User's Manual
Table Of Contents
- System Manual BreezeMAX Extreme
- About This Manual
- Contents
- Chapter 1 - System Description
- 1.1 About WiMAX
- 1.2 WiMAX Network Architecture
- 1.3 BreezeMAX Extreme
- 1.4 Specifications
- 1.4.1 General Modem and Radio
- 1.4.2 3.x GHz BTS
- 1.4.3 5 GHz BTS
- 1.4.4 Sensitivity
- 1.4.5 3.x GHz Antennas
- 1.4.6 5 GHz Antennas
- 1.4.7 Power Supply
- 1.4.8 GPS Antennas
- 1.4.9 Data Communication (Ethernet Port)
- 1.4.10 Configuration and Management
- 1.4.11 Environmental
- 1.4.12 BTS Standards Compliance, General
- 1.4.13 Notes on Maximum Tx Power Limitations for 5 GHz Units Using FCC Country Code:
- 1.4.14 TDWR Interference Avoidance
- Chapter 2 - Installation
- 2.1 Site Deployment Options
- 2.2 BTS Installation
- 2.3 GPS Installation
- 2.4 Indoor Power Supply Installation
- 2.5 Cable Connections
- 2.6 External Antennas Connection
- Chapter 3 - Commissioning
- Chapter 4 - Operation and Administration
- 4.1 BreezeMAX Extreme System Management
- 4.2 The Monitor Program
- 4.3 IP Addresses Configuration
- 4.4 The Main Menu
- 4.5 BTS Menu
- 4.5.1 Show Summary
- 4.5.2 Show Properties
- 4.5.3 Show License Properties
- 4.5.4 Configuration
- 4.5.5 Unit Control
- 4.5.6 Fault Management
- 4.5.7 Performance Counters
- 4.6 ASN-GW Menu
- 4.6.1 AAA
- 4.6.2 Services Menu
- 4.6.2.1 Introduction
- 4.6.2.2 Common Operations in Services Menus
- 4.6.2.3 MSs Services
- 4.6.2.4 Service Profiles
- 4.6.2.5 QoS Profiles
- 4.6.2.6 Multiple Service Flows
- 4.6.2.7 Service Rules
- 4.6.2.8 Classifiers
- 4.6.2.9 Service Groups
- 4.6.2.9.1 Service Group ID
- 4.6.2.9.2 Service Group Name
- 4.6.2.9.3 DHCP Type
- 4.6.2.9.4 Nomadic Mode
- 4.6.2.9.5 Attribute 31
- 4.6.2.9.6 Attribute 32
- 4.6.2.9.7 Attribute 32 Free Text
- 4.6.2.9.8 Interface IP Address
- 4.6.2.9.9 Interface Subnet Mask
- 4.6.2.9.10 Default Gateway
- 4.6.2.9.11 VLAN ID
- 4.6.2.9.12 VLAN Priority
- 4.6.2.9.13 DHCP Server Specific Parameters
- 4.6.2.9.14 Option 82 Parameters
- 4.6.2.9.15 DHCP Relay with Option 82 Specific Parameters
- 4.6.2.9.16 Show DHCP Lease Times
- 4.6.2.10 Service Interfaces
- 4.6.2.10.1 Service Interface ID
- 4.6.2.10.2 Service Interface Name
- 4.6.2.10.3 Forwarding Rule Name
- 4.6.2.10.4 CS Type
- 4.6.2.10.5 VLAN Interface
- 4.6.2.10.6 VLAN Transparency
- 4.6.2.10.7 VLAN ID
- 4.6.2.10.8 VLAN Priority Marking
- 4.6.2.10.9 VLAN Priority
- 4.6.2.10.10 VLAN List
- 4.6.2.10.11 Inner DSCP Marking
- 4.6.2.10.12 Inner DSCP
- 4.6.2.11 Forwarding Rules
- 4.6.2.12 MSs Default Services
- 4.6.3 MAC Access Lists
- 4.7 Sector Menu
- 4.8 BS Menu
- 4.9 Radio Channel Menu
- 4.10 Antenna Menu
- 4.11 GPS Menu
- 4.12 MS Menu
- 4.13 Parameters Summary
- Glossary
Chapter 4 - Operation and Administration ASN-GW Menu
BreezeMAX Extreme 134 System Manual
channel in the uplink for ACK/NACK signaling. Asynchronous operations allow
variable delay between retransmissions, which provides greater flexibility for the
scheduler.
In the current release HARQ is not configurable: It is enabled by default with 4
repetitions for Management, Data, PPPoE, Reliable Video, and Optimized Video
Service Profiles, and with 1 repetition for VoIP Service Profiles.
4.6.2.5 QoS Profiles
The QoS Profile submenu option for a selected Service Profile enables managing
the QoS Profiles assigned to the Service Profile. At least one QoS Profile must be
assigned to each Service Profile, up to a maximum of four QoS Profiles per Service
Profile.
Each QoS Profile includes the following components:
QoS Profile ID
Uplink QoS Type
Uplink CP
Uplink QoS Parameter(s) - according to Uplink QoS Type
Downlink QoS Type
Downlink CP
Downlink QoS Parameter(s)- according to Downlink QoS Type
4.6.2.5.1 QoS Profile ID
This is an auto-sequential number from 1 to a maximum of 4, generated
automatically during creation of a new QoS Profile for the specific Service Profile.
4.6.2.5.2 Uplink/Downlink QoS Type
The type of QoS mechanism in the uplink/downlink when the QoS Profile is used.
In the current release the available options are BE (Best Effort), NRT (Non Real
Time), and ERT (Extended Real Time).
BE (Best Effort) service is designed to support data streams, such as Web
browsing, that do not require a minimum service-level guarantee.
NRT (Non Real Time) is designed to support delay-tolerant data streams, such as
FTP, that require variable-size data grants at a minimum guaranteed rate.