircraft Communication Systems, Air Traffic Control, Life Support, or Weapons Systems (High Risk Activities).Cambium Networks and its supplier(s) specifically disclaim any expressed or implied warranty of fitness for such High Risk Activities.
© 2012 Cambium Networks Limited. All Rights Reserved.
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Table of Contents
Introduction ..................................................................................................................... 6
Applicability ................................................................................................................. 6
New Access Point Hardware Notifications .................................................................. 6
Release Highlights ...................................................................................................... 7
AP Statistics ............................................................................................................... 7
Frame Utilization Monitoring ..................................................................................... 34
System Configuration Guidelines .............................................................................. 52
Network Management ............................................................................................... 57
Software Upgrade ..................................................................................................... 57
PMP 320 Administration and Configuration Guide .................................................... 58
PMP 320 Installation Guide ...................................................................................... 58
Abbreviations ............................................................................................................ 58
PMP 320 Series Product Nomenclature .................................................................... 59
Feedback on Documentation .................................................................................... 60
Technical Support ..................................................................................................... 60
Contacting Cambium Networks ................................................................................. 61
Resolved Issues ............................................................................................................ 62
Known Open Issues ...................................................................................................... 66
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Introduction
This document provides information for the Cambium Networks PMP 320 product, softwarerelease e2.3.
To ensure that al l of the features of the PMP AP and CSM are avai lable upo n deployment,
be sure to up grade the mo dule softw are to the latest release avai lable at:
http://www.cambiumnetworks.com/support/pmp/software/
The following procedure should be executed prior to upgrading to e2.3 to ensure thatQoS and service flow information may be reinstated in case of a downgrade from e2.3 toe2.2.2.
Before upgrading from e2.2.2 to e2.3, save a configuration restore point on the AP‟sAdministration > Configuration Control GUI page. If it is required that the network isreverted back to a pre-2.3 release, the configuration control point may be restored, andall QoS and service flow configuration will be restored. For pre-e2.3 software releasesonly, if all configuration restore points are already populated, overwrite one of them withthe AP‟s current configuration without changing the restore point’ s name. Otherwise, anunused configuration control slot may be used. This naming behavior is only present inpre-e2.3 software releases (when using e2.3, existing configuration control restore pointsmay be overwritten with new names).
If an AP has been upgraded to e2.3, upon downgrading then re-upgrading the APsoftware from a pre-e2.3 release to e2.3, non-default usernames and passwords addedin the pre-e2.3 release are deleted. This behavior is only exhibited when an AP with e2.3software is downgraded, reconfigured with new usernames/passwords, and then re-upgraded.
APPLICABILITY
The e2.3 PMP 320 System Release applies to the following products:
Access Point CAP 35320
Access Point CAP 36320
The e2.3 PMP 320 System Release contains the following components:
Access Point Version: System_Release_e 3
NEW ACCESS POINT HARDWARE NOTIFICATIONS
IMPORTANT – PMP 320 Access Points with Tanapa Numbers 3530CBA or 3630CBAmust NOT have their software downgraded FROM THE FACTORY VERSION (e2.1.1).
http://www.cambiumnetworks.com/support/pmp/software/http://www.cambiumnetworks.com/support/pmp/software/http://www.cambiumnetworks.com/support/pmp/software/
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New versions of the PMP 320 Access Point have been shipping since mid-March 2011. All units are labeled with a Model Number and a Tanapa Number. The Tanapa Numberis used to indicate the hardware version of the board. The currently shipping hardwareversions are listed below:
Model Number 3630APC, Tanapa=3630CBA
Model Number 3530APC, Tanapa=3530CBA
These units are shipping with PMP 320 software version e2.1.1. Downgrading units withthe Tanapa Numbers listed above will result in a locked, inaccessible radio that must bereturned to Cambium Networks for repair.
RELEASE HIGHLIGHTS
Improved Compatibility between UGPS Synchronized APs and CMM4 GPSSynchronized APs
The PMP 320 AP software has been modified to ensure that APs that are transmission-synchronized by a Universal GPS module (UGPS) do not interfere with APs that are
transmission-synchronized by a CMM4 module (with a GPS receiver). When upgradedto Software Release e2.3, APs that are synchronized by a UGPS module and APs thatare synchronized by a CMM4 will transmit at the same time, thereby eliminating noisereceived from nearby transmitting APs.
Expanded AP Performance Statistics
The AP‟s performance statistics have been expanded to include MCS (Modulati on andCoding Scheme)-based statistical views as well as HARQ (Hybrid Automatic RepeatreQuest) and Ethernet (wired interface) information. See section AP Statistics or moreinformation.
Frame Utilization Monitoring Updates
In Release e2.3, the AP‟s Frame Utilization monitoring tool has been updated to includebetter customization of data collection and additional statistics related to MCS(Modulation and Coding Scheme) states, slot usage, and throughput. See section FrameUtilization Monitoring for feature information and operating procedures.
AP STATISTICS
The PMP 320 AP contains network statistics and diagnostics that are available in the GUIin the Performance Monitor menu which may be used to analyze and troubleshootnetwork performance and operation.
Access Point Radio Info Menu
The AP‟s Radio Info menu displays important radio link information for each registeredsubscriber.
To retrieve statistical information via SNMP, an index must be appended to the SNMPOID to distinguish for which MAC address statistics are being retrieved. For example, toretrieve the Uplink RSSI 0 and RSSI 2 values for a CPE with MAC address64:ed:57:40:00:9c, perform an SNMP get on the following OID:
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RSSI 0:
..
.1.3.6.1.4.1.32584.1.8.2.1.4.100.237.87.64.0.156.0
In this example, is represented in the above OID as“ 100.237.87.64.0.156 ” and is represented as “ 0 ”
RSSI 2:
..
.1.3.6.1.4.1.32584.1.8.2.1.4.100.237.87.64.0.156.2
In this example, is represented in the above OID as“ 100.237.87.64.0.156 ” and is represented as “ 2 ”
A large difference in RSSI values between the two uplink receive radio interfaces is to
be expected in certain RF environments. The AP is designed with two receiveantennas (one horizontal and one vertical). The CPE transmits on only one antenna,which is vertical. In a LOS environment the vertical antenna will receive a higher levelof signal as it is receiving an unadulterated (vertical) signal. In an environment wherethere is a lot of multipath or obstructions, the RSSI values will be much closer as the AP‟s antennas are receiving at a more consistent level.
Figure 1 AP Radio Info
Table 1 AP Radio Info Attributes
Attribute Meaning/SNMP Information
CPE MACAddress
The CPE MAC Address represents the physical address of the registered RM.
Uplink,
RSSI 0
The RSSI represents the Received Signal Strength Indicator, which is a
measurement of the power level being received by the AP‟s Main antenna. Referto the PMP 320 Link Budget Table available on the Cambium support website formore information on how the measured RSSI relates to the system‟s linkperformance.
Name danBsUlChannelRssiStream0
OID .1.3.6.1.4.1.32584.1.8.2.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
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Access read-only
Indexes danBsUlChannelMac, danBsUlChannelRadioIndex
Descr Measured stream-0 RSSI (reports RSSI 0 valuewhen using danBsUlChannelRadioIndex 0)
Uplink,RSSI 2
The RSSI represents the Received Signal Strength Indicator, which is ameasurement of the power level being received by the AP‟s Diversity antenna.Refer to the PMP 320 Link Budget Table available on the Cambium supportwebsite for more information on how the measured RSSI relates to the system‟slink performance.
Name danBsUlChannelRssiStream0
OID .1.3.6.1.4.1.32584.1.8.2.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danBsUlChannelMac, danBsUlChannelRadioIndex
DescrMeasured stream-0 RSSI (reports RSSI 2 valuewhen using danBsUlChannelRadioIndex 2)
Uplink,CINR
The CINR represents the AP‟s receive Carrier to Interference Noise Ratio, which isan expression of the carrier signal quality with respect to signal noise and co-channel interference (or both). Refer to the PMP 320 Link Budget Table availableon the Cambium support website for more information on how the measured CINRrelates to the system‟s link performance.
