complete overview of mesh for amateur radio (updated nov. 2014)
DESCRIPTION
This is a comprehensive introduction to MESH for amateur radio enthusiasts. It is particularly useful for anyone new to MESH but will also include some nuggets sure to be helpful to the experienced operator. Topics include: 1. HSMM MESH vs. traditional digital modes 2. Router review & comparison 3. Firmware selection & configuration 4. Antenna considerations 5. Application scenarios for ARES and experimentation 6. Updates on local efforts & recent software announcements Visit VA3BCO.COM for more details.TRANSCRIPT
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HSMM MESH Networking (BBHN) Considerations for Amateur Radio
November 2014
Brian VA3BCO
Web: www.va3bco.com Twitter: @VA3BCO
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What You’ll Learn Today
MESH HSMM HIGH SPEED MULTI-MEDIA • MICROWAVE FREQUENCIES • AMATEUR PRIVILEGES FOR INCREASED
TRANSMIT POWER / ANTENNA GAIN • MASSIVE SPEED / CAPACITY
ADVANTAGE OVER TRADITIONAL DIGITAL MODES
MESH NETWORKING • P2P ARCHITECTURE • HIGHLY RESILIENT / FLEXIBLE • UNIQUELY SUITED TO AD HOC
DEPLOYMENTS
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Overview
1. Quick Comparison to Traditional Digital Modes
2. Introduction to “HSMM” and “MESH”
3. Practical Advice on Getting Started: ¤ Router Review & Comparison
¤ BBHN Firmware Selection & Configuration
¤ Antenna Considerations
4. Now What: Applications for ARES & Beyond
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Quick Comparison to Traditional Digital Modes Hardware & Soundcard Based Digital Modes
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Digital Considerations
When evaluating digital modes, what should we consider?
How much bandwidth is
available or how much do we need for
the digital mode?
BANDWIDTH
How fast is the mode able to transfer
information?
SPEED
What is the need for accuracy and does
the mode utilize error correction
techniques?
ACCURACY
How specialized or expensive is the
equipment?
EQUIPMENT
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Hardware TNCs & Modems
¤ Generally specialized / expensive equipment
¤ Not all modes available to amateurs
http://www.kantronics.com/products/kamxl.html
Kantronics KAM-XL All-Mode Wireless Modem • Packet 300 / 1200 / 9600 • PSK / RTTY / and more • ~ $400
http://www.p4dragon.com/en/Home.html
SCS P4dragon DR-7800 HF Modem • Pactor 4… max 10,500 bps • Backwards compatible with Pactor I/II/III • ~ $1800
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Soundcard Based Modes
http://www.k7ea.com/pask232r.html
http://www.arrl.org/images/view/News/nms_24.jpgSelection http://www.k7ea.com/pask232r.html
PSK 31 MT63
PACKET
http://www.soundcardpacket.org/3voltuneaid.htm http://www.arrl.org/news/rms-express-with-winmor-now-available-for-winlink-2000
WINMOR
¤ Generally low speeds and data capacity
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Massive Speed Difference
PSK / RTTY /
HF Packet
~ 30 to 300 bps
Pactor III
Pactor IV
~ 3 to 10 kbps
D-STAR
High Speed Data
128 kbps
HSMM
54 Mbps +
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Takeaways: Traditional Digital Modes
STRENGTHS
¤ Narrow bandwidth makes many of these modes suitable for long distance communication (HF)
¤ Flexibility of peer to peer architecture for ad hoc communication
¤ Even slow digital modes can be more accurate (and more private) than voice communication
WEAKNESSES
¤ Low speeds prevent using multimedia content which is highly prevalent today
¤ Hardware is highly specialized and expensive
¤ In the context of ARES, – Specialized operator skillsets and equipment may hinder availability (Knowledge of RMS, Fldigi, etc.)
¤ Poor compatibility with contemporary software that is commonly used
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HSMM MESH Opportunity
¤ What if we had high speed capacity / bandwidth?
¤ What if we had something that allowed users to easily leverage common software where high familiarity exists?
