Home » D-Link Manuals » Wireless » D-Link DWS-3024L » Manual Viewer

D-Link DWS-3024L User Manual - Page 227

Understanding Quality of Service, QoS and Load Balancing, 802.11e and WMM Standards Support

Add to My Manuals
Save this manual to your list of manuals

Page 227 highlights

D Understanding Quality of Service Quality of Service (QoS) provides you with the ability to specify parameters on multiple queues for increased throughput and better performance of differentiated wireless traffic like Voice-over-IP (VoIP), other types of audio, video, and streaming media as well as traditional IP data over the D-Link Unified Access System. A primary factor that affects QoS is network congestion due to an increased number of clients attempting to access the air waves and higher traffic volume competing for bandwidth during a busy time of day. The most noticeable degradation in service on a busy, overloaded network will be evident in time-sensitive applications like Video, Voice-over-IP (VoIP), and streaming media. Unlike typical data files which are less affected by variability in QoS, Video, VoIP and streaming media must be sent in a specific order at a consistent rate and with minimum delay between Packet transmission. If the quality of service is compromised, the audio or video will be distorted. QoS and Load Balancing By using a combination of load balancing and QoS techniques, you can provide a high quality of service for time-sensitive applications even on a busy network. Load balancing sets thresholds for client associations and AP utilization. QoS is a means of allocating bandwidth and network access based on transmission priorities for different types of wireless traffic within a single access point. 802.11e and WMM Standards Support QoS describes a range of technologies for controlling data streams on shared network connections. The IEEE 802.11e task group is in the process of defining a QoS standard for transmission quality and availability of service on wireless networks. QoS is designed to provide better network service by minimizing network congestion; limiting jitter, latency, and packet loss; supporting dedicated bandwidth for time-sensitive or mission critical applications, and prioritizing wireless traffic for channel access. As with all IEEE 802.11 working group standards, the goal is to provide a standard way of implementing QoS features so that components from different companies are interoperable. QoS and Load Balancing 227

