Avaya WLAN 9100 Solution
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Transcript Avaya WLAN 9100 Solution
Avaya WLAN 9100 Update
Jayanthi Srinivasan/ Vamshi Doma
[email protected]/ [email protected]
© 2015 Avaya Inc. Avaya – Confidential & Proprietary
Do not duplicate, publish or distribute further without the express written permission of Avaya.
1
Goals for Session
To Share..
Market updates on Avaya WLAN 9100 portfolio
Product updates on 9100 product introductions
Unique differentiation of WLAN 9100 Solution
Roadmap details
© 2016 Avaya Inc. All rights reserved.
2
WLAN Market trends
© 2016 Avaya Inc. All rights reserved.
3
WLAN Market Trends
Public/Private
OR Hybrid
Cloud
© 2016 Avaya Inc. All rights reserved.
4
Avaya Unified Access Momentum
Strong Momentum
• Continued consecutive Q/Q growth
• 0 to 1000+ customers since the
launch of the WLAN 9100
Avaya WLAN 9100 grew
16% Q/Q and 85% Y/Y growth
Unique Differentiation
• Application Optimization
• Software programmable radios
• Fabric to the edge
Price Competitive
• Price reduction Nov’15
Attractive SPIF and
MustWin Promotions
© 2016 Avaya Inc. All rights reserved.
5
Sales & GTM Resources
Sales Portal Materials
• Refreshed WLAN Battle Cards,
Customer & Partner
Presentations, Quick Start
Guides, 802.11ac Wave 2
White Paper, etc.
• Avaya Ranked 3rd in Gartner’s
2015 Wired & Wireless Critical
Capabilities Report – Customer
Slide, Press Release & Blog
• Several NSE Sales Training
Video’s and Partner
Presentations
© 2016 Avaya Inc. All rights reserved.
6
Goals for Session
To Share..
Market updates on Avaya WLAN 9100 portfolio
Product updates on 9100 product introductions
Unique differentiation of WLAN 9100 Solution
Roadmap details
© 2016 Avaya Inc. All rights reserved.
7
Avaya WLAN 9100 Solution
Portfolio Overview
N
E
W New
WAP
9112
WAP
9114
WAP
9122
WAP
9123
WAP
9132
Wall
mount
802.11a
c
2x2 AP
Price
Optimized
802.11ac
2x2 AP
802.11n
2x2 AP
802.11n
3x3 AP
(upgradable
to ac)
(upgradable to
ac)
2 Radios
2 Radios
2 Radios
2 Radios
WAP
9133
N
E
W
N
E
W
N
E
W
WAP
9144
WAE
9132
WAO
9122
WAO
9132
External
Outdoor
Outdoor
WAP
9172/
9173
802.11ac
2x2 AP
802.11ac
3x3 AP
802.11ac
Wave 2
4x4 AP
Plenum
rated
802.11ac
2x2 AP
802.11n
2x2 AP
802.11ac
2x2 AP
802.11ac
2x2/3x3
2 Radios
2 Radios
2 Radios
2 Radios
2 Radios
2 Radios
4 Radios
Common Advanced Feature Set
Integrated Controller
On-Premise or Cloud Management (future)
AOS-Lite Software
AOS Software
Application Control
Software Programmable Radios
Fabric Attach
© 2016 Avaya Inc. All rights reserved.
8
Wireless Orchestration System – Key Features
Service
Policies
Dashboard
Auto
Provisioning
RF Visibility
WOS
Tools / API
© 2016 Avaya Inc. All rights reserved.
Analytics
9
WAP 9144
Next Generation 802.11ac Wave 2 Indoor Access Point
WAP9144xx-E6
–
Two 4x4 802.11ac Wave 2 Radios
–
Software Programmable Radios
–
–
MU-MIMO – 4 simultaneous users
–
160MHz Bonding
–
Concurrent 802.11ac Wave 2 on both radios
For home office use. Not recommended for Multiple AP
deployments in Enterprises
–
Zero Wait DFS**
–
AirIQ – Spectrum Analysis*
–
Bluetooth Low Energy (BLE)*
Physical interfaces
–
2 GigE ports (Link aggregation, bonding, daisy chain)
–
Maximum Power 24 W ( Requires PoE+)
Software
–
AOS version 8.1.0 or later
–
WOS version 7.5.7 or later
Positioning
–
Enterprises seeking Future Proof, High Performance, Feature Rich solution.
–
All Indoor 802.11ac Wave 2 deployments
–
Deployments requiring BLE Support
* HW capability in release 8.1 – software support added in upcoming releases.