Name danBsUlChannelCinrStream0
OID .1.3.6.1.4.1.32584.1.8.2.1.5MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
IndexesdanBsUlChannelMac,danBsUlChannelRadioIndex
DescrMeasured stream-0 CINR
Uplink,MCS
The MCS represents the Modulation and Coding Scheme used for the systemuplink. This state and its associated throughput capabilities, are based on the PMP320 system link budgets, which can be referenced in the PMP 320 Link BudgetTable available on the Cambium support website
Name danBsMcsStateUI
OID .1.3.6.1.4.1.32584.1.8.16.1.5
MIB DAN-BASIC-MIB-ADMIN
SyntaxINTEGER {qpsk_1_2(3), qpsk_3_4(4),qam16_1_2(5), qam16_3_4(6), qam64_1_2(7),qam64_2_3(8), qam64_3_4(9), qam64_5_6(10) }
Access read-only
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Attribute Meaning/SNMP Information
Indexes danBsMcsMacAddr
Descr MCS State in the Uplink.
Downlink,RSSI
The RSSI represents the Received Signal Strength Indicator, which is ameasurement of the power level being received by the CPE‟s antenna. Refer tothe PMP 320 Link Budget Table available on the Cambium support website formore information on how the measured RSSI relates to the system‟s linkperformance.
Name danBsDlChannelRssiStream0
OID .1.3.6.1.4.1.32584.1.8.3.1.3
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-onlyIndexes danBsDlChannelMac
Descr Reported RSSI Stream-0
Downlink,CINR
The CINR represents the CPE‟s receive Carrier to Interference Noise Ratio, whichis an expression of the carrier signal quality with respect to signal noise and co-channel interference (or both). Refer to section the PMP 320 Link Budget Table
available on the Cambium support website for more information on how themeasured CINR relates to the system‟s link performance.
Name danBsDlChannelCinrStream0
OID .1.3.6.1.4.1.32584.1.8.3.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32 Access read-only
Indexes danBsDlChannelMac
Descr Reported CINR Stream-0
Downlink,MIMO Type
The MIMO Type is the type of MIMO (A or B) used for downlink transmissions.
Multiple-Input Multiple-Output (MIMO) techniques provide protection against fading
and increase the probability that the receiver will decode a usable signal. When
the effects of MIMO are combined with those of OFDM techniques and a high link
budget, there is a high probability of a robust connection over a non-line-of-sight
path.
There are three major sub-features that comprise the MIMO techniques utilized in
the PMP 320 product:
Matrix B: This technique provides for the ability to double the throughput of a
radio transmission under proper RF conditions. Different data streams are
transmitted simultaneously on two different antennas.
Matrix A: This technique is also called Alamouti Space Time Coding. The
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Attribute Meaning/SNMP Information
same data stream is transmitted at the same time on two different antennas
with special coding.
When transmitting in MIMO mode, the PMP 320 system also performs MRC:
MRC stands for Maximal Ratio Combining which is a form of receive diversity.
With this technique, two receivers and their associated antennas receive the
transmitted signal. The two received signals are combined into a single higher
quality signal. This technique increases the link budget of a system.
Downlink,MCS
The MCS represents the Modulation and Coding Scheme used for the systemdownlink. This state and its associated throughput capabilities, are based on thePMP 320 system link budgets (see the PMP 320 Link Budget Table available onthe Cambium support website).
Name danBsMcsStateDl
OID .1.3.6.1.4.1.32584.1.8.16.1.2MIB DAN-BASIC-MIB-ADMIN
Syntax
INTEGER {qpsk_1_2(3), qpsk_3_4(4),qam16_1_2(5), qam16_3_4(6),qam64_1_2(7), qam64_2_3(8),qam64_3_4(9), qam64_5_6(10) }
Access read-only
Indexes danBsMcsMacAddr
Descr MCS State in the Downlink
Access Point Traffic Info Menu
The AP‟s Traffic Info menu displays details about the management traffic received andsent via the AP‟s wired (Ethernet) and wireless (radio) interfaces. It is important to notethat these values do not represent the actual RF link data throughput – to monitor actualRF throughput to the CPE operators may reference the Status menu of the CPE GUIunder WIMAX RX and WIMAX TX. This throughput data may also be accessed viaSNMP queries (reference the PMP 320 CPE MIB file for OID information) or via the AP‟sDownlink MCS Stats, Uplink MCS Stats, and HARQ Statistics menus.
To retrieve statistical information via SNMP, the interface identifier must be appended tothe SNMP OID. For example, to retrieve the Rx Octects count, perform and SNMP geton the following OID:
Rx Octets:
.
.1.3.6.1.2.1.2.2.1.10.3
In this example, is represented as “ 3” (wired interface)
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Figure 2 AP Traffic Info
Table 2 AP Traffic Info Attributes
Attribute Meaning / SNMP Details
Interface The Interface represents the AP‟s internal index of the interface.
Description Wired means that the data displayed is for the AP‟s Ethernet interface.
IP Address /Mask
The IP Address / Mask field represents the IP address and subnet maskconfigured for the interface.
Rx Octets The Rx Octets represents the number of management octets that havebeen received on the interface, including those containing framinginformation.
Name ifInOctets
OID .1.3.6.1.2.1.2.2.1.10
MIB MIB2-DAN-MIB-ADMIN
Syntax Counter
Access read-only
Indexes ifIndex
DescrThe total number of octets received onthe interface, including framingcharacters
Rx UnicastPackets
The Rx Unicast represents the number of management unicastpackets that have been received on the interface.
Name ifInUcastPkts
OID .1.3.6.1.2.1.2.2.1.11
MIB MIB2-DAN-MIB-ADMIN
Syntax Counter
Access read-only
Indexes ifIndex
DescrThe number of subnetwork-unicastpackets delivered to a higher-layerprotocol.
Rx Non-UnicastPackets
The Rx Non-Unicast Packets represents the number ofmanagement non-unicast packets (broadcast and multicast) thathave been received on the interface.
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Attribute Meaning / SNMP Details
Name ifInNUcastPkts
OID .1.3.6.1.2.1.2.2.1.12
MIB MIB2-DAN-MIB-ADMINSyntax Counter
Access read-only
Indexes ifIndex
Descr
The number of non-unicast (i.e.,subnetwork- broadcast or subnetwork-multicast) packets delivered to a higher-layer protocol.
Rx Discards The Rx Discards represents the number of inboundmanagement octets have been discarded on the interface. Somepackets may have been discarded to increase buffer space.
Name ifInDiscardsOID .1.3.6.1.2.1.2.2.1.13
MIB MIB2-DAN-MIB-ADMIN
Syntax Counter
Access read-only
Indexes ifIndex
Descr
The number of inbound packets whichwere chosen to be discarded eventhough no errors had been detected toprevent their being deliverable to ahigher-layer protocol. One possiblereason for discarding such a packetcould be to free up buffer space.
Tx Octets The Tx Octets represents the number of management octets that havebeen transmitted on the interface, including those containing framinginformation.
Name ifOutOctets
OID .1.3.6.1.2.1.2.2.1.16
MIB MIB2-DAN-MIB-ADMIN
Syntax Counter
Access read-only
Indexes ifIndex
DescrThe total number of octets transmittedout of the interface, including framing
characters.
Tx UnicastPackets
The Tx Unicast represents the number of management unicastpackets that have been transmitted on the interface.
Name ifOutUcastPkts
OID .1.3.6.1.2.1.2.2.1.17
MIB MIB2-DAN-MIB-ADMIN
Syntax Counter
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Attribute Meaning / SNMP Details
Access read-only
Indexes ifIndex
Descr
The total number of packets thathigher-level protocols requested betransmitted to a subnetwork-unicastaddress, including those that werediscarded or not sent.
