Post on 18-Jul-2015
2CONFIDENTIAL
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Who Am I ?
Interop - Speaker 2014 Las Vegas / NYC (Wifi Tools)
Cisco Live - Speaker 2013 Orlando (Deployment of 802.11ac)
Published Technical Editor – Sybex
Project: CCNA Wireless Study Guide by Todd Lammle
Published Technical Editor – Cisco Press
Project: Designing and Deploying 802.11 Wireless Networks: A Practical Guide to Implementing
802.11n and 802.11ac Wireless Networks For Enterprise-Based Applications (2nd Edition)
(Networking Technology) by Jim Geier
Started WiFi in late 90’s
Wireless Architect @ Houston Methodist Hospital – 5 years
• Manage 3,000 Access points
• 11,000 concurrent clients / 26,000 total
• Deployed our first AWO (All Wireless Office) 300 users / 800 devices
Independent Consultant (training, site survey, security, deployment and troubleshooting)
Vendor and Vendor neutral certifications
Blog: www.my80211.com , www.nostringsattachedshow.com, Cisco Support Community and Aruba.
Aruba MVP 2014
Cisco VIP 2012,2013 and 2014
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In the next 60 minutes
Take (2) things away from this session you didn’t know
before then this session was a success!!
“I personally define my own success in how I can help
others on their journey in WiFi”
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Agenda
Designing WiFi Networks for RF Coverage / Capacity
(Overview)
The Methodology of Troubleshooting WiFi Networks
WiFi Tools and Monitoring For WiFi Networks
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Designing WiFi Networks for RF Coverage / Capacity
• Designing WiFi for RF Coverage and Capacity
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Designing WiFi Networks for RF Coverage / Capacity
We need to understand the technical reasons
“WHY” there is a difference in design approach when
comparing coverage and density designs ..
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Fundamentals
CSMA-CA
NAV (Network Allocation Vector)
• Layer 2
• NAV (Time Busy After Transmission)
(ACKs, SIFS)
CCA (Clear Channel Assessment)
• Layer 1
• Energy Detect
• CS Carrier Sense
(Preambles / PHY Headers)
WiFi Radios Listen, Transmit and Receive
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Fundamentals
Preambles and PHY Headers
–Aruba Networks White Paper 802.11ac In-Depth
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Fundamentals
Constellations
–Aruba Networks White Paper 802.11ac In-Depth
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Fundamentals
Constellations
QPSK – 2 bits per modulation symbol at
90 degrees phase 4 wave forms
(phases)
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Fundamentals
Constellations
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Fundamentals
Layer 1 and Layer 2
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Fundamentals
Understand (CCI)
Majority of interference on todays WiFi networks
come from our own access points.
(CCI)
• High Power Radios
• Excessive Gain Antennas
• Excessive Overlap
• Poor Designs
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Fundamentals
TX Power and CSMA-CA
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TX Power In Relation To Cell Size
15CONFIDENTIAL
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Designing for WiFi Coverage and Capacity
Typical Questions to AskType of applications
• Real time (Voice / Video)
• EMR (Electronic Medical Record)
• PoS (Point of Sale)
• WMS (Warehouse Management System)
Type of WiFi devices
• Laptops
• Handhelds
• Phones
How many WiFi devices
UP/DOWN Bandwidth (Mbps) Requirements
Bands 2.4 GHz / 5 GHz
Area of coverage
Seamless Roaming Requirements*
WiFi Design
WiFi Grade
• Data
• Voice
• Vocera*
• RTLS
• Density (Indoor / Outdoor)
Identify High density areas
• Conference Rooms
• Lecture Halls
Security Requirements
• PCI
• HIPAA
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Generally Accepted WiFi Specifications
DATA Cell Size @ -75 RSSI / 20% Cell Overlap
VOICE Cell Size @ -67 RSSI / 25% Cell Overlap
VOCERA* Cell Size @ -67 RSSI / 25% Cell Overlap
RTLS Cell Size @ -67 RSSI / 25% Cell Overlap
(Edge Coverage)
DENSITY Cell Size @ ?? RSSI / ??% Cell Overlap
Designing for WiFi Coverage and Capacity
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Bands 2.4 GHz / 5 GHz - Design for the future!
2.4 GHz
Longer Wave Length (Longer Distance)
Most popular WiFi Frequency
Unlicensed
Over crowded
Many devices operate on 2.4
Limited channel selection (3 Channels)
5 GHz
Shorter Wave Length (Shorter Distance)
Popular WiFi Frequency
Unlicensed
20+ Channels
DFS
Not all clients support all channels
Careful with 2.4 GHz / 5 GHz enabled WLANs. Some client radios don’t make the best decisions.
Aruba’s Client Match aids with sticky clients.
Designing for WiFi Coverage and Capacity
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Channel Bonding – Should You Channel Bond?
20 MHz / 40 MHz / 80 MHz
Just because you can bond 80 MHz doesn’t mean you should!
Let the design requirements dictate channel width. You may have specific
Access points bonding at 40 / 80 MHz while others are at 20 MHz.
Channel reuse is a must to consider during any design!
Designing for WiFi Coverage and Capacity
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Channel Separation – 20 dBm
6 1 11
11 6
Designing for WiFi Coverage and Capacity
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Channel Separation
Designing for WiFi Coverage and Capacity
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Disable Low PHY Rates
Designing for WiFi Coverage and Capacity
DSSS / HRDSSS
1 PHY
2 PHY
5.5 PHY
11 PHY
ERP-OFDM / OFDM
6 PHY
9 PHY
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High Channel Utilization
Designing for WiFi Coverage and Capacity
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TX Power – Design for the lowest common device?
