User's Manual
Table Of Contents
- BreezeMAX TDD Modular Base Station System Manual
- About This Manual
- Contents
- Figures
- Tables
- Chapter 1 - System Description
- 1.1 Introducing BreezeMAX
- 1.2 Base Station Equipment
- 1.3 Networking Equipment
- 1.4 Management Systems
- 1.5 Specifications
- 1.5.1 Radio
- 1.5.2 Base Station 2.X GHz Antennas (Optional)
- 1.5.3 Base Station 3.5 GHz Antennas (Optional)
- 1.5.4 ˘AU-IDU to AU-ODU Communication
- 1.5.5 Data Communication (Ethernet Ports)
- 1.5.6 Configuration and Management
- 1.5.7 Standards Compliance, General
- 1.5.8 Environmental
- 1.5.9 Services
- 1.5.10 Physical and Electrical
- Chapter 2 - Installation Guidelines
- 2.1 Installing the AU-ODU
- 2.2 Installing the Base Station Equipment
- 2.2.1 BST Installation Requirements
- 2.2.2 BMAX-BST-SH Chassis Slot Assignments
- 2.2.3 Power Requirements
- 2.2.4 HOT SWAP Support
- 2.2.5 Power Interface Unit (PIU)
- 2.2.6 Power Supply Unit (PSU)
- 2.2.7 Access Unit Indoor Module (AU-IDU)
- 2.2.8 Network Processing Unit (NPU)
- 2.2.9 Using the Hot Swap Injector/Ejector Handles
- 2.2.10 Installing the Base Station Chassis and Modules
- 2.2.11 Air Ventilation Unit (AVU)
- 2.3 Installing the ODU Power Feeder
- 2.4 Installing the GPS Adapter
- Chapter 3 - Commissioning
- Chapter 4 - Operation and Administration
- 4.1 BreezeMAX System Management
- 4.2 The Monitor Program
- 4.3 ˘The NPU's Main Menu
- 4.4 Base Station Menu
- 4.5 ˘NPU Menu
- 4.6 Radio Cluster Menu
- 4.7 ODU Menu
- 4.8 AU Menu
- 4.8.1 Show Summary
- 4.8.2 Upgrading AU’s SW
- 4.8.3 SW Files in NPU
- 4.8.4 Select
- 4.8.5 AU Slot # Menu
- 4.8.6 Performance Monitoring
- 4.9 SU Menu
- 4.9.1 Show Summary
- 4.9.2 Show Summary by AU
- 4.9.3 Upgrading SU’s SW
- 4.9.4 ˘SW Files in NPU
- 4.9.5 Select by Name
- 4.9.6 Select by MAC Address
- 4.9.7 SU # Menu
- 4.9.7.1 Show
- 4.9.7.2 Unit Control
- 4.9.7.3 Configuration
- 4.9.7.3.1 Registration Parameters
- 4.9.7.3.2 MAC Parameters
- 4.9.7.3.3 Phy Parameters
- 4.9.7.3.4 Multirate and ATPC Parameters
- 4.9.7.3.5 Voice/Networking Gateways
- 4.9.7.3.6 Ethernet Port
- 4.9.7.3.7 Installer Password
- 4.9.7.3.8 ˘Bridging Parameters
- 4.9.7.3.9 License
- 4.9.7.3.10 Best BST/AU
- 4.9.7.3.11 Frequency Scanning
- 4.9.7.4 Performance Monitoring
- 4.9.7.5 Show MAC Addresses Behind SU
- 4.9.7.6 Delete
- 4.9.8 Add New SU
- 4.9.9 Clear All Configured SU SW Files
- 4.10 Services Menu
- 4.10.1 Introduction to Services
- 4.10.2 Introduction to Filtering Features
- 4.10.3 Common Operations in Services Menu
- 4.10.4 The Services Menu
- 4.10.4.1 General
- 4.10.4.2 Subscribers
- 4.10.4.3 Services
- 4.10.4.4 Service Profiles
- 4.10.4.4.1 Service Profile Name
- 4.10.4.4.2 Service Type
- 4.10.4.4.3 VLAN Transparency Mode
- 4.10.4.4.4 VPL ID
- 4.10.4.4.5 Priority Marking Mode
- 4.10.4.4.6 Priority Marking Value
- 4.10.4.4.7 Forwarding Rule
- 4.10.4.4.8 Priority Classifier (L2 and PPPoE Service Type)
- 4.10.4.4.9 Maximum Number of Voice Calls (L2 and Voice Service Type)
- 4.10.4.4.10 Service Profile Class
- 4.10.4.5 Forwarding Rules
- 4.10.4.5.1 Forwarding Rule Name
- 4.10.4.5.2 Service Type
- 4.10.4.5.3 Unicast Relaying (L2 and Voice Service Type)
- 4.10.4.5.4 Broadcast Relaying (L2 and Voice Service Type)