Tx Non-UnicastPackets
The Tx Non-Unicast Packets represents the number ofmanagement non-unicast packets (broadcast and multicast) thathave been transmitted on the interface.
Name ifOutNUcastPkts
OID .1.3.6.1.2.1.2.2.1.18
MIB MIB2-DAN-MIB-ADMIN
Syntax Counter
Access read-only
Indexes ifIndex
Descr
The total number of packets thathigher-level protocols requested betransmitted to a non- unicast (i.e., asubnetwork-broadcast or subnetwork-multicast) address.
Tx Discards The Tx Discards represents the number of outboundmanagement octets have been discarded on the interface. Someof these packets may have been discarded to increase bufferspace.
Name ifOutDiscards
OID .1.3.6.1.2.1.2.2.1.19
MIB MIB2-DAN-MIB-ADMIN
Syntax Counter
Access read-only
Indexes ifIndex
Descr
The number of outbound packets whichwere chosen to be discarded eventhough no errors had been detected toprevent their being transmitted. Onepossible reason for discarding such apacket could be to free up buffer space.
Access Point Connected CPEs Menu
The AP‟s Connected CPEs menu provides a display of all the CPEs that have beenallowed network entry by the AP. It also allows operators to control CPE registration viathe Deregister CPE and Reset CPE buttons.
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To retrieve statistical information via SNMP, an index must be appended to the SNMPOID to distinguish for which MAC address CID information is being retrieved. Forexample, to retrieve the Basic CID for a CPE with MAC address 64:ed:57:40:00:9c,perform an SNMP get on the following OID:
Basic CID:..
.1.3.6.1.4.1.32584.1.16.2.1.1.2.100.237.87.64.0.156.0
In this example, is represented in the above OID as“ 100.237.87.64.0.156 ” and is represented as “ 0 ” (wireless interface).
Figure 3 AP Connected CPEs
Figure 4 AP Connected CPEs Attributes
Attribute Meaning / SNMP Details
Number ofRegisteredCPE’s
The current count of the number of CPEs that have successfully enteredthe network.
Name wmanIf2BsRegisteredSsCount
OID .1.3.6.1.4.1.32584.1.16.2.1.2.10
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrThe current count of registered CPEs
CPE MAC The CPE MAC represents the MAC addresses of the registered RM.
Basic CID The Basic CID represents the Basic Connection Identifier, set by the AP.The Basic Connection is used for delay-sensitive, critical MACmessaging.
Name wmanIf2BsSsBasicCid
OID .1.3.6.1.4.1.32584.1.16.2.1.2.1.1.2
MIB DAN-BASIC-MIB-ADMIN
Syntax WmanIf2TcCidType
Access read-only
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Attribute Meaning / SNMP Details
Indexes wmanIf2BsSsMacAddress, ifIndex
Descr
The value of this object indicates theSS's basic CID that was sent in the RNG-RSP message.
Primary CID The Primary CID represents the Primary Connection Identifier, set by the AP. The Primary Connection is used for delay-tolerant MAC messaging.
Name wmanIf2BsSsPrimaryCid
OID .1.3.6.1.4.1.32584.1.16.2.1.2.1.1.3
MIB DAN-BASIC-MIB-ADMIN
Syntax WmanIf2TcCidType
Access read-only
Indexes wmanIf2BsSsMacAddress, ifIndex
DescrThe value of this object indicates theprimary CID of the SS received from theRNG-RSP message.
Active Service Flow Stats, Active Service Flows Menu
The AP‟s Active Service Flows menu provides a display of all the registered CPEs‟service flow details. Operators may use the Clear Counters button to reset the serviceflow counters.
To retrieve statistical information via SNMP, an index must be appended to the SNMP
OID to distinguish for which MAC address CID information is being retrieved. Forexample, to retrieve the Packet Count for a CPE with MAC address 64:ed:57:40:00:9cand SF ID 5000, perform an SNMP get on the following OID:
Packet Count:
..
.1.3.6.1.4.1.32584.1.8.1.1.4.100.237.87.64.0.156.5000
In this example, is represented in the above OID as“ 100.237.87.64.0.156 ” and is represented as “ 5000 ” (service flow ID)
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Figure 5 AP Active Service Flows
Table 3 AP Service Flows Attributes
Attribute Meaning / SNMP Details
CPE MAC The CPE MAC represents the MAC addresses of the registered RM.
SF ID The SF ID represents the service flow identifier assigned by the AP.
Direction The Direction represents whether the service flow is operating in the downlink
direction or uplink direction.
QoS Profile The QoS Profile represents the QoS profile created in Configuration > ServiceFlows > QoS Profiles that is implemented for the service flow.
Class
Profile
The Cls Profile is the classification profile created in Configuration > Service
Flows > Classification Rules that is implemented for the service flow.
PacketCount
The Packet Count represents the number of packets transmitted using the serviceflow.
Name danBsUsageRecordEntry.danBsUsageRecordPcktsCount
OID .1.3.6.1.4.1.32584.1.8.1.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danBsUsageRecordMacAddr, danBsUsageRecordSfId
DescrTotal packet count for the given MSS and SF ID
BytesCount
The Bytes Count represents the number of bytes transmitted using the service flow.
Name danBsUsageRecordBytesCount
OID .1.3.6.1.4.1.32584.1.8.1.1.5
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
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Attribute Meaning / SNMP Details
Indexes danBsUsageRecordMacAddr, danBsUsageRecordSfId
Descr Total bytes count for the given MSS and SF ID
PacketsDropped
The Packets Dropped represents the number of packets dropped due totransmission issues.
Name danBsUsageRecordPcktsDropped
OID .1.3.6.1.4.1.32584.1.8.1.1.6
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsUsageRecordMacAddr,danBsUsageRecordSfId
DescrTotal packets dropped for the given MSS and SFID
BytesDropped
The Bytes Dropped represents the number of bytes dropped due to transmissionissues.
Name danBsUsageRecordBytesDropped
OID .1.3.6.1.4.1.32584.1.8.1.1.7
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsUsageRecordMacAddr,danBsUsageRecordSfId
Descr Total bytes dropped for the given MSS and SF ID
Active Service Flow Stats, Downlink MCS
The AP‟s Downlink MCS menu displays information about the amount of data passed ateach MCS (Modulation and Coding Scheme) state per registered CPE. This menu isuseful for determining if CPEs are performing at the level they should be, based on thePMP 320 link budgets (see the PMP 320 Link Budget Table available on the Cambiumsupport website ).
To retrieve statistical information via SNMP, an index must be appended to the SNMPOID to distinguish for which MAC address CID information is being retrieved. For
example, to retrieve the byte count for 64QAM 5/6 for a CPE with MAC address64:ed:57:40:00:9c and SF ID 5000, perform an SNMP get on the following OID:
Downlink Bytes transferred in 64QAM 5/6 MCS:
..
.1.3.6.1.4.1.32584.1.8.6.1.3.100.237.87.64.0.156.5000
In this example, is represented in the above OID as“ 100.237.87.64.0.156 ” and is represented as “ 5000 ” (service flow ID)
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Figure 6 Downlink MCS Stats
Table 4 AP Downlink MCS Stats Attributes
Attribute Meaning / SNMP Details
CPE MAC The CPE MAC is the physical address of the unit for which MCS statsare displayed
CPE SFID The CPE SFID is the AP-assigned service flow ID used for the downlinkservice flow.
64QAM5/6 B,64QAM5/6 A,64QAM3/4 A,64QAM2/3 A,64QAM1/2 A,16QAM3/4 A,16QAM1/2 A,QPSK3/4 A,QPSK1/2 A
The MCS state for which stats are reported, including the MIMO state (Aor B). Refer to section the PMP 320 Link Budget Table available on theCambium support website for more information.
Multiple-Input Multiple-Output (MIMO) techniques provide protection
against fading and increase the probability that the receiver will decode a
usable signal. When the effects of MIMO are combined with those of
OFDM techniques and a high link budget, there is a high probability of a
robust connection over a non-line-of-sight path.
