Presentation is loading. Please wait.

Presentation is loading. Please wait.

MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Gigabit WiFi: Utilising 802.11ac on Campus Considerations and.

Published byKristin Lindsey Modified over 8 years ago

Similar presentations

Presentation on theme: "MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Gigabit WiFi: Utilising 802.11ac on Campus Considerations and."— Presentation transcript:

1 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Gigabit WiFi: Utilising 802.11ac on Campus Considerations and Benefits Higher and Further Education Manager UK&I Henry Batten hbatten@meruntworks.comhbatten@meruntworks.com

2 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Market Drivers for IEEE 802.11ac The need for a new, faster WiFi standard has been driven by huge increases in the numbers of WiFi enabled devices combined with users’ insatiable appetites for data consumption – WiFi is no longer a nice to have, it IS the network edge. With more and more devices hitting your networks, 802.11ac has been developed to deliver greater capacity, both in throughput and density. 2 802.11ac Market Drivers

3 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Visibility of Uptake in the UK so far: 3 At the HEAnet show in Ireland October 2013 that was 1%

4 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. What’s in the 802.11ac Standard Very High Throughput (VHT) - up to 10x compared with11n –Wider channels: 80MHz, 160MHz, 80+80MHz(4X) –New modulation: 256-QAM(1.3X) –More MIMO streams: up to 8(2X) Well defined Beam Forming Multi-User-MIMO (MU-MIMO) 4 802.11ac Standard Highlights

5 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Data Rates in 802.11ac 5 20MHz40MHz80MHz160MHz 1 stream86.7200433.3866.7 2 streams173.3400866.71733.3 3 streams288.960013002340 4 streams346.78001733.33466.7 5 streams433.310002166.74333.3 6 streams577.8120023405200 7 streams606.714003033.34095 8 streams693.316003466.76933.3 Delivered in the first generation of silicon Rates in Mbps 802.11ac Data Rate Matrix

6 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. DFS Not allowed in Europe Wider channels: 80Mhz and 160Mhz 6 Available Channels for 802.11ac 48 IEEE channel # 20 MHz 40 MHz 80 MHz 5170 MHz 5330 MHz 5490 MHz 5730 MHz 5735 MHz 5835 MHz 160 MHz 36404460 526411656136132124120108100104128112165161157140153 Weather radar Not allowed in North America 149144 Dynamic Frequency Selection

7 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. StandardBandwidth Spatial Streams PHY Data RateReal Throughput 802.11a20 MHz154 Mbps24 Mbps 802.11n20 MHz165Mbps46 Mbps 802.11n40 MHz2300 Mbps210 Mbps 802.11n40 MHz3450 Mbps320 Mbps 802.11ac Phase I80 MHz1293Mbps210 Mbps 802.11ac Phase I80 MHz2867 Mbps610 Mbps 802.11ac Phase I80 MHz31300 Mbps910 Mbps 802.11ac Phase II160MHz1867 Mbps610 Mbps 802.11ac Phase II160 MHz21730 Mbps1200 Mbps 802.11ac Phase II160 MHz32600 Mbps1800 Mbps 802.11ac Phase II160 MHz8*6933 Mbps4900 Mbps * There are no commercial implementations that use more than 3 spatial streams Data Rate Table

8 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Thank You Power and space challenges are still the same Don’t expect more than 3 data streams soon (-) Higher rates available at ranges closer to the AP (-) Higher throughput efficiency mean less time (power) spent for transmit (+) Users will still observe greater net throughput (+) Rate and Range

9 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Questions? Predicted Uptake

10 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Beamforming 10 Introduced in 802.11n 802.11n had many options – no vendor implemented it 802.11ac uses a single standard for beam forming

11 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. By changing time (phase) of 3 transmitters, 802.11ac AP’s can create a “constructive interference” transmit beam-forming waveform (TxBF) and generate a stronger signal that clients can hear better. 11 AP 3 rd Stream 2 nd Stream 1 st Stream AP Destructive Interference, when three streams of RF energy cancel each other 11ac AP 3 rd Stream 2 nd Stream 1 st Stream Constructive Interference, when three streams of RF energy stack up each other 11ac AP 11ac AP Without Beam- forming With Beam- forming Beamforming