¤ What if this could be deployed easily without any significant pre-planning / architecture?
¤ What if this could be done relatively cheaply using COTS (consumer off the shelf) hardware?
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Intro to “HSMM” & “MESH” Key Principles & Application to Amateur Radio
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Network Topology Comparison
Hub & Spoke Key Attributes • Access points & nodes • Generally require pre-planning &
permanent infrastructure • Susceptible to single point of failure • Internet reliant on AP connectivity
Typical Hub & Spoke Topology
MESH Key Attributes • Peer to peer organic structure • Self finding / organizing • Multi-path data routing • Fault tolerant • Internet “from the edges”
MESH Topology Internet
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MESH Example 1 2012 Hurricane Sandy
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Source: http://www.nytimes.com/2014/04/21/us/us-promotes-network-to-foil-digital-spying.html?_r=2
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• Red Hook MESH • FEMA Uplink
http://oti.newamerica.net/blogposts/2013/case_study_red_hook_initiative_wifi_tidepools-78575
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MESH Example 2 2014 Hong Kong
Photo: http://www.scmp.com/news/hong-kong/article/1611322/grid-messaging-application-firechat-continues-ride-occupy-boost
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Source: http://mashable.com/2014/09/29/hong-kong-cell-network-chat/
Risk of cellular and/or wifi shutdown
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http://descrier.co.uk/technology/mesh-networks-like-firechat-used-hong-kong-protesters-make-switching-internet-much-harder/
¤ 70 meters…bluetooth MESH
¤ No wifi / cellular connections are needed
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Source: http://www.forbes.com/sites/parmyolson/2014/09/29/firechat-prepares-encryption-feature-as-it-drives-hong-kong-protests/
¤ 100,000 downloads in 24 hours
¤ 5.1 million chat sessions
¤ 37,000 used app simultaneously
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What About Amateur Radio?
MESH HSMM Commercial off the shelf (COTS)
WIFI routers Customized firmware based on OpenWRT
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4 W EIRP
What About Amateur Radio?
15OO W PEP** + 22 dBi Antenna
237.7 kW EIRP
Part 97 Licensed Part 15 Unlicensed
30dBm (1W) 6 dBi Antenna
** For comparative example only…keep in mind RF maximum exposure limits (MPE).
Licensed amateurs don’t have the same
power / antenna gain restrictions which
makes things more interesting!
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Part 97 & Part 15 Overlap
¤ 13cm amateur band overlaps common wifi channels: 2.
390
PART 97 LICENSED
PART 15 UNLICENSED OVERLAP
CH
-1
CH
0
CH
1
CH
2
CH
3
CH
4
CH
5
CH
6
CH
7
CH
8
CH
9
CH
10
CH
11
2.40
0
2.45
0
2.50
0
Part 97 Licensed • Allows equipment
modifications • 1500 W PEP • No EIRP limit • High gain antennas • Amps allowed • Interference protection • Usual stuff: call sign, no
encryption, etc.
Part 15 Unlicensed • Approved equipment
with no modifications • Max 1W (30dBm)
transmitter output power
• Max 4W EIRP (considering transmit power and antenna gain combination)
• Slightly higher EIRP for directional point to point applications
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Not just 2.4GHz
¤ Overlap in both 13cm and 5cm bands…
Source: http://en.wikipedia.org/wiki/High-speed_multimedia_radio
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20/40 MHz width
8 overlapping ch.
OFDM
1500W PEP
20 MHz width
8 overlapping ch.
OFDM
1500W PEP
22 MHz width
8 overlapping ch.
DSSS
10W PEP
Channels & Power
802.11a
5.650 – 5.925 GHz
54 Mbps
802.11b
2.390 – 2.400 GHz
11 Mbps
20 MHz width
12 non-overlapping ch.