There are three major sub-features that comprise the MIMO techniques
utilized in the PMP 320 product:
Matrix B: This technique provides for the ability to double the
throughput of a radio transmission under proper RF conditions.
Different data streams are transmitted simultaneously on two
different antennas.
Matrix A: This technique is also called Alamouti Space Time Coding.
The same data stream is transmitted at the same time on two
different antennas with special coding.
When transmitting in MIMO mode, the PMP 320 system also performsMRC: MRC stands for Maximal Ratio Combining which is a form ofreceive diversity. With this technique, two receivers and their associatedantennas receive the transmitted signal. The two received signals arecombined into a single higher quality signal. This technique increasesthe link budget of a system.
Name danBsDlMcs64Qam56MimoBCount
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Attribute Meaning / SNMP Details
OID .1.3.6.1.4.1.32584.1.8.6.1.3
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32 Access read-only
Indexes danBsDlMcsMacAddr, danBsDlMcsSfId
Descr
Total number of bytes sent in thedownlink, in MCS state '64QAM 5/6
MIMO B'.
Name danBsDlMcs64Qam56MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
DescrTotal number of bytes sent in thedownlink, in MCS state '64QAM 5/6MIMO A'.
Name danBsDlMcs64Qam34MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.5
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
DescrTotal number of bytes sent in thedownlink, in MCS state '64QAM 3/4MIMO A'.
Name danBsDlMcs64Qam23MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.6
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32 Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
DescrTotal number of bytes sent in thedownlink, in MCS state '64QAM 2/3MIMO A'.
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Attribute Meaning / SNMP Details
Name danBsDlMcs64Qam12MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.7
MIB DAN-BASIC-MIB-ADMINSyntax Unsigned32
Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
DescrTotal number of bytes sent in thedownlink, in MCS state '64QAM 1/2MIMO A'.
Name danBsDlMcs16Qam34MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.8
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
DescrTotal number of bytes sent in thedownlink, in MCS state '16QAM 3/4MIMO A'.
Name danBsDlMcs16Qam12MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.9MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
DescrTotal number of bytes sent in thedownlink, in MCS state '16QAM 1/2MIMO A'.
Name danBsDlMcsQpsk34MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.10
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
Descr Total number of bytes sent in the
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Attribute Meaning / SNMP Details
downlink, in MCS state 'QPSK 1/2MIMO A'.
Name danBsDlMcsQpsk12MimoACount
OID .1.3.6.1.4.1.32584.1.8.6.1.11
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
IndexesdanBsDlMcsMacAddr,danBsDlMcsSfId
DescrTotal number of bytes sent in thedownlink, in MCS state 'QPSK 1/2MIMO A'.
Active Service Flow Stats, Uplink MCS
The AP‟s Uplink MCS menu displays information about the amount of data passed ateach MCS (Modulation and Coding Scheme) state per registered CPE. This menu isuseful for determining if CPEs are performing at the level they should be, based on thePMP 320 link budgets (see the PMP 320 Link Budget Table available on the Cambiumsupport website).
To retrieve statistical information via SNMP, an index must be appended to the SNMPOID to distinguish for which MAC address CID information is being retrieved. Forexample, to retrieve the byte count for 64QAM 5/6 for a CPE with MAC address64:ed:57:40:00:9c and SF ID 5001, perform an SNMP get on the following OID:
Uplink Bytes transferred in 64QAM 5/6 MCS:
..
.1.3.6.1.4.1.32584.1.8.7.1.3.100.237.87.64.0.156.5001
In this example, < MAC address in decimal> is represented in the above OID as“ 100.237.87.64.0.156 ” and is represented as “ 5001” (service flow ID)
Figure 7 Uplink MCS Stats
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Table 5 AP Uplink MCS Stats Attributes
Attribute Meaning
CPE MAC The CPE MAC is the physical address of the unit for which MCS stats are displayed
CPE SFID The CPE SFID is the AP-assigned service flow ID used for the downlink service
flow.
64QAM5/6,64QAM3/4,64QAM2/3,64QAM1/2,16QAM3/4,16QAM1/2,QPSK3/4,QPSK1/2
The MCS state for which stats are reported, including the MIMO state (A or B).Refer to the PMP 320 Link Budget Table available on the Cambium support websitefor more information.
Name danBsUlMcs64Qam56Count
OID .1.3.6.1.4.1.32584.1.8.7.1.3
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32 Access read-only
Indexes danBsUlMcsMacAddr, danBsUlMcsSfId
DescrTotal number of bytes sent in theuplink, in MCS state '64QAM 5/6'.
Name danBsUlMcs64Qam34Count
OID .1.3.6.1.4.1.32584.1.8.7.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danBsUlMcsMacAddr, danBsUlMcsSfId
DescrTotal number of bytes sent in theuplink, in MCS state '64QAM 3/4'.
Name danBsUlMcs64Qam23Count
OID .1.3.6.1.4.1.32584.1.8.7.1.5
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danBsUlMcsMacAddr, danBsUlMcsSfId
Descr Total number of bytes sent in theuplink, in MCS state '64QAM 2/3'.
Name danBsUlMcs64Qam12Count
OID .1.3.6.1.4.1.32584.1.8.7.1.6
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
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Attribute Meaning
Access read-only
Indexes danBsUlMcsMacAddr, danBsUlMcsSfId
Descr Total number of bytes sent in theuplink, in MCS state '64QAM 1/2‟.
Name danBsDlMcs16Qam34Count
OID .1.3.6.1.4.1.32584.1.8.7.1.7
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danBsDlMcsMacAddr, danBsUlMcsSfId
DescrTotal number of bytes sent in theuplink, in MCS state '16QAM 3/4'.
Name danBsDlMcs16Qam12Count
OID .1.3.6.1.4.1.32584.1.8.7.1.8
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danBsUlMcsMacAddr, danBsUlMcsSfId
DescrTotal number of bytes sent in theuplink, in MCS state '16QAM 1/2'.
Name danBsDlMcsQpsk34CountOID .1.3.6.1.4.1.32584.1.8.7.1.9
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danBsUlMcsMacAddr, danBsUlMcsSfId
DescrTotal number of bytes sent in theuplink, in MCS state 'QPSK 3/4'.
Name danBsDlMcsQpsk12Count
OID .1.3.6.1.4.1.32584.1.8.7.1.10
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danBsUlMcsMacAddr, danBsUlMcsSfId
DescrTotal number of bytes sent in theuplink, in MCS state 'QPSK 1/2'.
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Active Service Flow Stats, HARQ
The AP‟s HARQ Statistics menu displays information about the HARQ mechanismstatistics for each CPE‟s HARQ-enabled service flow. This menu is useful for analyzingHARQ feedback to determine the effectiveness of the protocol for each service flow.
To retrieve statistical information via SNMP, an index must be appended to the SNMPOID to distinguish for which MAC address CID information is being retrieved. Forexample, to retrieve the HARQ ACK count for CPE with MAC address 64:ed:57:40:00:9cand SF ID 5000, perform an SNMP get on the following OID:
HARQ ACK Count:
..
.1.3.6.1.4.1.32584.1.8.11.1.8.100.237.87.64.0.156.5000
In this example, < MAC address in decimal> is represented in the above OID as“ 100.237.87.64.0.156 ” and is represented as “ 5000 ” (service flow ID)
Figure 8 AP HARQ Statistics
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Table 6 AP HARQ Statistics Attributes
Attribute Meaning / SNMP Details
CPE MAC The physical address of the CPE
SF ID The AP-assigned service flow for which statistics are displayed
Direction The direction of the service flow – either downlink or uplink
ACKs When successful ACKS are being received (Acks is increasing), this indicates that
the HARQ mechanism is able to properly decode data and system reliability andthroughput are being improved.