** U-NII 2 Channels available upon DFS Certification completion
© 2016 Avaya Inc. All rights reserved.
10
802.11ac Wave 2 - 6th generation WLAN
improved Capacity for High BW Applications
Multi-User MIMO (MU-MIMO)
Requires 802.11ac Wave 2 Clients –
Sounding and NDP
Rate vs Range limitations
Main benefit is in very high density client
areas
Up to 8 Spatial Streams
N-1 streams benefit
Phones - 1 antenna & 1 stream
PCs & Tablets – 2 antennas & 2 streams
160Mhz Channel Bonding
Only 2 available 5Ghz channels
Increases RF deployment complexity
Limits spectral re-use
Ideal for bridging applications
80+80 MHz channel bonding
Dis-contiguous 80+80 bonding
Complicates spectral re-use and RF
deployment planning
High End PCs – 3 antennas & 3 streams
Client support of 80Mhz and 80+80 bonded
channels unclear
Main benefit is with MU-MIMO
Possible usage in bridging applications
© 2016 Avaya Inc. All rights reserved.
11
WAP9144
802.11ac Wave 2 – Technological Advancements
Feature
802.11n
802.11ac Wave 1
802.11ac Wave 2
Spatial Streams
3 (up to 4*)
3 (up to 4*)
4 (up to 8*)
Multi User MIMO
No
No
Yes (4 Users)
64QAM
256QAM
256QAM
2.4GHz & 5GHz
5GHz Only
5GHz Only
64 kbytes
1 mbyte
1 mbyte
450 mbps (up to 600
mbps*)
1.3 gbps
3.47 gbps (up to 6.93
gbps*)
40MHz
80MHz
160MHz
Non-Adjacent Channel Bond (80+80)
No
No
Yes
Dynamic Bandwidth Allocation
No
No
Yes
Implicit Feedback Beam forming
Yes
No
No
Explicit Feedback Beam forming
Yes
No
Yes
Modulation
Frequency Band
A-MPDU Frame Aggregation
Max Data Rate
Adjacent Channel Bonding
* Not supported on current Avaya Products
© 2016 Avaya Inc. All rights reserved.
12
WAP 9114
802.11ac Wave 1 Indoor Access Point at less than 802.11n price point
WAP9114xx-E6
–
Two 2x2 Radios
–
Fixed Radios - 802.11bgn (2.4GHz) & 802.11ac Wave 1 (5GHz)
–
Enterprise Security, QoS
–
Layer 2 Roaming
–
Device Fingerprinting
–
Statefull Filtering / Firewall
Physical interfaces
–
1 GigE port
–
Maximum Power 12.5 W (PoE)
Software
–
AOS-Lite version 7.9.0 or later
–
WOS version 7.5.5 or later (Can be managed via WOS only)
Positioning
© 2016 Avaya Inc. All rights reserved.
–
Small & Mid Market enterprises looking for 802.11ac
performance at the lowest cost.
–
When competing with competitive low end products
13
WAP 9112
In Room 802.11ac Wave 1 Indoor Access Point – Wall Jack
WAP9112xx-E6
–
Two 2x2 Radios
–
Fixed Radios - 802.11bgn (2.4GHz) & 802.11ac Wave 1 (5GHz)
–
Enterprise Security, QoS
–
Layer 2 Roaming
–
Device Fingerprinting
–
Statefull Filtering / Firewall
Physical interfaces
–
1 GigE Uplink Port
–
–
4 Port 10/100/1000 Switch includes 1 PoE port
Pass through RJ-45
–
Maximum Power 9 W (PoE for AP only) / 25.4 W (PoE+ when
delivering power)
Software
–
AOS-Lite version 7.8.4 or later
–
WOS version 7.5.3 or later (Can be managed via WOS only)
Positioning
© 2016 Avaya Inc. All rights reserved.
–
In Room Wi-Fi Solution
–
Examples
–
Guest Rooms in Hotels & Lodging
–
Dorm Rooms in Higher Education
–
Walled Office Rooms
14
WAO 9132
Outdoor 802.11ac Wave 1 Access Point
WAO9132xx-E6
–
Two 2x2 802.11ac Wave 1 Radios
–
Software Programmable Radios
–
Operating Temperature: -20C to +55C, 0-90% humidity, noncondensing
–
Storage Temperature: -40C to 70C
–
IP65 Rated
–
Flexible coverage options using external antennas
Physical interfaces
–
2 GigE ports (Link aggregation, bonding, daisy chain)
–
Maximum Power 25.5W (PoE+)
–
4 N-Type Antenna Connectors (2 per Radio)
Software
–
AOS Rel 7.6.0 or later
–
WOS Rel 7.5.5 or later
Positioning
© 2016 Avaya Inc. All rights reserved.