Section	Page
User Manual	1
Table of Contents	3
List of Figures	9
List of Tables	13
About This Document	15
Audience	15
Organization	15
Document Conventions	15
Safety Instructions	16
Safety Cautions	16
General Precautions for Rack-Mountable Products	18
Protecting Against Electrostatic Discharge	19
Battery Handling Reminder	19
Overview of the D-Link Unified Access System	21
D-Link Unified Access System Components	21
D-Link Unified Switch	22
D-Link Access Point	22
WLAN Visualization	23
D-Link Unified Access System Topology	23
Single Unified Switch Deployment	24
Peer Unified Switch Deployment	24
Understanding the User Interfaces	25
Using the Web Interface	26
Interface Configuration Graphic	26
Navigation Menu	27
Configuration and Monitoring Options	27
WLAN Tabs	28
Tools Menu	28
Using the Command-Line Interface	28
Using SNMP	29
Wireless System Features and Standards Support	30
Planning the D-Link Unified Access System Network	33
System Requirements	33
WLAN Topology Considerations	34
Access Point-to-Switch Discovery	36
Access Point Placement	36
Network Planning to Support Layer 3 Roaming	37
Installing the Hardware	39
Hardware Overview	39
Front Panel Components	40
LED Indicators	41
Rear Panel Description	43
Side Panels	43
Installation	44
Package Contents	44
Installation Guidelines	44
Installing the Switch without the Rack	45
Installing the Switch in a Rack	45
Powering On the Switch	46
Power Failure	46
Installing the SFP ports	46
Installing the Optional Modules	47
Install the Module	48
Connecting to the External Redundant Power System	49
Connecting the Switch	49
Connecting the Switch to the Network	50
Connecting the Switch and AP Directly	50
Connecting the Switch and AP through the L2/L3 Network	51
Connecting to the Core Network	51
Installing the D-Link Unified Access System	53
System Deployment Overview	53
Connecting the Switch to the Network	55
Enabling the WLAN Features on the Switch	56
Preparing the Access Points	58
Logging on to the AP	58
Changing the AP Password	59
Configuring 802.1X Authentication Information on the AP	59
Configuring AP-to-Switch Authentication Information	60
Configuring VLAN Information on the Access Point	60
Discovering Access Points and Peer Switches	61
Understanding the Discovery Methods	61
Example 1: L2 Discovery	61
Example 2: IP Address of AP Configured in the Switch	62
Example 3: IP Address of Switch Configured in the AP	63
Example 4: DHCP Option	63
Discovery and Peer Switches	64
Assigning the IP Address to Switches and Managed APs	64
D-Link Unified Switch with Routing Disabled	65
D-Link Unified Switch with Routing Enabled	65
D-Link Access Point	67
Enabling the AP and Peer Switch Discovery	67
D-Link Wireless Device Discovery Protocol	68
Configuring IP Addresses of Peers and APs in the Switch	69
Setting the Switch IP Address in the D-Link Access Point	71
Setting the Switch Information in the DHCP Option	73
Authenticating and Validating Access Points	74
Configuring AP Authentication	75
Using the Local Database for AP Validation	76
Using the RADIUS Database for AP Validation	78
Managing Failed or Rogue APs	80
Configuring Access Point Settings	83
AP Profiles, Networks, and the Local Database	83
Access Point Profiles	83
Networks	84
Local Access Point Database	84
Configuring AAA and RADIUS Settings	85
Configuring Wireless Radio Settings	87
Configuring SSID Settings	92
Managing Virtual Access Point Configuration	93
Configuring the Default Network	94
Enabling and Configuring Additional VAPs	98
Configuring a VAP for L3 Tunnels	99
Configuring AP Security	101
Using No Security	101
Using Static or Dynamic WEP	101
Using WPA/WPA2 Personal or Enterprise	103
Configuring Valid Access Point Settings	106
Managing and Maintaining D-Link Access Points	109
Resetting the Access Points	109
Managing Radio Frequency Settings	110
Configuring Channel Plan and Power Settings	110
Viewing the Channel Plan History	113
Initiating Manual Channel Plan Assignments	114
Initiating Manual Power Adjustments	115
Upgrading the Access Point Software	116
Performing Advanced Access Point Management	118
Enabling AP Debugging	119
Adjusting the Channel and Power	120
Monitoring Status and Statistics	123
Monitoring Wireless Global Information	123
Viewing IP Discovery Status	126
Monitoring Peer Switch Status	126
Monitoring All Access Points	127
Monitoring Managed Access Point Status	130
Viewing Detailed Managed Access Point Status	132
Viewing Managed Access Point Radio Summary Information	133
Viewing Detailed Managed Access Point Radio Information	134
Viewing Managed Access Point Neighbor APs	135
Viewing Clients Associated with Neighbor Access Points	136
Viewing Managed Access Point VAPs	137
Monitoring Managed AP Statistics	138
Viewing Managed Access Point Ethernet Statistics	139
Viewing Detailed Managed Access Point Statistics	139
Viewing Managed Access Point Radio Statistics	140
Viewing Managed Access Point VAP Statistics	141
Viewing Access Point Authentication Failure Status	142
Monitoring Rogue and RF Scan Access Points	143
Monitoring Associated Client Information	145
Viewing Associated Client Status	146
Viewing Detailed Associated Client Status	147
Viewing Associated Client Neighbor AP Status	148
Viewing Associated Client SSID Status	149
Viewing Associated Client VAP Status	149
Viewing Associated Client Statistics	149
Viewing Client Authentication Failure Status	151
Monitoring and Managing Ad Hoc Clients	153
Configuring Advanced Settings	155
Creating, Configuring, and Managing AP Profiles	155
Creating, Copying, and Deleting AP Profiles	157
Applying an AP Profile	158
Configuring Global Settings	159
Enabling SNMP Traps	161
Configuring QoS	163
Configuring the Captive Portal	167
Configuring Global Captive Portal Settings	167
Configuring the Captive Portal	168
Changing the Captive Portal Settings	170
Monitoring and Configuring Captive Portal Users	172
Configuring Users in the Local Database	174
Configuring Users in a Remote RADIUS Server	174
Associating Interfaces with the Captive Portal	175
Viewing the Captive Portal Global Status	177
Viewing CP Activation and Activity Status	178
Viewing Interface Activation Status	179
Viewing Interface Capability Status	181
Viewing the Client Summary	182
Viewing Client Detail	183
Viewing the Client Statistics	184
Viewing the Client Interface Association Status	184
Viewing the Client CP Association Status	185
SNMP Trap Configuration	186
Visualizing the Wireless Network	187
Importing and Configuring a Background Image	188
Setting Up the Graph Components	189
Creating a New Graph	189
Graphing the WLAN Components	192
Understanding the Menu Bar Options	194
Legend Menu	196
Managing the Graph	199
D-Link Unified Access System Default Settings	201
Default D-Link Unified Switch Settings	201
Default D-Link Access Point Settings	202
Default D-Link Access Point Profile Settings	203
Default Captive Portal Settings	204
Configuring the External RADIUS Server	205
Configuring RADIUS Settings for Access Points	205
FreeRADIUS Server Configuration Example	207
Configuring RADIUS Clients	207
Creating and Including an Attribute Dictionary	207
Adding Access Points to the Valid AP Database	208
Configuring RADIUS Settings for Wireless Clients	209
Configuring RADIUS for Client MAC Authentication	209
FreeRADIUS Example for Wireless Client Configuration	210
Configuring User-Based Authentication and Dynamic VLANs	210
Configuring MAC Authentication	211
L3 Roaming Example	213
Configuring the WLAN and Tunnel Interfaces	214
Using a Loopback Interface for the Wireless Functions	215
Creating the VLAN Routing Interface	216
Configuring the L3 Tunnel Network	219
Example of Configuring L3 Roaming by Using the CLI	219
Example of Configuring L3 Roaming by Using the Web Interface	222
Configuring DHCP Relay and the DHCP Server	223
Configuring the Relay Agent	223
Configuring the DHCP Server	224
Understanding Quality of Service	227
QoS and Load Balancing	227
802.11e and WMM Standards Support	227
Coordinating Traffic Flow	228
QoS Queues and DSCP on Packets	228
EDCF Control of Data Frames and AIFS	229
Random Backoff and Contention Windows	230
Packet Bursting for Better Performance	230
TXOP Interval for Client Stations	231
802.1p and DSCP tags	231
Limited Warranty (USA Only)	233
Product Registration	237
Limited Warranty	238
What You Must Do For Warranty Service:	239
What Is Not Covered	239
Trademarks	240
Copyright Statement	240
FCC Warning	240
Technical Support	241
Registration Card All Countries and Regions Excluding USA	266