12 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. A standard 3x3:3SS 802.11n AP effective coverage at different modulation rates 802.11n 64 QAM coverage Top rate @ 450 Mbps 802.11n 16 QAM coverage Top rate @ 180 Mbps 802.11n 64 QAM coverage Top rate @ 450 Mbps 802.11n 16 QAM coverage Top rate @ 180 Mbps GbEZoneGbEZone 802.11ac 256QAM 64 QAM Top rate @ 1330 Mbps Where can I access my Wi-Fi? User is outside of RF coverage zone with lowest RX Z(e.g. -90 dBm receiving sensitivity) User is within RF coverage zone with due to reconstructed radio coverage (due to different phase) Beamforming

13 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Multi-User MIMO Allows a sophisticated AP (#Antennas > #Streams) to maintain high throughput even when the clients are simple (smartphones, tablets, etc…) Up to four simultaneous clients, each with one or more antennas, transmit or receive independent data streams Needs MU-MIMO beam forming support Provides better channel reuse in single channel, enables high client density – 4 x density Expected only in the second generation of silicon 13

14 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Survey/Plan for 5GHz coverage –Old AP placements are probably based on old requirements –Higher signal strength requirement for 256QAM data-rates 40 or 80MHz Support –Highest data rates are only available with 80MHz channels –Not all vendors are recommending 80MHz channel widths due to architectural constraints 802.3af/at PoE PD Support –Some solutions require 802.3at PoE+ to operate at full performance Multiple GigE ports per AP –Worth considering provision, but not a must-have –Possible more benefit for resilience than performance 14 802.11ac Design Considerations

15 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. 15 802.11ac Benefits Higher data-rates than 802.11n –Gen 1 802.11ac AP’s offering 1.3Gbps vs 450Mbps on 11n Greater density –Higher data-rates mean clients need less time to complete their data transfers. Leaves more space for more clients –Gen 2 AP’s will add MU-MIMO capability Better ‘n’ than ‘n’ –Testing from multiple vendors has shown an increase in performance in 802.11n chipsets when used on 802.11ac infrastructure - no need to wait for benefits Power consumption benefits on client devices –More efficient transmissions lead to lower battery requirements

16 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Bonjour! A friendly greeting, or death to your network?

17 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Bonjour - Many Challenges Advertisement Problems –Bonjour is local only, designed for home use –Others use multicast Scalability Issues –Bonjour doesn’t scale due to Location Challenges –Which services are relevant Policy and Control –Who should advertise services? –Who should learn about services?

18 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Service Control in Action (Bonjour) DiscoverConsolidateDistributeAdvertise Policy POLICY CONTROLLED SERVICE DISCOVERY & ADVERTISEMENT

19 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Service Control – Use Case 19 Administration Building Liberal Arts Building ESSID: student ESSID: staff vlan 700 Vlan 600

20 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Service Control - Discovery 20 Administration Building Liberal Arts Building ESSID: student ESSID: staff vlan 700 Vlan 600 Global Service Discovery List Liberal Arts - Apple TV Liberal Arts - Printer Admin Bldg - Printer

21 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Service Control Policy - Faculty 21 Administration Building Liberal Arts Building ESSID: student ESSID: staff vlan 700 Vlan 600 Liberal Arts - Apple TV Liberal Arts - Printer Admin Bldg - Printer

22 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Service Control Policy - Student 22 Administration Building Liberal Arts Building ESSID: student ESSID: staff vlan 700 Vlan 600 Global Service Discovery List Liberal Arts - Apple TV Liberal Arts - Printer Admin Bldg - Printer

23 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Questions???

24 MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Thank You

Download ppt "MERU PROPRIETARY INFORMATION. © Copyright 2013. Meru Networks, Inc. All rights reserved. Gigabit WiFi: Utilising 802.11ac on Campus Considerations and."

Similar presentations

Long Term Evolution LTE Long Term Evolution LTE Sanjeev Banzal Telecom Regulatory Authority of India Sanjeev Banzal Telecom Regulatory.

Long Term Evolution LTE Long Term Evolution LTE Sanjeev Banzal Telecom Regulatory Authority of India Sanjeev Banzal Telecom Regulatory.
How to Set Up, Secure and Manage A Network

How to Set Up, Secure and Manage A Network
The Problems With Microcell (1) How cochannel interference destroys microcell throughput.

The Problems With Microcell (1) How cochannel interference destroys microcell throughput.
Doc.: IEEE 802.11-12/1196r1 Submission Data Rate and Spectrum Requirements for IEEE 802.11aj (45 GHz) Date: 2012-09-27 Authors: Haiming Wang (SEU)Slide.

Doc.: IEEE /1196r1 Submission Data Rate and Spectrum Requirements for IEEE aj (45 GHz) Date: Authors: Haiming Wang (SEU)Slide.
RADWIN 3.5/3.65GHz Product Portfolio January 2010.