–
All Outdoor Environments
–
Examples
–
Outdoor Stadiums / Arenas
–
Outdoor Coverage for all Enterprises
–
Outdoor Point–To– Point WDS / Bridging
15
WAE 9132
Plenum Rated 802.11ac Wave 1 Indoor Access Point
WAE9132xx-E6
–
Two 2x2 802.11ac Wave 1 Radios
–
Software Programmable Radios
–
Flexible coverage options using external antennas
Physical interfaces
–
2 GigE ports (Link aggregation, bonding, daisy chain)
–
Maximum Power 25.5W (PoE+)
–
4 N-Type Antenna Connectors (2 per Radio)
Software
–
AOS Rel 7.6.0 or later
–
WOS Rel 7.5.5 or later
Positioning
© 2016 Avaya Inc. All rights reserved.
–
Indoor Environments requiring directional coverage
–
High density indoor environments
–
Environments requiring plenum installation
–
Examples
–
Plenum installations in Healthcare
–
Convention Centers, Auditoriums, Conference Halls with High
Ceilings
–
Indoor Stadiums / Arenas
–
Indoor Point-To-Point WDS / Bridging
16
Position the right AP for the right use case
© 2016 Avaya Inc. All rights reserved.
17
WLAN 9100 release 8.1.0
WLAN 9100 Rel 8.1.0 is the overall portfolio release
– Overall Release Number used for Program Management of the various HW and SW deliverables for
WLAN 9100 portfolio.
– The version numbers of the individual software components varies.
Access Point Operating System (AOS)
– Rel 7.6.x
–
Access Point Operating System (AOS) Feature Pack Releases
–
Supports WAP9122, WAP9123, WAP9132, WAP9133, WAP9172, WAP9173, WAE9132, WAO9122 WAO9132
– Rel 8.1.0
–
Controlled Introduction Software Release for WAP9144
– Rel 8.1.2
–
GA Software Release for WAP9144
– Rel 8.1.4
–
Common code for all AOS APs including WAP9144
–
Planned for end of May, 2016
Access Point Operating System – Lite (AOS-Lite) Rel 8.0.x
– Feature Pack Release for WAP 9112 / 9114
Wireless LAN Orchestration System (WOS) Rel 8.0.x
– Feature Pack Release for AOS / AOS-Lite Enhancements
– WOS migration from SNMP to STOMP over Web Sockets - Phase 1 – Status Polling
© 2016 Avaya Inc. All rights reserved.
18
Key Software Enhancements
AOS Release – 7.5.x
VLAN Pooling
– A VLAN pool is a set of VLANs that allows a client associating to an AP to be
assigned to one of the VLANs in the pool rather than to a particular VLAN.
– When using VLAN Pools, the VLAN Pool has to be defined and assigned to
the SSID.
– All the VLANs in the VLAN Pool have to be extended to the all the Edge
Switch Ports connected to the AP.
– When deployed with Fabric Attach, VLANs are automatically extends the to the edge switch
port.
– When a new client associates to an SSID mapped to a VLAN Pool, the client
is assigned to a VLAN in the pool based on the the client MAC and the
number of VLANs in the pool.
– The algorithm will always assign the same VLAN to a client even when it
roams as long as the VLANs in the VLAN Pool are the same across APs.
– VLAN Pooling is useful in specific networking situations where the client
density requires distributing load on the DHCP/DNS/External Captive Portal
Servers, Firewalls or Internet Gateways.
– RADIUS or User Group specified VLAN takes precedence over VLAN
assigned from the VLAN Pool.
© 2016 Avaya Inc. All rights reserved.
19
Key Software Enhancements
AOS Release – 7.6.0
GRE Split Tunneling
– Feature enables the AP to only tunnel the remote VLAN traffic to the
Tunneling Server while local traffic would be forwarded outside the tunnel.
– Feature can only be configured from WOS using the Config Template option.
Changes to AP Default Settings to meet majority of customer
requirements
–
–
–
–
–
–
–
Radio Transmit Power changed to 15db for 5GHz and 12db for 2.4GHz
802.11g only – Enabled (this disables 802.11b support/CCK by default)
Fast Roaming Mode is set to Broadcast
Opportunistic Key Caching – Disabled
Load Balancing is disabled
IPv6 Filtering is enabled
Timeshare interval set to 300s
WPA/WPA2 PSK with RADIUS MAC Validation
– Allows for over the air encryption for wireless user traffic while using RADIUS
MAC Validation.