OFDM
1500W PEP
Source: http://en.wikipedia.org/wiki/High-speed_multimedia_radio
OFDM: Orthogonal Frequency Division Multiplexing DSSS: Direct Sequence Spread Spectrum
802.11g
2.390 – 2.400 GHz
54 Mbps
802.11n
2.390 – 2.400 GHz
300 Mbps
5cm 13cm
Broadband Hamnet CH.1
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Reference: dBm / Watts Conversion
Source: http://en.wikipedia.org/wiki/High-speed_multimedia_radio
dBm Watts dBm Watts dBm Watts 0 1.0 mW 16 40 mW 32 1.6 W 1 1.3 mW 17 50 mW 33 2.0 W 2 1.6 mW 18 63 mW 34 2.5 W 3 2.0 mW 19 79 mW 35 3.2 W 4 2.5 mW 20 100 mW 36 4.0 W 5 3.2 mW 21 126 mW 37 5.0 W 6 4 mW 22 158 mW 38 6.3 W 7 5 mW 23 200 mW 39 8.0 W 8 6 mW 24 250 mW 40 10 W 9 8 mW 25 316 mW 41 13 W
10 10 mW 26 398 mW 42 16 W 11 13 mW 27 500 mW 43 20 W 12 16 mW 28 630 mW 44 25 W 13 20 mW 29 800 mW 45 32 W 14 25 mW 30 1.0 W 46 40 W 15 32 mW 31 1.3 W 47 50 W
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Getting Started with HSMM MESH (BBHN) for Licensed Amateurs Linksys or Ubiquiti Routers with HSMM-MESH Firmware
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HSMM – MESH in One Slide
Here’s a simplified summary:
1. Obtain a supported router (only specific models work)
2. Download the correct HSMM-MESH firmware
3. Reflash the router (and use the proper SSID)
4. Minor setup in software (ie. Call Sign)
5. Other people with HSMM-MESH enabled routers using the same SSID and within range will automatically become part of the network
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What Can I do With it?
¤ Whatever software applications you would have used on a computer network, you can pretty much use on a MESH network:
File Sharing
IRC Chat
Web Browser
VOIP Phone
IP Cameras
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More Detailed Explanation
The following sections will provide more detail:
Part 1 - Choosing a Router
Part 2 – Downloading & Installing the Firmware
Part 3 – Antenna Placement & Considerations
Part 4 – Operating with HSMM-MESH Software
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Part 1 – Choosing a Router Linksys or Ubiquiti Routers
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Getting Started: Hardware
¤ Typically a Linksys router…but only certain ones…be sure to check the list:
¤ http://www.broadband-hamnet.org/section-blog/37-hardware-faqs/101-supported-hardware.html
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Which Linksys Router?
¤ Find older Linksys routers (version 4 and below)
¤ Upon version 5, Linksys switched from a linux based firmware to VxWorks OS and reduced flash memory / RAM
YES
WRT54G 1.0 – 4.0
WRT54GS 1.0 – 4.0
WRT54GL 1.0 – 1.1
Source http://en.wikipedia.org/wiki/Linksys_WRT54G_series
NO
WRT54G 5.0+
WRT54GS 5.0+
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Linksys: Antenna Connections
Antenna Connections
¤ Most models have 2x reverse polarity TNC connectors
Source: http://wiki.openwrt.org/toh/linksys/wrt54g Source: http://www.hotarc.org/images/connectors.jpg
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Caution: Line Loss
10MHz
0.6dB loss / 100’
(RG-213)
2.4GHz
15.2dB loss / 100’
(RG-213)
Short feedline runs are critical
¤ Feedlines should be short possible since signal loss is much higher at microwave frequencies (even when using LMR-400)
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Linksys: Power
Power Connections
¤ Accepts 4v – 16v
¤ Use AC power adapter or solder connections for USB or PowerPoles
Source: http://wiki.openwrt.org/toh/linksys/wrt54g
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W5MAE RooTenna
19 dBi Panel Antenna ($100 - $150 in materials)
Instructions from W5MAE http://bit.ly/1y8MnxE
Laird 2.4GHz 19dBi RooTenna: http://bit.ly/1tgCCt3
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Linksys Support Will End Soon
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Linksys vs. Ubiquiti
630 mW 79mW