Name danHarqStatsAcks
OID .1.3.6.1.4.1.32584.1.8.11.1.8
MIB DAN-BASIC-MIB-ADMIN
Syntax INTEGER (0..65535)
Access read-only
IndexesdanHarqStatsMacAddr,danHarqStatsSfId
DescrNumber of ACK's.
NACKs When negative ACKS are being received (Nacks is increasing), this indicates thatthe HARQ transmitter has reached the maximum number of retransmissions withoutreceiving an ACK (data was not properly decoded). In this case, investigatepossible sources of RF interference that may be disrupting link quality.
Name danHarqStatsNacks
OID .1.3.6.1.4.1.32584.1.8.11.1.9
MIB DAN-BASIC-MIB-ADMIN
Syntax INTEGER (0..65535)
Access read-only
IndexesdanHarqStatsMacAddr,danHarqStatsSfId
DescrNumber of NACK's.
Discards The Discards column represents the number of times a transmission was discardeddue to an uncorrectable error pattern. When the receiver discards a transmission, aretransmission is requested. In this case, investigate possible sources of RFinterference that may be disrupting link quality.
Name danHarqStatsDiscards
OID .1.3.6.1.4.1.32584.1.8.11.1.10
MIB DAN-BASIC-MIB-ADMIN
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Attribute Meaning / SNMP Details
Syntax INTEGER (0..65535)
Access read-only
IndexesdanHarqStatsMacAddr,danHarqStatsSfId
DescrNumber of transmission discards
Wired Interface Statistics Menu
The AP‟s Ethernet Statistics Menu displays information about the data received(destined for the AP‟s RF interface) and transmitted from the AP‟s Ethernet (wired)interface (from the RF interface), including VLAN-specific and QoS-specific information.
Figure 9 AP Ethernet Tx and Rx Statistics
Table 7 AP Ethernet Tx and Rx Statistics Attributes
Attribute Meaning / SNMP Details
EthernetPackets:Tx, # ofBytes
The number of bytes that were transmitted from the wired interface
Name danEthTxTotalBytes
OID .1.3.6.1.4.1.32584.1.8.13.1
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal bytes transmitted.
Ethernet
Packets:Tx, # ofPackets
The number of packets that were transmitted from the wired interface
Name danEthTxTotalPackets
OID .1.3.6.1.4.1.32584.1.8.13.2
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Descr Total packets transmitted.
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Attribute Meaning / SNMP Details
EthernetPackets:Tx, # ofPacketswith error
The number of packets that contained errors that prevented their transmission
Name danEthTxPacketErrors
OID .1.3.6.1.4.1.32584.1.8.13.3
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of error packets
EthernetPackets:Tx, # ofDroppedPackets
The number of dropped packets that did not contain errors (possibly dropped to
increase buffer space)
Name danEthTxDroppedPackets
OID .1.3.6.1.4.1.32584.1.8.13.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of packets dropped
EthernetPackets:
Rx, # ofBytes
The number of bytes that were received on the wired interface
Name danEthRxTotalBytes
OID .1.3.6.1.4.1.32584.1.8.13.5
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal bytes received
EthernetPackets:Rx, # of
Packets
The number of packets that were received on the wired interface
Name danEthRxTotalPacketsOID .1.3.6.1.4.1.32584.1.8.13.6
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal packets received
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Attribute Meaning / SNMP Details
EthernetPackets:Rx, # of
Packetswith error
The number of received packets that contained errors that were dropped on thewired interface
Name danEthRxPacketErrors
OID .1.3.6.1.4.1.32584.1.8.13.8
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of packets received witherrors
EthernetPackets:
Rx, # ofDroppedPackets
The number of dropped packets that did not contain errors (possibly dropped toincrease buffer space)
Name danEthRxDroppedPackets
OID .1.3.6.1.4.1.32584.1.8.13.9
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received packetsdropped
Ethernet
Packets:Rx, # ofBroadcastPackets
The number of broadcast protocol packets that were received on the wired interface
Name danEthRxBroadcastPackets
OID .1.3.6.1.4.1.32584.1.8.13.7
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of broadcast packetsreceived
Figure 10 AP Ethernet VLAN Rx Packets Statistics
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Table 8 AP Ethernet VLAN Rx Packets Attributes
Attribute Meaning / SNMP Details
Ethernet Rx: IP
Packets, withVLAN tag,Received
The number of IP packets received on the wired interface that were tagged with
VLAN information
Name danEthRxIpPacketsVlan
OID .1.3.6.1.4.1.32584.1.8.13.10
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received IP packets, withVLAN tag
Ethernet RX: IP
Packets, withVLAN tag,Dropped
The number of IP packets received on the wired interface that were tagged with
VLAN information which were dropped (possibly to increase buffer space)
Name danEthRxIpPacketsVlanDropped
OID .1.3.6.1.4.1.32584.1.8.13.14
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received IP packets, withVLAN tag, dropped
Ethernet Rx: IPPackets,without VLANtag, Received
The number of IP packets received on the wired interface that were not tagged with
VLAN information
Name danEthRxIpPacketsNonVLAN
OID .1.3.6.1.4.1.32584.1.8.13.11
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received IP packets,without VLAN tag
Ethernet Rx: IPPackets,
without VLANtag, Dropped
The number of IP packets received on the wired interface that were not tagged withVLAN information which were dropped (possibly to increase buffer space)
Name danEthRxIpPacketsNonVlanDropped
OID .1.3.6.1.4.1.32584.1.8.13.15
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Descr Total number of received IP packets,
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Attribute Meaning / SNMP Details
without VLAN tag, dropped
Ethernet Rx:Non-IP Packets,with VLAN tag,Received
The number of layer 2 packets received on the wired interface that were tagged withVLAN information
Name danEthRxNonIpPacketsVlan
OID .1.3.6.1.4.1.32584.1.8.13.12
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received Non-IP packets,with VLAN tag
Ethernet Rx:Non-IP Packets,with VLAN tag,Dropped
The number of layer 2 packets received on the wired interface that were tagged withVLAN information which were dropped (possibly to increase buffer space)
Name danEthRxNonIpPacketsVlanDropped
OID .1.3.6.1.4.1.32584.1.8.13.16
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received Non-IP packets,with VLAN tag, dropped
Ethernet Rx:Non-IP Packets,without VLANtag, Received
The number of layer 2 packets received on the wired interface that were not taggedwith VLAN information
Name danEthRxNonIpPacketsNonVlan
OID .1.3.6.1.4.1.32584.1.8.13.13
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received Non-IP packets,without VLAN tag
Ethernet Rx:Non-IP Packets,without VLANtag, Dropped
The number of layer 2 packets received on the wired interface that were not taggedwith VLAN information which were dropped (possibly to increase buffer space)
Name danEthRxNonIpPacketsNonVlanDropped
OID .1.3.6.1.4.1.32584.1.8.13.17
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
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Attribute Meaning / SNMP Details
Access read-only
Descr
Total number of received Non-IP packets,
without VLAN tag, dropped
Figure 11 AP QoS Rx Packet Classification Statistics
Table 9 AP QoS Rx Packet Classification Statistics Attributes
Attribute Meaning / SNMP Details
Ethernet Rx: IPPackets, ToS
The number of packets that contained a TOS value that matched a configuredclassification profile rule. These packets will be transmitted over the wirelessinterface using the QoS profile configured in the matching classification profile
Name danEthRxClsTos
OID .1.3.6.1.4.1.32584.1.8.13.21
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32 Access read-only
DescrTotal number of received packets,classified by TOS
Ethernet Rx: IPPackets, IP,Destination
The number of packets that contained a destination IP that matched a configuredclassification profile rule. These packets will be transmitted over the wirelessinterface using the QoS profile configured in the matching classification profile.
Name danEthRxClsDestIp
OID .1.3.6.1.4.1.32584.1.8.13.19
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received packets,classified by destination IP
Ethernet Rx: IPPackets, IP,Source
The number of packets that contained a source IP that matched a configuredclassification profile rule. These packets will be transmitted over the wirelessinterface using the QoS profile configured in the matching classification profile.