– Feature can only be configured from WOS using the Config Template option
Ekahau RTLS support.
© 2016 Avaya Inc. All rights reserved.
20
Key Software Enhancements
AOS Release – 7.6.1
Support of User Name Attribute when the SSID is using
Radius MAC authentication.
– The returned user name in Radius Accept message is
populated in client table and used in subsequent Radius
Accounting messages.
Captive Portal / Web Page Redirect (WPR) Login
capability within User Groups
– Allows for specifying unique Captive Portal Pages with
Internal or External Login per User Group.
– Previous releases only supported Landing page and
Internal Splash page within User Groups.
– Feature can only be configured from WOS using the Config
Template option
© 2016 Avaya Inc. All rights reserved.
21
Key Software Enhancements
AOS Release – 8.1.2
IPv6 CLI Only Support on Access Points
– AOS based WLAN 9100 Access Points support IPv6 in CLI only with this release
– Support for SNMP and WMI will be added in upcoming AOS release
– Full IPv6 Support with ability to manage AOS APs from Wireless LAN
Orchestration System – POI Q1, CY 2017.
– IPv6 feature supported
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
IP addressing
DNS
Filters
Application Control
Syslog
SNMP management
SSH
Telnet
FTP
Network Map
Roaming Protocol
DHCP client
Cluster Mode
Snoop Ipv6 stations
AVCON
© 2016 Avaya Inc. All rights reserved.
22
Key Software Enhancements
AOS Release – 8.1.2
Multicast Isolation
– Multicast Isolation provides control over how multicast frames are distributed in
the network while minimizing impact to channel utilization.
– Multicast Isolation provides the ability to isolate traffic to :
– Access Point - Multicast traffic is only forwarded to and from stations connected to the
same AP
– Access Point Neighbors - Multicast traffic is forwarded to and from stations on the same
AP and the AP neighbors (APs that are within RF range of each other – requires
timeshare to be enabled)
– User Group - Multicast traffic is forwarded to and from stations associated to the same
User Group.
– Fixed MAC List - Multicast traffic originating from a fixed list of user specified MAC
addresses is forwarded to the stations.
– When a unique MAC addess is specified per AP, it allows for associating clients to only discover
services like Airplay or Airprint that are specified on that AP.
– Example – Each AP in a class room is configured with the unique Apple TV MAC address. Now
clients associating to this AP can only discover this one Apple TV.
– Multicast Isolation options can be used alone, or in any combination.
– For example: Access Point & User Group would only forward multicast traffic between
stations on the same AP and the same User Group.
– Feature can only be configured from WOS using the Configuration Template
option.
AOS Release 8.1.2 is for WAP9144 only.
AOS Release 8.1.4 will support all AOS Access Points.
© 2016 Avaya Inc. All rights reserved.
23
Key Software Enhancements
AOS-Lite Release – 7.9.x
New in AOS-Lite Rel 7.9.0
– Radius Accounting support for Wireless & Wired (WAP9112 LAN
Ports) Clients.
– Radius MAC Authentication for WAP9112 LAN Ports
– Radius Dynamic Authorization RFC 3576 for Wireless & Wired
(WAP9112 LAN Ports) Clients
New in AOS-Lite Rel 7.9.2
– Support of external captive portal per SSID
– Options supported are:
– External Login page with external Radius server
– External Splash page
– Landing page
– The feature is required to be added to WOS before it can be used as
AOS-Lite Access Points can only be configured from WOS. Please refer
to the WOS Release Notes for new feature support.
– RFC5176 enhanced wired port behavior after a DisconnectRequest to shut down the port for 5 seconds and turn it back on.
– Previous releases required to manually unplug the cable and reconnect
to trigger re-authentication.
© 2016 Avaya Inc. All rights reserved.
24
Key Software Enhancements
AOS-Lite Release – 8.0.0
802.11k – Radio Resource Management
– The 802.11k standard enables Access Points to assist clients in roaming.
– Clients send requests for neighbor lists when associated to APs that
advertise the Radio Resource Management (RRM) capability information
element (IE) in the beacon.
– The neighbor list sent to the client by the AP includes information about
BSSID, channel, and operation details of the neighboring APs / Radios.
– The client can then process this list to select the AP / Radio it needs to roam
to reducing the need for active and passive scanning.