Match case Limit results 1 per page

QoS and Load Balancing

227

Understanding Quality of Service

Quality of Service (

QoS

) provides you with the ability to specify parameters on multiple

queues for increased throughput and better performance of differentiated wireless traffic like

Voice-over-IP

(VoIP), other types of audio, video, and streaming media as well as traditional

IP data over the D-Link Unified Access System.

A primary factor that affects QoS is network congestion due to an increased number of clients

attempting to access the air waves and higher traffic volume competing for bandwidth during a

busy time of day. The most noticeable degradation in service on a busy, overloaded network

will be evident in time-sensitive applications like Video,

Voice-over-IP

(VoIP), and streaming

media.

Unlike typical data files which are less affected by variability in QoS, Video, VoIP and

streaming media must be sent in a specific order at a consistent rate and with minimum delay

between

Packet

transmission. If the quality of service is compromised, the audio or video will

be distorted.

QoS and Load Balancing

By using a combination of load balancing and QoS techniques, you can provide a high quality

of service for time-sensitive applications even on a busy network. Load balancing sets

thresholds for client associations and AP utilization. QoS is a means of allocating bandwidth

and network access based on transmission priorities for different types of wireless traffic

within a single access point.

802.11e and WMM Standards Support

QoS

describes a range of technologies for controlling data streams on shared network

connections. The

IEEE 802.11e

task group is in the process of defining a QoS standard for

transmission quality and availability of service on wireless networks. QoS is designed to

provide better network service by minimizing network congestion; limiting

jitter, latency, and

packet loss

; supporting dedicated bandwidth for time-sensitive or mission critical applications,

and prioritizing wireless traffic for channel access.

As with all IEEE

802.11

working group standards, the goal is to provide a standard way of

implementing QoS features so that components from different companies are interoperable.