RADWIN 3.5/3.65GHz Product Portfolio January 2010.
Ultrafast Phase Modulation (UPM) The Breakthrough Technology That Overcomes Many of the 802.11ac Concessions for Inadequate Technology by Jed Griffin gainics.com.

Ultrafast Phase Modulation (UPM) The Breakthrough Technology That Overcomes Many of the ac Concessions for Inadequate Technology by Jed Griffin gainics.com.
802.11ac for Hoteliers – Its time Getting off the Wi-Fi Roller Coaster - The Graceful Transition to 802.11.ac Perry Correll, Xirrus, Principal Technologist.

802.11ac for Hoteliers – Its time Getting off the Wi-Fi Roller Coaster - The Graceful Transition to ac Perry Correll, Xirrus, Principal Technologist.
Understanding 802.11ac. What is 802.11ac? 802.11ac is the next generation WiFi standard 3X faster than 802.11n.

Understanding ac. What is ac? ac is the next generation WiFi standard 3X faster than n.
EETS 8316 : WIRELESS NETWORKS Vamsi Krishna Medharametla 39873747.

EETS 8316 : WIRELESS NETWORKS Vamsi Krishna Medharametla
11ac: 5G WiFi The trigger for 5GHz everywhere Led by Apple and other consumer specialists – In-home device sync, video, backup, etc – “Gigabit WiFi” on.

11ac: 5G WiFi The trigger for 5GHz everywhere Led by Apple and other consumer specialists – In-home device sync, video, backup, etc – “Gigabit WiFi” on.
FHSS vs. DSSS Presented by Ali Alhajhouj. Presentation Outline Introduce the issues involved in the system behaviors for FHSS and DSSS systems used in.

FHSS vs. DSSS Presented by Ali Alhajhouj. Presentation Outline Introduce the issues involved in the system behaviors for FHSS and DSSS systems used in.
D-LINK HQ -WRPD Apr 10 th, 2012 Sales Guide v1.00.

D-LINK HQ -WRPD Apr 10 th, 2012 Sales Guide v1.00.
1 © 2014 XIRRUS :: All Rights Reserved GETTING OFF THE WI-FI ROLLER COASTER - THE TRANSITION TO 802.11.AC 802.11ac: IS IT NEEDED? IS IT TIME? Perry Correll,

1 © 2014 XIRRUS :: All Rights Reserved GETTING OFF THE WI-FI ROLLER COASTER - THE TRANSITION TO AC ac: IS IT NEEDED? IS IT TIME? Perry Correll,
1 SMART ANTENNA TECHNIQUES AND THEIR APPLICATION TO WIRELESS AD HOC NETWORKS JACK H. WINTERS 2006 2007/11/13 碩一 謝旻欣.

1 SMART ANTENNA TECHNIQUES AND THEIR APPLICATION TO WIRELESS AD HOC NETWORKS JACK H. WINTERS /11/13 碩一 謝旻欣.
Next Generation Hot Spot. WiFi Who’s using WiFi? WiFi or Mobile Internet (4G/3G)? Why? How’s your experience of WiFi today?

Next Generation Hot Spot. WiFi Who’s using WiFi? WiFi or Mobile Internet (4G/3G)? Why? How’s your experience of WiFi today?
Radio Technology Presentation

Radio Technology Presentation
RUCKUS WIRELESS PROPRIETARY AND CONFIDENTIAL Noisy Times in Wireless Welcome to Our World.

RUCKUS WIRELESS PROPRIETARY AND CONFIDENTIAL Noisy Times in Wireless Welcome to Our World.
DAP-1525 Wireless 11n Smart Beam Access Point Sales Guide v1.2 Wireless & Router Product Div Feb 15 st, 2011 D-Link HQ.

DAP-1525 Wireless 11n Smart Beam Access Point Sales Guide v1.2 Wireless & Router Product Div Feb 15 st, 2011 D-Link HQ.
Planning for 802.11ac Webinar www.cwnp.comCopyright © 2014 CWNP, LLC All rights reserved.

Planning for ac Webinar © 2014 CWNP, LLC All rights reserved.
Design Considerations & Emerging Standards.  Carrier Sense Multiple Access / Collision Detect.  Practical limit on 802.3 Nodes per collision domain.

Design Considerations & Emerging Standards.  Carrier Sense Multiple Access / Collision Detect.  Practical limit on Nodes per collision domain.

Similar presentations

Ads by Google