802.11r – Fast BSS Transition
– IEEE 802.11r is the standard for fast roaming where the client completes the
initial handshake with roaming target AP before the client roams to that AP.
– This handshake allows the target AP and client to calculate the Pairwise
Transient Key (PTK) in advance of the re-association request enabling the
client to do Fast Roaming.
WPA2/PSK + RADIUS MAC Validation
– Allows for over the air encryption for wireless user traffic while using RADIUS
MAC Validation.
© 2016 Avaya Inc. All rights reserved.
25
Key Software Enhancements
WOS Release 7.5.x
AOS-Lite Profiles
– WAP9112 & WAP 9114 run AOS-Lite Operating System and has
different features/capabilities compared to the other APs running
AOS software.
– This implies that WAP9112 and WAP9114 access point cannot be
part of the same AP Profile as the other indoor/outdoor WLAN
9100 Access Points.
– When a new profile is created the user has the option of creating
the user has an option of creating either an AOS or AOS-Lite
Profile.
WOS CALL BACK IP Setting
– When the WOS Virtual Machine is configured with more than one
IP Interfaces, it is required to configure the WOS Call Back IP
Address that specifies the primary interface for WOS to AP
communication.
– This can be configured under WOS -> Settings -> Application ->
WOS Callback Address.
© 2016 Avaya Inc. All rights reserved.
26
Key Software Enhancements
WOS Release 7.5.x
Take AP Out of Service / Return APs to Service
– When APs are temporarily disconnected from the network
WOS now allows the Admin to put the AP out of service to
optimize WOS polling.
– When the AP is out of service, the AP is no longer polled by
WOS.
– The Admin can mark return the AP back into service when it
is connected back to the network and reachable by WOS.
Default Profile Settings
– Updated Default Values within AOS Profile to match the
AOS Rel 7.6.0 Default Values.
Reporting Enhancements
– New Report to show the average AP availability for specific
AP Group or Profile
Stability and Performance enhancements.
© 2016 Avaya Inc. All rights reserved.
27
Key Software Enhancements
WOS Release 8.0.0
Secure Web Sockets (WSS) support for AOS
– WOS-E will transition from using SNMP to Secure Web Sockets for
communicating with Access Points.
– Transition will be rolled out in three phases.
– Phase – 1 – Access Point Status Polling using WSS is available in Rel 8.0
– Phase – 2 – Access Point Discovery and Configuration Changes using WSS is
planned for Rel 8.1
– Phase – 3 – Monitoring using WSS is planned for Rel 8.2
AOS Lite Enhancements
– Disable 802.11b mode
– Block Inter-Station Traffic
Upgrading to WOS 8.0 is supported from WOS 7.5.x
– The AOS Access Points must be upgraded to Rel 7.6.2 or 8.1.2
(9144) or later builds before upgrading WOS to Rel 8.0.
– AP status will show up as “offline” after WOS upgrade. In order to
initiate communication via web sockets, all APs must be refreshed.
– Configuration -> Access Points. Select all APs and click on “Refresh”.
© 2016 Avaya Inc. All rights reserved.
28
Goals for Session
To Share..
Market updates on Avaya WLAN 9100 portfolio
Product updates on 9100 product introductions
Unique differentiation of WLAN 9100 Solution
Roadmap details
© 2016 Avaya Inc. All rights reserved.
29
WLAN 9100 Controller-less Architecture
Avaya’s WLAN 9100 solution provides all of the
benefits of a controller based architecture such as
security, performance and manageability without
the excessive cost of an overlay controller.
What does this mean? Network intelligence, traffic
processing and network services (application
control, firewall, threat sensor, etc.) are executed at
the network edge – the optimal place for it to occur.
What’s the benefit? Greater scalability and
performance(no controller bottleneck!), improved
resiliency (no single point of controller failure),
reduced cost (no controller tax) and simplified
deployment (APs and WOS only)
© 2016 Avaya Inc. All rights reserved.
30
AVAYA WLAN INNOVATION
INDUSTRY LEADING WIRELESS CAPACITY
SW Programmable Radios
Personal WiFi
Delivers industry leading performance
Maximizes 5Ghz spectrum utilization
Optimizes deployment flexibility
Fast – users connect effortlessly
Flexible – no IT intervention
Secure – encryption data to a secure
personal network
Four Radio APs
802.11ac Wave 2
Maximizes bandwidth with 802.11ac
Delivers industry leading 802.11ac wave 2
capabilities
Optimizes use of the 5Ghz spectrum
Improves channel reuse in dense client
environments
© 2016 Avaya Inc. All rights reserved.