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Attribute Meaning / SNMP Details
Name danEthRxClsSrcIp
OID .1.3.6.1.4.1.32584.1.8.13.20MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received packets,classified by source IP
Ethernet Rx: IPPackets, VLAN,ID
The number of packets that contained a VLAN ID value that matched a configuredclassification profile rule. These packets will be transmitted over the wirelessinterface using the QoS profile configured in the matching classification profile.
Name danEthRxClsVlanId
OID .1.3.6.1.4.1.32584.1.8.13.22
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received packets,classified by VLAN Id
Ethernet Rx: IPPackets, VLAN,Priority
The number of packets that contained a VLAN priority value that matched aconfigured classification profile rule. These packets will be transmitted over thewireless interface using the QoS profile configured in the matching classificationprofile.
Name danEthRxClsVlanPriority
OID .1.3.6.1.4.1.32584.1.8.13.23
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
DescrTotal number of received packets,classified by VLAN priority
Ethernet Rx: IPPackets, MAC,Destination
The number of packets that contained a destination MAC address that matched aconfigured classification profile rule. These packets will be transmitted over thewireless interface using the QoS profile configured in the matching classification
profile.
Name danEthRxClsDestMac
OID .1.3.6.1.4.1.32584.1.8.13.24
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
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Attribute Meaning / SNMP Details
DescrTotal number of received packets,classified by destination MAC
Ethernet Rx: IPPackets, MAC,Source
The number of packets that contained a source MAC address that matched aconfigured classification profile rule. These packets will be transmitted over thewireless interface using the QoS profile configured in the matching classificationprofile.
Name danEthRxClsSrcMac
OID .1.3.6.1.4.1.32584.1.8.13.25
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Descr
Total number of received packets,
classified by source MAC
FRAME UTILIZATION MONITORING
The Frame Utilization table located at the AP‟s Performance Monitor > FrameUtilization menu may be used to calculate frame usage on the PMP 320 downlink anduplink. This calculation is valuable in answering the following questions:
RF link utilization – is the RF link overloaded on the uplink or downlink,or are the CPEs operating at the expected MCS (Modulation and CodingScheme) state?
Sector capacity – does the AP have enough MAP slots available tohandle control messaging for all registered CPEs?
Network expansion feasibility- based on the RF link utilization, what canbe expected as the number of CPEs is increased?
Frame utilization data should be collected over an extended period of time thatincludes peak and non-peak usage hours to properly analyze RF link utilization.
It is recommended to use an Analysis Interval (frames) of at least 100 frameswhen using the monitor. Analyzing this sample size or greater ensures that theresulting data provides a consistent representation of the RF link activity.
The frame utilization monitor may be configured, controlled, and monitored via SNMPcommands. See the procedure below for details on SNMP frame utilization usage.
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Figure 12 Frame Utilization Monitoring Basic Metrics
Figure 13 Frame Utilization Monitoring MCS Metrics
Table 10 Using the Frame Utilization Monitoring Feature
1 Log in to the AP GUI
2 On the AP GUI navigate to Performance Monitor > Frame Utilization.
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3 Enter the interval (number) of frames to be monitored in the field Analysis Interval (frames). Thisvalue represents the number of frames to be analyzed for utilization during each iteration of themonitoring process starting when the operator clicks Start Data Collection and ending when theoperator clicks Stop Data Collection. During the collection, frame utilization analysis is performedon consecutive frames.
Only when monitoring AP frame utilization with a single registered CPE, using an AnalysisInterval of 5 frames may produce varying throughput table results.
It is recommended to use an Analysis Interval (frames) of at least 100 frames when usingthe monitor. Analyzing this sample size or greater ensures that the resulting data provides aconsistent representation of the RF link activity.
Analysis Interval SNMO OID Information:
Name danDevInfoMeasureSlotsCmd
OID .1.3.6.1.4.1.32584.1.3.4.1
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer (5..1000)
Access read-write
DescrDefines the number of frames (5 – 1000)to be analyzed for each monitoringrepetition.
4 Enter the Repetition Rate (secs). This value represents how often the AP will begin frame utilizationanalysis of the number of frames specified in Analysis Interval (frames). One table row will becreated for each repetition of analysis.
Repetition Rate SNMP OID Information:
Name danDevInfoFrameUtilRepetitionRate
OID .1.3.6.1.4.1.32584.1.3.4.8MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32 (5..60)
Access read-write
Descr
Frame utilization data collection repetitioninterval in seconds (range 5 – 60). Thisfield identifies the time between twoconsecutive executions of the frameutilization data collection.
5 Click Update.
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6 To begin analysis, click Start Data Collection.
To begin analysis via SNMP, perform an SNMP set command (with a set value of “1”) using thefollowing OID.
Name danDevInfoFrameUtilCollectionOID .1.3.6.1.4.1.32584.1.3.4.7
MIB DAN-BASIC-MIB-ADMIN
SyntaxINTEGER {startCollection(1),stopCollection(2)}
Access read-write
Descr
Start and Stop operation for the FrameUtilization feature that is based on the theconfigured Analysis Interval andRepetition Rate.
7 There are three table display option buttons available, Basic Metrics, MCS Metrics, and All Metrics,
detailed below.
Each metric may be retrieved individually via SNMP. Each metric is retrieved based on the SystemTime for which the data was collected.
For example, to retrieve the first collection of DL Slots Used (%), begin by performing an SNMPgetnext command, similar to below:
snmpgetnext -v2c -c admin_admin 10.1.1.2 .1.3.6.1.4.1.32584.1.3.4.6.1.8
SNMPv2-SMI::enterprises.32584.1.3.4.6.1.8.3542662153 = INTEGER: 2
To retrieve the next collection of DL Slots Used (%), perform an SNMP getnext command using the
system time (in integer format) from the previous retrieval, similar to below:
snmpgetnext -v2c -c admin_admin 10.1.1.2.1.3.6.1.4.1.32584.1.3.4.6.1.8.3542662153
SNMPv2-SMI::enterprises.32584.1.3.4.6.1.8.3542662158 = INTEGER: 1
Operators may also choose to retrieve all of the collection data at once, which may be performed byissuing an SNMP walk command, similar to below:
snmpwalk -v2c -c admin_admin 10.1.1.2.1.3.6.1.4.1.32584.1.3.4.6
Result: All table values are retrieved and displayed
Basic Metrics / SNMP Details
System Time The time for which the period of analysis began, based on RepetitionRate (secs)
Name danDevInfoFrameUtilSysTime
OID .1.3.6.1.4.1.32584.1.3.4.6.1.1
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
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Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe time in GMT at which the data wascollected
DL Slots Used (%) The percentage of downlink data slots used in the Analysis Interval (frames). A good practice in network operation is to try to keep theaverage usage at or below 80%.
Name danDevInfoFrameUtilPercDLSlotsUsed
OID .1.3.6.1.4.1.32584.1.3.4.6.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr
Percentage of total DL slots used in the Analysis Interval not including MAP(Medium Access Control) and FCH(Frame Control Header)
UL Slots Used (%) The percentage of uplink data slots used in the Analysis Interval(frames). A good practice in network operation is to try to keep theaverage usage at or below 80%.
Name danDevInfoFrameUtilPercULSlotsUsed
OID .1.3.6.1.4.1.32584.1.3.4.6.1.6
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr
Number of DL slots used in the Analysis
Interval not including uplink control slots
MAP Slots Used (%) The Map slots allocate downlink and uplink resources in each WiMAXframe. This value represents the average usage of the Map slots in theAnalysis Interval (frames). A good practice in network operation is totry to keep the Map Average Usage at or below 80%. If Map AverageUsage is reporting greater than 80% usage but the Average Usage isbelow 80% the Map Symbol # parameter located in the AP GUI atConfiguration > Mode may be increased to 7, thereby increasing theMap header and allowing for more Map overhead.
