Wireless Modem Router User's Manual
Table Of Contents
- Version 2.4
- Before You Use
- Unpacking
- Features
- ADSL Compliance
- ADSL2 Compliance
- ADSL2+ Compliance
- Wireless LAN Compliance
- ATM Features
- Bridging Features
- Routing Features
- Security Features
- Configuration and Management
- Subscription for ADSL Service
- Notes and Cautions
- Chapter 1: Overview
- Physical Outlook
- Front Panel
- LED Indicators
- Rear Panel
- Chapter 2: System Requirement and Installation
- System Requirement
- Choosing a place for the ADSL Router
- Connecting the ADSL Router
- USB Driver Installation
- For Windows ME
- For Windows 2000
- For Windows XP
- For Windows Vista
- Uninstalling the USB Driver
- For Windows ME
- For Windows 2000
- For Windows XP
- For Windows Vista
- Setting up TCP/IP
- For Windows 98
- For Windows ME
- For Windows NT
- For Windows 2000
- For Windows XP
- For Windows Vista
- Renewing IP Address on Client PC
- For Windows 98/ME
- For Windows NT/2000/XP
- For Windows Vista
- Chapter 3: Accessing the Internet
- PPP over ATM (PPPoA) Mode
- Description:
- Configuration:
- PPP over ATM (PPPoA) IP Extension Mode
- Description:
- Configuration:
- PPP over Ethernet (PPPoE) Mode
- Description:
- Configuration:
- PPP over Ethernet (PPPoE) IP Extension Mode
- Description:
- Configuration:
- Numbered IP over ATM (IPoA)
- Description:
- Configuration:
- Numbered IP over ATM (IPoA)+NAT
- Description:
- Configuration:
- Unnumbered IP over ATM (IPoA)
- Description:
- Configuration:
- Unnumbered IP over ATM (IPoA)+NAT
- Description:
- Configuration:
- Bridge Mode
- Description:
- Configuration:
- MER
- Description:
- Configuration:
- Chapter 4: Web Configuration
- Using Web-Based Manager
- Outline of Web Manager
- To Have the New Settings Take Effect
- Language
- Quick Start
- Connect to Internet
- Quick Setup
- Connection Type
- PPP over ATM/ PPP over Ethernet
- IP over ATM
- Bridging
- Status
- Overview
- ADSL Line
- ADSL BER Test
- Internet Connection
- Traffic Statistics
- DHCP Table
- Wireless Clients
- Routing Table
- ARP Table
- Advanced Setup
- Local Network – IP Address
- Local Network – DHCP Server
- Local Network – UPnP
- Local Network – IGMP Snooping
- Internet – Connections
- Adding a New One
- Internet – DNS Server
- Internet – IGMP Proxy
- Internet – ADSL
- IP Routing – Static Route
- Adding a New One
- Remove Static Route
- Example – Static Route
- IP Routing – Dynamic Routing
- Operation: There are two modes for you to choose, Active and Passive. Select Active for transmitting and receiving data, or select Passive for receiving data only.