Doubles the bandwidth with dual software
programmable radios
Enhances industry leading access point
portfolio
31
AVAYA RELIABILITY & CAPACITY ADVANTAGE
AVAYA DELIVERS A TRUE 802.11AC (WAVE 2) AP
IF:
2.4Ghz is capacity constrained
802.11ac Wave 1 & 2 is only on 5Ghz
Vendors deliver technologies (band steering) to drive clients from 2.4Ghz to 5Ghz
Vendors recommend using 5Ghz for enterprise class applications
Why do they sell a fixed dual radio AP where half of the AP only supports 2.4Ghz?
Avaya Delivers Innovation that Optimizes the User Experience by
Maximizing WLAN Capacity
802.11ac Feature
Avaya
802.11ac Wave 2
Cisco/Aruba/Ruckus
Wave 1.5
Wave 2 Radios Per AP
2
1
4 user multi-user MIMO
✔
✖ (3 users)
3.47Gbps Data Rates
✔
✖ (1.73Gbps)
160MHz Bonded Channels
✔
✖ (80MHz)
7Gbps Per AP Capable
✔
✖ (2.5Gbps)
© 2016 Avaya Inc. All rights reserved.
32
AVAYA WLAN 9100
APPLICATION VISIBILITY AND CONTROL
• Flexible policy control
by blocking, throttling,
or applying QoS to
applications directly at
the network edge
• Recognition of 1300+
applications of 20+
categories
Prioritize the apps that matter, block those that don’t
© 2016 Avaya Inc. All rights reserved.
33
Avaya’s end-to-end Fabric, App Control and softwareprogrammable radios set us apart from the competition
Differentiator
Avaya
Aruba
Ruckus
Cisco
Aerohive
Meraki
App Control at the Edge – Visibility and
policy control of 1300+ apps in the AP for
predictable performance
✓
Not on
all APs
✗
Central
only
No rate
limiting
1/10 the
apps
100% High Speed – Twice as many 11ac
radios per AP with SW programmable
2.4GHz/5GHz per radio
✓
✗
✗
✗
✗
✗
End-to-End Fabric – Secure, next-gen
Unified Access with automated end-to-end
service provisioning for wired and wireless
✓
✗
✗
✗
✗
✗
Distributed Control – Integrated controller
with no single point of failure, superior
scalability, lower cost
✓
Instant
APs
✗
✗
Limited perf
Cloud
required
Scalability – 2 to 4 radio solutions to
address broad density needs and less
equipment for reduced TCO
✓
✗
✗
✗
✗
✗
Avaya Unified Access Solution
Automated for simplicity / ease-of-use
Traditional On-Boarding at the Edge
Automation with Fabric Attach
Provisioning or modification of services
requires significant time and resources
Pre-staging of equipment is required to
minimize tech time when rolling out new
network devices
Smartphone app for device info
Zero-touch provisioning at the edge
Auto detection, industry standard
authentication, and authorization of devices
Fabric Connect core delivers services
elastically to the edge
–
VLAN, QoS profile, multicast group, port security
Current manual practices do not scale
Simplified IoT Device OnBoarding
© 2016 Avaya Inc. All rights reserved.
35
Solving Business Problems
SMART EDUCATION
•
Automatic Class
Attendance
Dynamic Control of
application Access
Exclusive bandwidth for
learning
Beacons WiFi detect
students in ‘unsafe’
locations
•
•
•
SMART HEALTHCARE
•
•
•
•
Easy & safe on-boarding
of WiFi patient monitor
Fabric Attach based auto
onboarding
Smart traffic segmentation
Analytics of medical device
inventory & patient
tracking
© 2016 Avaya Inc. All rights reserved.
SMART HOSPITALITY
WAP 91xx
•
Secure, Personal Wi-Fi
SMART ARENAS
Immersive Mobile Connectivity & Fan Engagement
36
Goals for Session
To Share..
Market updates on Avaya WLAN 9100 portfolio
Product updates on 9100 product introductions
Unique differentiation of WLAN 9100 Solution
Roadmap details
© 2016 Avaya Inc. All rights reserved.
37
WLAN 9100 Roadmap Items
Public Cloud Solution for WIFI
Wave 2 Advanced features
Smart Hospitality- Personal WIFI
Advanced Location Services (APIs, BLE)
Scaling and other advanced features on
WOS
IPv6 support
© 2016 Avaya Inc. All rights reserved.