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BBHN Support for Ubiquiti
Source: http://fleetnetwork.ca/collections/airmax
Integrated Radio & Antenna Standalone Radio
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Ubiquiti Product Comparison
Name NanoStation M2 NanoStation Loco M2 AirGrid M2 HP Bullet M2 HP Rocket M2 Model NSM2 LOCOM2 AG-HP-2G20 M2 M2 Frequency 2.4 GHz 2.4 GHz 2.4 GHz 2.4 GHz 2.4 GHz Op Freq Range 2412 - 2462 MHz 2412 - 2462 MHz 2412 - 2462 MHz 2412 - 2462 MHz 2402 - 2462 MHz Thoroughput 150+ Mbps 150+ Mbps 100+ Mbps 100+ Mbps 150+ Mbps Range 13+km 5+km 20 +km n/a n/a Power Supply 24V, 0.5A POE 24V, 0.5A POE 24V, 0.5A POE Upto 24V 24V, 1A POE POE Included? Yes Yes Yes No Yes Max Power Consumption 5.5 Watts 8 Watts 3 Watts 7 Watts 6.5 Watts Transmit Power (dBm) 28 dBm 23 dBm 28 dBm 28 dBm 28 dBm Transmit Power (Watts) 630mW 200mW 630mW 630mW 630mW Polarization Dual Linear Dual Linear V or H n/a n/a Antenna Gain 11.2 dBi 8.5 dBi 20 dBi n/a n/a Max Potential EIRP 39.2 dBm 31.5 dBm 48 dBm n/a n/a RF Connector n/a n/a n/a N Male 2 RP SMA Appx. Price (CDN) $100 $60 $80 $90 $105
Source: http://www.ubnt.com/products/
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Ubiquiti Videos
http://youtu.be/zRmOpFtIrwE
“Ham Radio HSMM Using Ubiquiti Equipment” Mark Rodgers KC8GRQ
http://youtu.be/V94Afsfv8-E
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NanoStation M2 (11.2dBi)
Source: http://www.ubnt.com/products/
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NanoStation Loco M2 (8.5dBi)
Source: http://www.ubnt.com/products/
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AirGrid M2 HP (20 dBi)
Source: http://www.ubnt.com/products/
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PoE (Power Over Ethernet)
¤ Most Ubiquiti devices come with 24v PoE adapters
¤ Consider voltage drop over distance
Source: http://www.ubnt.com/accessories/poe-adapters/
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PoE (Power Over Ethernet)
¤ Ubiquiti devices will also operate on 12v (10.5v min) so you can use solar / battery if desired (note…keep CAT 5 distance shorter to prevent excessive voltage drop)
¤ Be sure to confirm your passive POE injector uses +4/5 and -7/8 on the CAT 5 cable
Source: http://www.amazon.com/Passive-injector-Power-over-Ethernet/dp/B00EBCGJVW/
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Part 2 – BBHN Firmware Selection, Installing, & Configuration
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Software Overview
¤ BBHN (broadband hamnet) is a modified version of OpenWRT designed to run as an OS on embedded devices
¤ Software version matters – not currently backwards compatible
¤ Once your router has the new firmware, it will no longer function as a “wifi hotspot”
¤ Your computer must plug directly into the router (via ethernet) or another unmodified wifi router should be used as an access point
¤ Your connected computer will use a web browser to configure the BBHN software
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Download the Right Software
¤ Go to http://www.broadband-hamnet.org/software-download.html
¤ Choose the appropriate version of software for your router and situation and be sure to read any updates on the home page
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Installation / Config Instructions
¤ Three good options for direction and support:
http://bit.ly/1Ak3S3r
1. BBHN Wesbite 3. YouTube Videos 2. Search BBHN / Router
http://youtu.be/pryc8jIl6Xo http://bit.ly/1E6e6B9
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Antenna Placement Understanding the Fresnel Zone
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Line of Sight
“Microwaves can go 15 miles or
through one tree”
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Line of Sight: Fresnel Zone
¤ Microwaves aren’t really a narrow beam so much as they are an ellipse.