Name danDevInfoFrameUtilMapSlotsUsed
OID .1.3.6.1.4.1.32584.1.3.4.6.1.8
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32 Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrPercentage of MAP slots used in the Analysis Interval
Frames MAP Full (%) As a percentage of the Analysis Interval (frames), this value is anindication of the system capacity from a resource allocation (or control)perspective. The number of CPEs, number of service flows
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established, and the polling intervals for non-Best Effort service flowscan all have an impact on this ratio.
Name danDevInfoFrameUtilMapFull
OID .1.3.6.1.4.1.32584.1.3.4.6.1.9
MIB DAN-BASIC-MIB-ADMINSyntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrNumber of frames in the Analysis Intervalfor which scheduling stopped becauseMAP was full
DL Throughput(Kbps)
The average downlink throughput achieved during the AnalysisInterval (frames).
Name danDevInfoFrameUtilDlThroughput
OID .1.3.6.1.4.1.32584.1.3.4.6.1.27
MIB DAN-BASIC-MIB-ADMINSyntax Unsigned32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrOver the air DL throughput in bps duringthe Analysis Interval
UL Throughput(Kbps)
The average uplink throughput achieved during the Analysis Interval(frames).
Name danDevInfoFrameUtilUlThroughput
OID .1.3.6.1.4.1.32584.1.3.4.6.1.28
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32 Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrOver the air UL throughput in bps duringthe Analysis Interval
MCS Metrics
System Time The time for which the period of analysis began, basedon Repetition Rate (secs)
Name danDevInfoFrameUtilSysTime
OID .1.3.6.1.4.1.32584.1.3.4.6.1.1
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe time in GMT at which the datawas collected
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DL 64QAM 5/6 MIMO-B %),
DL 64QAM 5/6 (%), DL64QAM 3/4 (%), DL 64QAM2/3 (%), DL 64QAM 1/2 (%),DL 16QAM 3/4 (%), DL
16QAM 1/2 (%), DL QPSK3/4 (%), DL QPSK 1/2 (%)
The percentage of downlink data slots used in theAnalysis Interval (frames) for each MCS (Modulationand Coding Scheme) state.
Name danDevInfoFrameUtilDl64QAM67MimoB
OID .1.3.6.1.4.1.32584.1.3.4.6.1.10MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 5/6 using MIMO B diversity
Name danDevInfoFrameUtilDl64QAM56
OID .1.3.6.1.4.1.32584.1.3.4.6.1.11
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 5/6 using MIMO Adiversity
Name danDevInfoFrameUtilDl64QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.12
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 3/4 using MIMO Adiversity
Name danDevInfoFrameUtilDl64QAM23
OID .1.3.6.1.4.1.32584.1.3.4.6.1.13
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-onlyIndexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 2/3 using MIMO Adiversity
Name danDevInfoFrameUtilDl64QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.14
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MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 1/2 using MIMO Adiversity
Name danDevInfoFrameUtilDl16QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.15
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr
The percentage of DL slots modulated
with 16QAM 3/4 using MIMO Adiversity
Name danDevInfoFrameUtilDl16QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.16
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 16QAM 1/2 using MIMO A
diversity
Name danDevInfoFrameUtilDlQPSK34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.17
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith QPSK 3/4 using MIMO A diversity
Name danDevInfoFrameUtilDlQPSK12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.18
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
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DescrThe percentage of DL slots modulatedwith QPSK 1/2 using MIMO A diversity
UL 64QAM 5/6 (%), UL64QAM 3/4 (%), UL 64QAM
2/3 (%), UL 64QAM 1/2 (%),UL 16QAM 3/4 (%), UL16QAM 1/2 (%), UL QPSK3/4 (%), UL QPSK 1/2 (%)
The percentage of uplink data slots used in theAnalysis Interval (frames) for each MCS (Modulation
and Coding Scheme) state.
Name danDevInfoFrameUtilUl64QAM56
OID .1.3.6.1.4.1.32584.1.3.4.6.1.19
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 5/6
Name danDevInfoFrameUtilUl64QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.20
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 3/4
Name danDevInfoFrameUtilUl64QAM23
OID .1.3.6.1.4.1.32584.1.3.4.6.1.21MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 2/3
Name danDevInfoFrameUtilUl64QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.22
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 1/2
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Name danDevInfoFrameUtilUl16QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.23
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 16QAM 3/4
Name danDevInfoFrameUtilUl16QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.24
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 16QAM 1/2
Name danDevInfoFrameUtilUlQPSK34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.25
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulated
with QPSK 3/4
Name danDevInfoFrameUtilDlQPSK12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.26
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith QPSK 1/2
All Metrics
System Time The time for which the period of analysis began, basedon Repetition Rate (secs)
Name danDevInfoFrameUtilSysTime
OID .1.3.6.1.4.1.32584.1.3.4.6.1.1
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MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr The time in GMT at which the datawas collected
Total DL Slots The total number of downlink slots analyzed during theAnalysis Interval (frames).
Name danDevInfoFrameUtilTotalDLSlots
OID .1.3.6.1.4.1.32584.1.3.4.6.1.2
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr
Total number of DL slots in the Analysis Interval not including MAP(Medium Access Control) and FCH(Frame Control Header)
DL Slots Used The total number of downlink slots used during theAnalysis Interval (frames).
Name danDevInfoFrameUtilTotalDLSlots
OID .1.3.6.1.4.1.32584.1.3.4.6.1.2
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-onlyIndexes danDevInfoFrameUtilSysTime
Descr
Total number of DL slots in the Analysis Interval not including MAP(Medium Access Control) and FCH(Frame Control Header)
DL Slots Used (%) The percentage of downlink data slots used in theAnalysis Interval (frames). A good practice innetwork operation is to try to keep the average usage ator below 80%.
Name danDevInfoFrameUtilPercDLSlotsUsed
OID .1.3.6.1.4.1.32584.1.3.4.6.1.4MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrPercentage of total DL slots used in the Analysis Interval not including MAP
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(Medium Access Control) and FCH(Frame Control Header)
Total UL Slots The total number of uplink slots analyzed during theAnalysis Interval (frames).
Name danDevInfoFrameUtilPercDLSlotsUsed
OID .1.3.6.1.4.1.32584.1.3.4.6.1.4
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr
Percentage of total DL slots used in the Analysis Interval not including MAP(Medium Access Control) and FCH(Frame Control Header)
UL Slots Used The total number of uplink slots used during theAnalysis Interval (frames).
UL Slots Used (%) The percentage of uplink data slots used in theAnalysis Interval (frames). A good practice in
network operation is to try to keep the average usage ator below 80%.
Name danDevInfoFrameUtilPercULSlotsUsed
OID .1.3.6.1.4.1.32584.1.3.4.6.1.6
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrNumber of DL slots used in the Analysis Interval not including uplinkcontrol slots
MAP Slots Used (%) The Map slots allocate downlink and uplink resources ineach WiMAX frame. This value represents the averageusage of the Map slots in the Analysis Interval(frames). A good practice in network operation is to tryto keep the Map Average Usage at or below 80%. IfMap Average Usage is reporting greater than 80%usage but the Average Usage is below 80% the MapSymbol # parameter located in the AP GUI atConfiguration > Mode may be increased to 7, thereby
increasing the Map header and allowing for more Mapoverhead.
Name danDevInfoFrameUtilMapSlotsUsed
OID .1.3.6.1.4.1.32584.1.3.4.6.1.8
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
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Indexes danDevInfoFrameUtilSysTime
DescrPercentage of MAP slots used in the Analysis Interval
Frames MAP Full (%) As a percentage of the Analysis Interval (frames), this
value is an indication of the system capacity from aresource allocation (or control) perspective. Thenumber of CPEs, number of service flows established,and the polling intervals for non-Best Effort serviceflows can all have an impact on this ratio.