38
Avaya Cloud Wi-Fi Summary
Overall Cloud adoption is growing at 42.5% CAGR
Simplifies Wi-Fi service delivery
Offers strong security and scalability
Avaya WOS-Cloud
–
–
–
–
Easy-to-use with zero-touch configuration
Simplifies deployment
Reduces IT operations
Integrated guest portal
Attractive value-added services model for MSP & Partners
AVAYA PERSONAL WIFI
FAST, FLEXIBLE AND SECURE PERSONAL NETWORKS
Users connect effortlessly
Secure connectivity as data is encrypted
in a secure personal network
Avaya SDN Fx architecture enables PAN
to extend from the wireless network to the
wired
Meet customer demands with highly
personalized content and experiences
Integration with Property Management
System planned
Pierre’s Network
Donna’s Network
© 2016 Avaya Inc. All rights reserved.
Avaya Fabric
Network
Paula’s Network
40
Conclusion
1. Robust Momentum
2. Unique Differentiation
3. Solutions that address
business problems
4. Compelling Roadmap
Avaya Fabric – the IoT Ready Network
© 2016 Avaya Inc. All rights reserved.
41
© 2016 Avaya Inc. All rights reserved.
43
WAP 9133
High Performance 802.11ac Wave 1 Indoor Access Point
WAP9133xx-E6
–
Two 3x3 802.11ac Wave 1 Radios
–
Software Programmable Radios
–
Concurrent 802.11ac Wave 1 on both radios
Physical interfaces
–
2 GigE ports (Link aggregation, bonding, daisy chain)
–
Maximum Power 23.8 W (Requires PoE+)
Software
–
AOS version 7.0.0 or later (Rev 1 to Rev 3)
–
AOS version 7.5.1 or later (Rev 4 and above)
–
WOS version 7.0.0 or later
Positioning
– Enterprises seeking High Performance & Feature Rich
802.11ac Wave 1 Solution
– Environments where Personal Computers are the primary
computing devices
– Examples
© 2016 Avaya Inc. All rights reserved.
–
Corporate Offices
–
Higher Education – Universities & Colleges
–
Health Care
44
WAP 9132
Top Selling – 802.11ac Wave 1 Indoor Access Point
WAP9132xx-E6
–
Two 2x2 802.11ac Wave 1 Radios
–
Software Programmable Radios
–
© 2016 Avaya Inc. All rights reserved.
Concurrent 802.11ac Wave 1 on both radios
Physical interfaces
–
2 GigE ports (Link aggregation, bonding, daisy chain)
–
Maximum Power
–
19 W (Requires PoE+)
–
Supported with PoE switch with Restricted functionality
Software
–
AOS version 7.0.0 or later (Rev 1 to Rev 3)
–
AOS version 7.5.1 or later (Rev 4 and above)
–
WOS version 7.0.0 or later
Positioning
–
Enterprises seeking Economic & Feature Rich 802.11ac Wave 1
Solution without compromising on Performance
–
Environments where Handheld Devices – Tablets or Smart
Phones are the primary computing devices
–
Examples
–
K – 12 School Districts
–
General Purpose Access Points suitable for all Indoor ceiling / wall
installations in enterprises where WAP9144 or WAP9133 is not suitable
due to budget availability
45
WAP 9172/ 9173
Sample Coverage Patterns of the 4 Directional Antennas
Radio 1
5GHz – Ch 40 (Timeshare)
Radio 2
5GHz – Ch 149
Radio 3
2.4GHz – Ch 11
Radio 4
5GHz – Ch 100
© 2016 Avaya Inc. All rights reserved.