- Virtual Server – Port Forwarding
- IP Address seen by Internet Users
- Add New Port Forwarding
- Virtual Server – Port Triggering
- Virtual Server – DMZ Host
- Virtual Server – Dynamic DNS
- Virtual Server – Static DNS
- NAT ALG Configuration
- Firewall
- Firewall – Bridge Filtering
- Firewall – IP Filtering
- Quality of Service
- Quality of Service – Bridge QoS
- Quality of Service – IP QoS
- Port Mapping
- Wireless
- Basic Settings
- Security
- For 64-bit WEP/128-bit WEP
- For 802.1X Wireless Network
- 802.1x environment Configuration
- For WPA (Wi-Fi Protected Access)
- For WPA-PSK; WPA2-PSK; Mixed WPA2/WPA-PSK
- For WPA-2; Mixed WPA2/WPA
- Access Control
- Repeater
- Management
- Diagnostics
- Management Accounts
- Management Control – From Remote
- Management Control – From Local
- TR-069 Client Configuration
- Identify the Validation of Certificate from ACS
- Internet Time
- System Log
- Configuring System Log
- Example
- System Log Configuration
- Viewing System Log – Remote Side (Server)
- Viewing System Log – Local Side (ADSL Router)
- Backup Config
- Update Firmware
- Reset Router
- UPnP for XP
- Chapter 5: Troubleshooting
- Problems with LAN
- Problems with WAN
- Problems with Upgrading
- Chapter 6: Glossary
- ARP (Address Resolution Protocol )
- DHCP (Dynamic Host Configuration Protocol)
- LAN (Local Area Network) & WAN (Wide Area Network)
- NAT (Network Address Translation) IP Address
- Private IP Address
- Public IP Address
- PVC (Permanent Virtual Circuit)
- RIP (Routing Information Protocol)
- UDP (User Datagram Protocol)
- Virtual Server
- VPI (Virtual Path Identifier) & VCI (Virtual Channel Identifier)
- Appendix A: Specifications
- Appendix B: Client Setup for 802.1x, WPA, and WPA-PSK
- Retreiving Client Certificate
- Enabling 802.1x Authentication and Security
- Enabling WPA Authentication and Security
- Enabling WPA-PSK Authentication and Security
Chapter 4: Web Configuration
101
Quality of Service
QoS (Quality of Service) is an industry-wide initiative to provide preferential
treatment to certain subsets of data, enabling that data to traverse the Internet or
intranet with higher quality transmission service.
There have been two generations of quality of service architectures in the Internet.
The interpretation of the Type of Service Octet in the Internet Protocol header varies
between these two generations.
The First generation: Precedence and type of service bits
The refined definition of the initial Type of Service Octet looks like this:
2^7 2^6 2^5 2^4 2^3 2^2 2^1 2^0
Precedence Type of Service Field
The Second generation: Differentiated services code point
The Differentiated Service Code Point is a selector for router's per-hop behaviors
(PHB). As a selector, there is no implication that a numerically greater DSCP implies
a better network service. RFC2474 redefined the Type of Service Octet to be:
2^7 2^6 2^5 2^4 2^3 2^2 2^1 2^0
Differentiated Services Code Point ECT CE
The fields ECT and CE are nothing to do with quality of service. They are spare bits
in the IP header used by Explicit Congestion Notification. As can be seen, the DSCP
totally overlaps the old Precedence field. So if values of DSCP are carefully chosen
then backward compatibility can be achieved. This leads to the notions of "class",
each class being the group of DSCP with the same Precedence value. Values within
a class would offer similar network services but with slight differences. Classes were
initially defined as:
DSCP Precedence Pur
p
ose
0 0 Best effort
8 1 Class 1
16 2 Class 2
24 3 Class 3
32 4 Class 4
40 5 Ex
p
ress forwardin
g
48 6 Control
56 7 Control
Now, DSCP is what we are using for the QoS configuration on this device.
Among the classes you will see on the webpage, the BE (Best Effort) class
possesses no guaranteed rates; the CS (Class Selector) values enable backward
compatibility with the older IP-Precedence scheme ranges 0~7; the EF (Expedited
Forwarding) class is a low-loss, low-latency, low-jitter, assured-bandwidth,
end-to-end service; AF (Assured Forwarding) provides for the delivery of IP packets
in four independently forwarded AF classes, AF1x through AF4x. Within each AF
class, an IP packet can be assigned one of three different levels of drop precedence.
This class is used when a service (application) requires a high probability of packets
being forwarded, so long as the aggregate traffic from each site does not exceed the
subscribed information rate (profile). Each of the four AF classes allocates a certain
amount of forwarding resources, such as buffer space and bandwidth in each
network node. When congestion occurs, the drop precedence of a packet
determines the relative importance of the packet within the AF class.
You can start to configure the Bridge QoS/IP QoS rules on the Quality of Service
webpage for your router.