Designing for WiFi Coverage and Capacity
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Example Excessive Transmission Power
1 Access Point Seen At -90 dBm – 250k sq feet Warehouse
Designing for WiFi Coverage and Capacity
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Example Excessive Transmission Power
-60 dBm
-70 dBm
-80 dBm100% CCC or CCI
Designing for WiFi Coverage and Capacity
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Floor to Floor Coverage
1 Floor Below 2 Floors Below
TX Power @ 6mW
Designing for WiFi Coverage and Capacity
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Floor to Floor Coverage
1 Floor Below 2 Floors Below
TX Power @ 12mW
Designing for WiFi Coverage and Capacity
28CONFIDENTIAL
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Floor to Floor Coverage
1 Floor Below 2 Floors Below
TX Power @ 25mW
Designing for WiFi Coverage and Capacity
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Floor to Floor Coverage
1 Floor Below 2 Floors Below
TX Power @ 50mW
Designing for WiFi Coverage and Capacity
30CONFIDENTIAL
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Floor to Floor Coverage
1 Floor Below 2 Floors Below
TX Power @ 100mW
Designing for WiFi Coverage and Capacity
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Floor to Floor Coverage
1 Floor Below 2 Floors Below
TX Power @ 200mW
Designing for WiFi Coverage and Capacity
32CONFIDENTIAL
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Example Hallway Design
Designing for WiFi Coverage and Capacity
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Limit Signal Pollution
• Shape Signal• Antennas
• Walls
• Low Transmission Power
• Proper Channel Assignment
Designing for WiFi Coverage and Capacity
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Do The Math – Maximize Your Performance
Designing for WiFi Coverage and Capacity
Application Bandwidth Requirements• Web Browsing
• Video
• VoIP
Client Device Types
Maximum Clients Per Cell
35CONFIDENTIAL
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Outdoor – These Fundamentals Apply
Mining
Oil / Gas
Stadium
Green Area
Designing for WiFi Coverage and Capacity
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Success Starts Here
• Small cells low power
• Shape your signal
• Disable the low PHY rates
• Proper channel plan
• Proper cell overlap
• Know your application requirements
• Know your clients
Designing for WiFi Coverage and Capacity
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The Methodology of Troubleshooting WiFi Networks
• The Methodology of Troubleshooting WiFi
Networks
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The Methodology of Troubleshooting WiFi Networks
Is the area of coverage designed and configured correctly ?
If yes, and no changes to (ARM) then move on to device debugs, logs and WiFi
Analyzer.
If no, fix the area of coverage
Where there any changes to the infrastructure, device configuration or application that
could cause this issue?
If yes, understand what changes were made.
If no, move on to device, debugs, logs and WiFi Analyzer.
Mental Check Box
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The Methodology of Troubleshooting WiFi Networks
What is the issue from the end user perspective. Get detailed description of the problem.
Drop voice calls; Static calls; One way speech; Slow connection; Can’t Connect ; Specific Apps don’t
work; Multicast feature not working “Call to many”.
What device(s) are involved ?
Inspect device for damage; Driver Rev.; Configuration.
Can the issue be reproduced ?
ALWAYS try and get the device to fail yourself; Reproduce the failure. In almost all cases if you can get it
to fail. You can resolve the problem quicker. Test against known working devices side by side.
Is anyone else having a similar issue ?
If so, then track down these users and question them and compare stories. Best to do one on one
discussion and not group.
Are there any commonalities or differences in data collected ?
Is this isolated to a certain area of coverage; Certain population of devices or users.
When did this problem start happening?
Correlate to any possible network changes or pushes.
Collect End User Data / Field Visit
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The Methodology of Troubleshooting WiFi Networks
Physically Inspect The Device
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The Methodology of Troubleshooting WiFi Networks
Know Your Clients • Cardiac Imaging
• Electronic Medical Record (EMR)
• Mobile Ultrasound
• Mobile Picture Archiving and Communications systems (PACS)
• RTLS
• Mobile Robots
• Infusion Pumps
• Handheld Scanners
• Cows (Computer on Wheels)
• Cisco 7925 Handsets
• Vocera Badges
• Mobile Cisco TelePresence VX Clinical Assistant
• Roche Diagnostics ACCU-CHECK
• Mobile EKG Carts
• Mobile Med Dispensing Carts
• WorkGroup Bridges (WGB)
• Mobile Deaf Response Devices
• Patient Video Monitoring Carts
• DaVinci Simulators
• Laptops
• Tablets
42CONFIDENTIAL
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The Methodology of Troubleshooting WiFi Networks
Clients Hear RSSI Differently
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WiFi Tools and Monitoring For WiFi Networks
• WiFi Tools and Monitoring For WiFi Networks
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WiFi Tools and Monitoring For WiFiNetworks
Spectrum Analyzer
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Wireless NICs, External USB Hubs, and Noise
WiFi Tools and Monitoring For WiFi Networks
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WiFi Tools and Monitoring For WiFiNetworks
Site Survey (Active, Passive, Virtual)
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WiFi Tools and Monitoring For WiFiNetworks
Site Survey (Active, Passive, Virtual)
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WiFi Tools and Monitoring For WiFiNetworks
Site Survey Rig
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WiFi Tools and Monitoring For WiFiNetworks
Sniffer
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WiFi Tools and Monitoring For WiFiNetworks
Mobile 802.11ac 3x3:3 (beta)
BY FLUKE AIRMAGNET
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WiFi Tools and Monitoring For WiFiNetworks
Aruba AirWave
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Education
“Having a powerful tool in knowledgeable hands is the difference between owning a wireless problem or having a wireless problem owning you”