- 4.10.4.5.5 Unknown Forwarding Policy (L2 and Voice Services Type)
- 4.10.4.5.6 Multicast VLAN ID
- 4.10.4.5.7 Multicast QoS Profile
- 4.10.4.5.8 Forwarding Rule Class
- 4.10.4.6 Priority Classifiers (L2 and PPPoE Service Type)
- 4.10.4.7 QoS Profiles
- 4.10.4.8 Filtering Rules
- 4.10.4.9 Interface Filtering
- 4.10.4.10 Filtering Examples
- 4.10.4.11 MAC Addresses Deny List
- 4.10.4.12 XML File Parsing Errors
- 4.10.5 Defining Local Service Profiles
- 4.10.6 Defining Local Services
- 4.10.7 Defining RADIUS Based Services
- 4.10.8 Pre-configured Profiles
- 4.11 NPU Parameters Summary
- Appendix A - Software Upgrade
- Appendix B - Defining Service Profiles for Generic VoIP Gateways
- Glossary
- Index
200 Operation
Chapter 4 - Operation and Administration
4.10.4.7 QoS Profiles
The QoS Profile defines the Quality of Service parameters that are applicable when
the QoS Profile is used.
Different QoS Profile Types are available to support different service requirements:
Real-Time (RT) service is designed to meet the needs of Real Time Variable Bit
Rate like services characterized by requirements for guaranteed rate and delay
such as streaming video or audio. These services are dynamic in nature, but
offer periodic dedicated requests opportunities to meet real-time requirements.
Because the Subscriber Unit issues explicit requests, the protocol overhead
and latency is increased, but capacity is granted only according to the real
needs of the connection. QoS Profile parameters include Committed
Information Rate (CIR) and Committed Time (CT).
Non-Real-Time (NRT) service is very similar to the Real-Time polling service
except that connections may utilize random access transmit opportunities for
sending bandwidth requests. These Non Real Time Variable Bit Rate services,
such as file transfer and Internet access with a minimum guaranteed rate, are
characterized by requirement for a guaranteed rate, but can tolerate longer
delays and are rather insensitive to jitter. QoS Profile parameters include
Committed Information Rate (CIR), Committed Time (CT) and Maximum
Information Rate (MIR) that limits the rate so that bandwidth intensive
services will not expand to occupy the full bandwidth.
Best Effort (BE) service is for services where neither throughput nor delay
guarantees are provided. The Subscriber Unit sends requests for bandwidth in
either random access slots or dedicated transmission opportunities. The
occurrence of dedicated opportunities is subject to network load, and the
Subscriber Unit cannot rely on their presence. Service parameters include
Committed Time (CT) and Maximum Information Rate (MIR).
Continuous Grant (CG) service is tailored for carrying constant bit rate (CBR)
real-time services characterized by fixed size data packets on a periodic basis
such as VoIP or E1/T1. The Base Station schedules regularly, in a preemptive
manner, grants of the size defined at connection setup, without an explicit
request from the Subscriber Unit. This eliminates the overhead and latency of
bandwidth requests in order to meet the delay and jitter requirements of the
underlying service. Service parameters include Packet Size (unsolicited grant
size) and Sampling Rate (grant interval).