¤ Elliptical zone between transmit / receive points is called the fresnel zone.
¤ Image Source: http://www.tp-link.com/en/support/calculator/#1
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Line of Sight: Fresnel Zone
Source: http://en.wikipedia.org/wiki/Fresnel_zone
¤ Distance (and path obstacles) will influence the required height needed for optimal transmission.
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Line of Sight: Fresnel Zone
Source: http://en.wikipedia.org/wiki/Fresnel_zone
¤ As a rule of thumb, the typical maximum obstruction allowable in the Fresnel zone is 40%, but the recommended obstruction is 20% or less.
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Part 4 – Operating with BBHN Application Software & Usage Scenarios
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Potential BBHN Usage Scenarios
Tinkering ARES 1. Emergency Site Network 2. Bridging Internet Connectivity 3. Video Monitoring / GPS / Drone
1. Remote Rig Control 2. Repeater Linking / Bridging 3. Local Club Network
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Potential BBHN Usage Scenarios
ARES 1. Emergency Site Network 2. Bridging Internet Connectivity 3. Video Monitoring / GPS / Drone
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1: Emergency Site Network
Traditional Approach • Paper files • Slow data (if at all) • HT Voice
Today’s World • Microsoft Office / File Sharing • VOIP & Videoconferencing • Social Media, Chatting, etc.
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1: Emergency Site Network
20km Point to Point
Site A
Site B Extended
¤ A variety of BBHN enabled equipment can be used to link various sites together to create a closed high speed network that can handle a full suite of data applications
Impacted zone with disrupted communications / power
Site B
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2: Bridging Internet Connectivity
MESH Topology Internet
¤ Times have changed with internet access and social media becoming critical communications tools during emergencies:
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Online – First Stop for Information
¤ Whenever a situation arises, the internet is the first stop for critical information:
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Google Crisis
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Google Public Alerts
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Google Person Finder
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Twitter Alerts
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Facebook Safety Check
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2: Bridging Internet Connectivity
20km Point to Point
Site A
Site B Extended
¤ BBHN could be used to provide MESH nodes with internet access from “beyond the edge” (although there may be some regulatory considerations to be aware of)
Impacted zone with disrupted communications / power
Site B
Normal Zone Internet
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3: Video Survey of Damage
Source: http://s.imwx.com/common/articles/images/ice-storm-springdale-patpie_650x366.jpg
¤ What if a drone with a live video feed could be used to survey and assess damaged / inaccessible areas?
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3: Video Survey of Damage
Realtime video or file upload
Site A
¤ What if a drone with live video feed could be used to survey and assess damaged / inaccessible areas?
Impacted zone with disrupted communications / power
Site B
Site C
Video From Drone
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Potential BBHN Usage Scenarios
Tinkering 1. Remote Rig Control 2. Repeater Linking / Bridging 3. Local Club Network
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1: Remote Rig Control
Common Challenges
¤ Noise Level
¤ Neighbors
¤ Antenna Height
¤ Property Aesthetics
¤ Etc.
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1: Remote Rig Control
¤ Opportunity to find superior antenna space at a more remote location without DSL / cable internet access
20km Point to Point (or link through multiple nodes)
Site B Photo: http://www.dr1a.com/media/station/towers/DR1A_Tower4_2010.jpg
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2: Repeater Linking / Bridging
Common Challenges
¤ Service costs of Internet / phone
¤ Physical access limitations
¤ Etc.
Photo: http://www.soara.org/dstar/repeater_pics/dstar-photos.html
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2: Repeater Linking / Bridging
¤ If cost or physical access issues are a concern, BBHN could be used to link sites or layer in internet access
20km Point to Point (or link through multiple nodes)
Site B Photo: http://www.soara.org/dstar/repeater_pics/dstar-photos.html
Internet
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3: Local Club Network(s)
Opportunity
¤ Organic growth and critical mass can help overcome line of sight issues and make less powerful equipment more effective
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3: Local Club Network(s)
Green active Blue and “F” dots future Red not likely
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Thank You www.va3bco.com @VA3BCO