Users Guide
Table Of Contents
- Dell PowerConnect ArubaOS 5.0
- Contents
- About this Guide
- The Basic User-Centric Networks
- Configuring the User-Centric Network
- Deployment and Configuration Tasks
- Configuring the Controller
- Configuring a VLAN for Network Connection
- Deploying APs
- Additional Configuration
- Network Parameters
- Configuring VLANs
- Configuring Ports
- About VLAN Assignments
- Assigning a Static Address to a VLAN
- Using CLI
- Configuring a VLAN to Receive a Dynamic Address
- Enabling the DHCP Client
- Enabling the PPPoE Client
- Default Gateway from DHCP/PPPoE
- Configuring DNS/WINS Server from DHPC/PPPoE
- Using the WebUI
- Configuring Source NAT to Dynamic VLAN Address
- Configuring Source NAT for VLAN Interfaces
- Inter-VLAN Routing
- Configuring Static Routes
- Configuring the Loopback IP Address
- Configuring the Controller IP Address
- Configuring GRE Tunnels
- RF Plan
- Supported Planning
- Before You Begin
- Launching the RF Plan
- Using the FQLN Mapper in the AP Provision Page
- RF Plan Example
- Sample Building
- Create a Building
- Model the Access Points
- Model the Air Monitors
- Add and Edit a Floor
- Adding the background image and naming the first floor
- Adding the background image and naming the second floor
- Defining Areas
- Creating a Don’t Care Area
- Creating a Don’t Deploy Area
- Running the AP Plan
- Running the AM Plan
- Access Points
- Remote AP vs Campus AP
- Basic Configuration
- AP Names and Groups
- Virtual APs
- Configuring Profiles
- Profile Hierarchy
- Virtual AP Configurations
- Configuring High-throughput on Virtual APs
- Advanced Configuration Options
- Automatic Channel and Transmit Power Selection Using ARM
- APs Over Low-Speed Links
- AP Redundancy
- AP Maintenance Mode
- Managing AP LEDs
- Adaptive Radio Management (ARM)
- Remote Access Points
- Overview
- Configuring the Secure Remote Access Point Service
- Deploying a Branch Office/Home Office Solution
- Enabling Double Encryption
- Advanced Configuration Options
- Understanding Remote AP Modes of Operation
- Fallback Mode
- Configuring the fallback mode
- Configuring the DHCP Server on the Remote AP
- Advanced Backup Configuration Options
- DNS Controller Setting
- Backup Controller List
- Remote AP Failback
- RAP Local Network Access
- Remote AP Authorization Profiles
- Access Control Lists and Firewall Policies
- Split Tunneling
- Configuring the Session ACL
- Configuring ACL for restricted LD homepage access
- Configuring the AAA Profile and the Virtual AP Profile
- Wi-Fi Multimedia
- Uplink Bandwidth Reservation
- Secure Enterprise Mesh
- Mesh Access Points
- Mesh Links
- Mesh Profiles
- Mesh Solutions
- Before You Begin
- Mesh Radio Profiles
- RF Management (802.11a and 802.11g) Profiles
- Mesh High-Throughput SSID Profiles
- Mesh Cluster Profiles
- Ethernet Ports for Mesh
- Provisioning Mesh Nodes
- AP Boot Sequence
- Verifying the Network
- Remote Mesh Portals
- Authentication Servers
- Important Points to Remember
- Servers and Server Groups
- Configuring Servers
- Internal Database
- Server Groups
- Assigning Server Groups
- Configuring Authentication Timers
- 802.1x Authentication
- Overview of 802.1x Authentication
- Configuring 802.1x Authentication
- Example Configurations
- Authentication with an 802.1x RADIUS Server
- Configuring Roles and Policies
- Configuring the RADIUS Authentication Server
- Configure 802.1x Authentication
- Configure VLANs
- Configuring the WLANs
- Configuring the Guest WLAN
- Configuring the Non-Guest WLANs
- Authentication with the Controller’s Internal Database
- Configuring the Internal Database
- Configure 802.1x Authentication
- Configure VLANs
- Configuring the WLANs
- Configuring the Guest WLAN
- Configuring the Non-Guest WLANs
- Advanced Configuration Options for 802.1x
- Roles and Policies
- Stateful and WISPr Authentication
- Captive Portal
- Captive Portal Overview
- Captive Portal in the Base ArubaOS
- Captive Portal with the PEFNG License
- Example Authentication with Captive Portal
- Creating a Guest-logon User Role
- Creating an Auth-guest User Role
- Configure Policies and Roles via the WebUI
- Time Range
- Auth-Guest-Access Policy
- Block-Internal-Access Policy
- Drop-and-Log Policy
- Guest-logon Role
- Guest-Logon Role
- Configure Policies and Roles via the CLI
- Time Range
- Create Aliases
- Guest-Logon-Access Policy
- Auth-Guest-Access Policy
- Block-Internal-Access Policy
- Drop-and-Log Policy
- Guest-Logon Role
- Auth-Guest Role
- Guest VLANs
- Captive Portal Authentication
- Optional Captive Portal Configurations
- Personalizing the Captive Portal Page
- Securing Client Traffic
- Securing Controller-to-Controller Communication
- Configuring the Odyssey Client on Client Machines
- Advanced Security
- Virtual Intranet Access
- VIA
- Configuring the VIA Controller
- VPN Configuration
- Remote Access VPN for L2TP IPsec
- Remote Access VPNs for XAuth
- Remote Access VPN for PPTP
- Site-to-Site VPNs
- Dell Dialer
- Virtual Private Networks
- MAC-based Authentication
- Control Plane Security
- Control Plane Security Overview
- Configuring Control Plane Security
- Whitelists on Master and Local Controllers
- Environments with Multiple Master Controllers
- Replacing a Controller on a Multi-Controller Network
- Troubleshooting Control Plane Security
- Adding Local Controllers
- IP Mobility
- VRRP
- RSTP
- W-600 Series Controller
- OSPFv2
- Wireless Intrusion Prevention
- IDS Features
- IDS Configuration
- WLAN Management System
- Client Blacklisting
- Link Aggregation Control Protocol
- Management Access