46
Avaya WLAN 9100 external Antennas
New Antennas for WAE9132 & WAO9132
Model
WAT911035
WAT911040
WAT911090
WAT912360
WAT91360R
Supported APs
WAE9132 & WAO9132
WAE9132 & WAO9132
WAE9132 & WAO9132
WAE9132 & WAO9132
WAE9132
Installation Location
Indoor & Outdoor
Indoor & Outdoor
Indoor & Outdoor
Indoor & Outdoor
Indoor
Antennas Per AP
1
1
1
1
4
Polarization
Vertical & Horizontal
Vertical & Horizontal
Vertical
Vertical
Vertical
Horizontal Beamwidth
40°H, 40°V / 30°H, 35°V
41°H, 52°V / 34°H, 40°V
99°/58°
360°
360°
Vertical Beamwidth
40°H, 40°V / 35°H, 30°V
54°H, 40°V / 42°H, 33°V
65°/40°
144°/55°
Connectors
4 N-Type Jack (Male) (2
per Radio)
4 N-Type Jack (Male) 2
per Radio)
4 N-Type Plug (Female) (2
per Radio)
4 N-Type Plug (Female)
(2 per Radio)
N-Type Plug
Cables Required per
AP
4 (WAT912005 or
WAT91220)
4(WAT912005 or
WAT91220)
0 (built in 36” pigtail cables)
0 (built in 36” pigtail
cables)
0
Extension Cables
WAT911003 or
WAT911010
WAT911003 or
WAT911010
WAT911003 or
WAT911010
WAT911003 or
WAT911010
13 dBi (2.4GHz & 5GHz)
10 dBi 2.4 / 11 dBi 5GHz
4 dBi 2.4 / 7 dBi 5GHz
4 dBi 2.4 / 6 dBi 5GHz
2 dBi 2.4 GHz / 3 dBi
5GHz
Included Mounting Kit
Articulating Wall / Pole
Mount
Articulating Wall / Pole
Mount
Articulating Wall / Pole
Mount
Threaded Bolt with Nut
and Wall/Pole Mount
N/A (Direct Connect to
AP)
Operating Temperature
-40 to 149°F (-40 to
65°C)
-40 to 149°F (-40 to
65°C)
40 to 149°F (-40 to 65°C)
40 to 149°F (-40 to 65°C)
Wind Velocity
130 mph (210 km/h)
130 mph (210 km/h)
130 mph (210 km/h)
130 mph (210 km/h)
Antenna Gain
© 2016 Avaya Inc. All rights reserved.
47
WLAN 9100 Access Point Positioning
Access Point Capability Comparison
WAP9112
WAP9114
WAP9132
WAP9133
WAP9144
AOS Lite
AOS Lite
AOS
AOS
AOS
WOS
WOS
WOS, WMI, CLI
WOS, WMI, CLI
WOS, WMI, CLI
Wave 1
Wave 1
Wave 1
Wave 1
Wave 2
2x2
2x2
2x2
3x3
4x4
1
1
2
2
2
Fixed
Fixed
Programmable
Programmable
Programmable
PoE / PoE+
PoE
PoE+ / PoE*
PoE+
PoE+
Optional
PoE Injector
PoE Injector
PoE Injector
PoE Injector
Uplink Ports
1 x 1 GigE
1 x 1 GigE
2 x 1 GigE
2 x 1 GigE
2 x 1 GigE
Switch Ports
4 + 1 Pass
Through
0
1 (uplink)
1 (uplink)
1 (uplink)
Mounting
Wall
Ceiling / Wall
Ceiling / Wall
Ceiling / Wall
Ceiling / Wall
Included Brackets
Wall
Ceiling
Ceiling
Ceiling
Ceiling
Paintable
Yes
No
No
No
No
Operating System
Management
802.11ac
Spatial Streams
802.11ac Radios per AP
Radio Band (2.4 or 5 GHz)
Power Requirement
External Power Supply
* WAP9132 Requires PoE+ but
© 2016 Avaya Inc. All rights reserved.
is supported with PoE switch connection with restrictions
48
WLAN 9100 Access Point Positioning
Access Point Feature Comparison
WAP9112
WAP9114
WAP9132
WAP9133
WAP9144
802.11a/b/g/n/ac
Integrated Controller
Wireless Security
Wireless QoS (WMM)
Multiple SSIDs / Radio
Wireless Client VLANs
Dynamic VLAN Assignment
(RADIUS)
Auto Channel / Power
Stateful Filtering/Firewall
Device Fingerprinting
Layer 2 Roaming
Application Control
*
*
Fabric Attach
*
*
Intrusion Detection
*
*
External Captive Portal
*
*
User Groups
*
*
802.11k / 802.11r
*
*
*
*
*
© 2016 Avaya Inc. All rights reserved.
* Software Features planned for upcoming releases
49
WLAN 9100 Access Point Positioning
Access Point Feature Comparison
WAP9112
WAP9114
WAP9132
WAP9133
WAP9144
Intrusion Prevention
Layer 3 Roaming
GRE Tunneling
Client Load Balancing / Band
Steering
Roaming Assist / RF
Optimizations
Bonjour / MDNS Gateway
Multicast Traffic Optimization
Internal Captive Portal/WPR
Internal RADIUS Server
CLI / WMI / SNMP
North Bound API
WOS Maps / RF Views
802.11 Location Services
BLE iBeacon for Location
Services*
Zero Wait DFS*
AirIQ Spectrum Analysis*
© 2016 Avaya Inc. All rights reserved.
50