Name danDevInfoFrameUtilMapFull
OID .1.3.6.1.4.1.32584.1.3.4.6.1.9
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrNumber of frames in the AnalysisInterval for which scheduling stoppedbecause MAP was full
DL 64QAM 5/6 MIMO-B(%),DL 64QAM 5/6 (%), DL64QAM 3/4 (%), DL 64QAM2/3 (%), DL 64QAM 1/2 (%),DL 16QAM 3/4 (%), DL16QAM 1/2 (%), DL QPSK3/4 (%), DL QPSK 1/2 (%)
The number of downlink data slots used in theAnalysis Interval (frames) for each MCS (Modulationand Coding Scheme) state.
Name danDevInfoFrameUtilDl64QAM56MimoB
OID .1.3.6.1.4.1.32584.1.3.4.6.1.10
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-onlyIndexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 5/6 using MIMO B diversity
Name danDevInfoFrameUtilDl64QAM56
OID .1.3.6.1.4.1.32584.1.3.4.6.1.11
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 5/6 using MIMO Adiversity
Name danDevInfoFrameUtilDl64QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.12
MIB DAN-BASIC-MIB-ADMIN
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Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr
The percentage of DL slots modulated
with 64QAM 3/4 using MIMO Adiversity
Name danDevInfoFrameUtilDl64QAM23
OID .1.3.6.1.4.1.32584.1.3.4.6.1.13
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 2/3 using MIMO A
diversity
Name danDevInfoFrameUtilDl64QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.14
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 64QAM 1/2 using MIMO Adiversity
Name danDevInfoFrameUtilDl16QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.15
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith 16QAM 3/4 using MIMO Adiversity
Name danDevInfoFrameUtilDl16QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.16
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
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DescrThe percentage of DL slots modulatedwith 16QAM 1/2 using MIMO Adiversity
Name danDevInfoFrameUtilDlQPSK34OID .1.3.6.1.4.1.32584.1.3.4.6.1.17
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith QPSK 3/4 using MIMO A diversity
Name danDevInfoFrameUtilDlQPSK12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.18
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith QPSK 1/2 using MIMO A diversity
UL 64QAM 5/6 (%), UL64QAM 3/4 (%), UL 64QAM2/3 (%), UL 64QAM 1/2 (%),UL 16QAM 3/4 (%), UL16QAM 1/2 (%), UL QPSK3/4 (%), UL QPSK 1/2 (%)
The number of uplink data slots used in the AnalysisInterval (frames) for each MCS (Modulation andCoding Scheme) state.
Name danDevInfoFrameUtilUl64QAM56
OID .1.3.6.1.4.1.32584.1.3.4.6.1.19
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 5/6
Name danDevInfoFrameUtilUl64QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.20
MIB DAN-BASIC-MIB-ADMINSyntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 3/4
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Name danDevInfoFrameUtilUl64QAM23
OID .1.3.6.1.4.1.32584.1.3.4.6.1.21
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 2/3
Name danDevInfoFrameUtilUl64QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.22
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 64QAM 1/2
Name danDevInfoFrameUtilUl16QAM34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.23
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulated
with 16QAM 3/4
Name danDevInfoFrameUtilUl16QAM12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.24
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of UL slots modulatedwith 16QAM 1/2
Name danDevInfoFrameUtilUlQPSK34
OID .1.3.6.1.4.1.32584.1.3.4.6.1.25
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
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DescrThe percentage of UL slots modulatedwith QPSK 3/4
Name danDevInfoFrameUtilDlQPSK12
OID .1.3.6.1.4.1.32584.1.3.4.6.1.26MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrThe percentage of DL slots modulatedwith QPSK 1/2
DL Throughput (Kbps) The average downlink throughput achieved during theAnalysis Interval (frames).
Name danDevInfoFrameUtilDlThroughput
OID .1.3.6.1.4.1.32584.1.3.4.6.1.27
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrOver the air DL throughput in bpsduring the Analysis Interval
UL Throughput (Kbps) The average uplink throughput achieved during theAnalysis Interval (frames).
Name danDevInfoFrameUtilUlThroughput
OID .1.3.6.1.4.1.32584.1.3.4.6.1.28
MIB DAN-BASIC-MIB-ADMIN
Syntax Unsigned32
Access read-only
Indexes danDevInfoFrameUtilSysTime
DescrOver the air UL throughput in bpsduring the Analysis Interval
Avg DL MCS (bits/slot) The average number of downlink bits per slot over theAnalysis Interval, based on the MCS state.
Name danDevInfoFrameUtilDlAvgMCS
OID .1.3.6.1.4.1.32584.1.3.4.6.1.29
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr Average DL MCS (in bits/slot units)utilized during the Analysis Interval
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Avg UL MCS (bits/slot) The average number of uplink bits per slot over theAnalysis Interval, based on the MCS state.
Name danDevInfoFrameUtilUlAvgMCS
OID .1.3.6.1.4.1.32584.1.3.4.6.1.30MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr Average UL MCS (in bits/slot units)utilized during the Analysis Interval
Avg DL UnusedSlots/Frame
The average (over the Analysis Interval) number ofdownlink slots that were not used for data transmission.
Name danDevInfoFrameUtilAvgDlUnusedSlots
OID .1.3.6.1.4.1.32584.1.3.4.6.1.31MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr Average unused DL slots per frameduring the Analysis Interval
Avg UL UnusedSlots/Frame
The average (over the Analysis Interval) number ofuplink slots that were not used for data transmission.
Name danDevInfoFrameUtilAvgUlUnusedSlots
OID .1.3.6.1.4.1.32584.1.3.4.6.1.32
MIB DAN-BASIC-MIB-ADMIN
Syntax Integer32
Access read-only
Indexes danDevInfoFrameUtilSysTime
Descr Average unused UL slots per frameduring the Analysis Interval
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8 To stop analysis, click Stop Data Collection.
To stop analysis via SNMP, perform an SNMP set command (with a set value of “2”) using thefollowing OID.
Name danDevInfoFrameUtilCollectionOID .1.3.6.1.4.1.32584.1.3.4.7
MIB DAN-BASIC-MIB-ADMIN
SyntaxINTEGER {startCollection(1),stopCollection(2)}
Access read-write
Descr
Start and Stop operation for the FrameUtilization feature that is based on the theconfigured Analysis Interval andRepetition Rate.
SYSTEM CONFIGURATION GUIDELINES
System Release e2.3-Specific Upgrade Notes
After upgrading a PMP 320 CSM to System Release e2.3 (CSM version 8.1.4), if theCSM device type changes to “generic” in CNUT, the element may be changed back to aPMP 320 CSM device in CNUT by right-clicking on the element and selecting “Change
Network Element Type”.
Before upgrading from e2.2.2 to e2.3, save a configuration restore point on the AP‟sAdministration > Configuration Control GUI page. If it is required that the network isreverted back to a pre-2.3 release, the configuration control point may be restored, andall QoS and service flow configuration will be restored. Before upgrading to e2.3, if allconfiguration restore points are already populated, overwrite one of them with the AP‟scurrent configuration without changing the restore point’s name. Otherwise, an unusedconfiguration control slot may be used. When using e2.3, configuration control restorepoints may be created with new names.
Before upgrading to e2.3, the AP‟s “admin” account password should be set to “admin”.During the upgrade process, all AP usernames and passwords are reset to their defaultvalues. By configuring the AP‟s “admin” account password to its default value before
upgrading, the CNUT upgrade process will be completed in one step.
PMP 320 Module Staging
It is common to stage the equipment prior to installation on-site. During the stagingprocess, the modules may be upgraded to the latest software version, configured to theoperator‟s specifications, and validated for proper functionality.
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PMP 320 Module Pre-deployment Upgrading
When the radios arrive from the factory, the software version may be upgradedimmediately to take advantage of the latest software functionality and performance. Thefollowing steps can be used to update a single AP