- Certificate Authentication for WebUI Access
- Public Key Authentication for SSH Access
- Radius Server Authentication
- Radius Server Username/Password Authentication
- RADIUS Server Authentication with VSA
- RADIUS Server Authentication with Server-Derivation Rule
- Disabling Authentication of Local Management User Accounts
- Verifying the configuration
- Resetting the Admin or Enable Password
- Setting an Administrator Session Timeout
- Management Password Policy
- Managed RFprotect Sensors
- Managing Certificates
- Configuring SNMP
- Configuring Logging
- Guest Provisioning
- Managing Files on the Controller
- Setting the System Clock
- Software Licenses
- IPv6 Client Support
- Voice and Video
- License Requirements
- Configuring Voice
- Configuring Video
- QoS
- External Services Interface
- Understanding ESI
- Understanding the ESI Syslog Parser
- ESI Configuration Overview
- Configuring Health-Check Method, Groups, and Servers
- Defining the ESI Server
- Defining the ESI Server Group
- Redirection Policies and User Role
- ESI Syslog Parser Domains and Rules
- Managing Syslog Parser Domains in the WebUI
- Managing Syslog Parser Domains in the CLI
- Managing Syslog Parser Rules
- Monitoring Syslog Parser Statistics
- Example Route-mode ESI Topology
- ESI server configuration on controller
- IP routing configuration on Fortinet gateway
- Configuring the Example Routed ESI Topology
- Health-Check Method, Groups, and Servers
- Defining the Ping Health-Check Method
- Defining the ESI Server
- Defining the ESI Server Group
- Redirection Policies and User Role
- Syslog Parser Domain and Rules
- Example NAT-mode ESI Topology
- Basic Regular Expression Syntax
- DHCP with Vendor-Specific Options
- External Firewall Configuration
- Behavior and Defaults
- 802.1x Configuration for IAS and Windows Clients
- Internal Captive Portal
- VIA End User Instructions
- Provisioning RAP at Home
- Index
150 | Adaptive Radio Management (ARM) Dell PowerConnect ArubaOS 5.0 | [User Guide
You can configure the channel reuse feature to operate in either of the following three modes; static, dynamic or
disable. (This feature is disabled by default.)
z Static mode: This mode of operation is a coverage-based adaptation of the Clear Channel Assessment (CCA)
thresholds. In the static mode of operation, the CCA is adjusted according to the configured transmission
power level on the AP, so as the AP transmit power decreases as the CCA threshold increases, and vice versa.
z Dynamic mode: In this mode, the Clear Channel Assessment (CCA) thresholds are based on channel loads,
and take into account the location of the associated clients. When you set the Channel Reuse feature to
dynamic mode, this feature is automatically enabled when the wireless medium around the AP is busy greater
than half the time, and the CCA threshold adjusts to accommodate transmissions between the AP its most
distant associated client.
z Disable mode: This mode does not support the tuning of the CCA Detect Threshold.
The channel reuse mode is configured through an 802.11a or 802.11g RF management profile. For details on
modifying 802.11a or 802.11g RF management profiles, refer to “RF Management (802.11a and 802.11g)
Profiles” on page 204.
Non-802.11 Noise Interference Immunity
When an AP attempts to decode a non-802.11 signal, that attempt can momentarily interrupt its ability to
receive traffic. The noise immunity feature can help improve network performance in environments with a high
level of non-802.11 noise from devices such as Bluetooth headsets, video monitors and cordless phones.
You can configure the noise immunity feature for any one of the following levels of noise sensitivity. Note that
increasing the level makes the AP slightly “deaf” to its surroundings, causing the AP to lose a small amount of
range.
z Level 0: no ANI adaptation.
z Level 1: Noise immunity only. This level enables power-based packet detection by controlling the amount of
power increase that makes a radio aware that it has received a packet.
z Level 2: Noise and spur immunity. This level also controls the detection of OFDM packets, and is the default
setting for the Noise Immunity feature.
z Level 3: Level 2 settings and weak OFDM immunity. This level minimizes false detects on the radio due to
interference, but may also reduce radio sensitivity. This level is recommended for environments with a high-
level of interference related to 2.4Ghz appliances such as cordless phones.
z Level 4: Level 3 settings, and FIR immunity. At this level, the AP adjusts its sensitivity to in-band power,
which can improve performance in environments with high and constant levels of noise interference.
z Level 5: The AP completely disables PHY error reporting, improving performance by eliminating the time the
controller would spend on PHY processing.
You can manage Non-802.11 Noise Immunity settings through the 802.11g RF management profile. Do not raise
the noise immunity feature’s default setting if the RX Sensitivity Tuning Based Channel Reuse feature is also
enabled. A level-3 to level-5 Noise Immunity setting is not compatible with the Channel Reuse feature. For
details refer to “Mesh Radio Profiles” on page 199.
ARM Metrics
ARM computes coverage and interference metrics for each valid channel and chooses the best performing
channel and transmit power settings for each AP’s RF environment. Each AP gathers other metrics on their ARM-
assigned channel to provide a snapshot of the current RF health state.
The following two metrics help the AP decide which channel and transmit power setting is best.