Community run communication
If you choose not to rely on electronic communication, thats great. But for those of us who do, isn't it time we set up community run alternatives?
Problems with existing communication networks
Gradually, the internet, which once seemed like a relatively free and user-controlled system – at least compared with totally centralised TV/radio broadcasting, becomes a controlled commercial space where people don't trust each other and we are constantly under the eyes of authorities and businesses - much like our city centres.
Centralisation of control, censorship, privacy
Two examples: In feburary 2012 the non-profit website 'scroogle' which offered an alternative version of google (where searches were not recorded) was taken down after action against it taken by google. Then in march 2012 google put into practice their new privacy policy, making users search history available to other google owned sites. Of course other sites exist which provide secure web searches.
During the uprising in Egypt 2011 there was an internet blackout, making it clear that such a communication network is valuable for organising social change but sadly rests in the hands of companies willing to cooperate with the authorities. Since then the US has began to develop an 'internet kill switch'. See the US Open congress bill 'Protecting Cyberspace as a National Asset' and indymedia article Internet Freedom Fighters Build a Shadow Web
- la quadrature du net advocacy group for internet freedom
- Telephone portable, gadget de destruction massive zine (fr) pdf sur infokiosques.net
- Ne laissez pas les machines jouer avec les enfants zine (fr) pdf sur infokiosques.net
- quema tu movil (Es) zine pdf (burn your phone)
ideas for alternatives
In order for a community run network to become popular, it might be useful to have some universal standards, and a way for different networks to link together. A small group might use high frequencies to get high bandwidth communication locally, but how can we connect that communication with lower frequency, longer range links to other communities? If we are going to set up some sort of repeaters or base stations to link groups, they need to be useful to everyone, and not dependent on other parts of the network. Some repeaters might be installed in vehicles or boats that move around. Or they might be dependent or wind or sun for power – so they cannot be always relied upon.
storytelling
It is relevant here to question what is important to us in a communication network. Simply spending time with and talking to people around you is a very useful way to communicate. Any kind of centralisation or broadcasting of information (such as the use of a printing press) could be argued to be detrimental to the autonomy of individuals and communities. when we look at examples in 'nature' we can see that beautiful organised structures come about as the result of a large number of low level interactions.
amateur radio
'amateur' radio communication has existed for over a hundred years. It is both a local and an international network and has often been relied upon when other communications have broken down because of disasters such as floods. Data modulation systems such as PSK31 can allow text services similar to email or sms, which can operate over thousands of miles on HF. Using the amateur bands requires a lisence and an official 'callsign', which are relatively cheap and easy to get, but there are restrictions which may cause a problem. For example sending encrypted messages is forbidden, and the lisencing association stores personal details of its users and will cooperate with governments. Of course we could use similar systems illegally, but as an existing nework it has the advantage of having estabilished and well documented international standards, as well as infrastructure such as repeater stations.
- AMPRNet Amateur packet radio network, also known as hamnet, is the name given to computer networks connected by amateur radio links. TCP/IP (internet protocol) packet radio networks have existed since before the puplic internet but have never been very popular, partly because of bandwidth restrictions (VHF links are commonly limited to 9600 baud). Interestingly radio amateurs are allocated a chunk of the IPv4 address space (44.0.0.0/8).
- Hinternet on noisebridge
- High Speed Multimedia Radio this article looks at using 802.11 wifi on different amateur bands.
- Low cost E-mail over HF with OFDM and turbo coding. This project looks to be a robust long distance solution. It uses newqpsk (or Q15X25) protocol with the 'soundmodem' software. OFDM seems to be gaining popularity in these lower parts of the spectrum, but I have a bit of trouble understanding this example, since it is a modulation mode, but a standard HF transciever is used.
Using simple, low cost transcievers for data
A simple solution can be to use low cost UHF transmitters/recievers with RTTY. There are some very cheap transmitters sold on ebay, some sold for use with arduino or raspberry pi (see issue 8 of magpi magazine). The problem is that the cheaper ones do not support channel selection, so would interfere with each other.
- Radiometrix, based in the UK, make quite good quality but still fairly cheap stuff. Also some transcievers with chanels selection and more high end radio modems.
- Linking an Arduino to a Radiometrix NTX2 Transmitter this guide explains how to connect one of these simple transmitters.
- strato -antenna design
companies selling radio and electronics stuff
- stabo.de cb kit and antennas`(de)
- cbplus (fr)
- e44 (fr)
- selectronic (fr)
pirate radio broadcast
pirate radio can be empowering for a community and is useful tool for combining art and information. but the nature of broadcast is that it remains a one-to-many monologue, and care must be taken that it remains participative and is not misused. Most pirate radio is on FM, but it would be interesting to experiment with AM and longwave.
=studio to transmitter audio bridges
Many pirate radio stations use a 'bridge' to link the studio to a remote transmitter. This is done either for security reasons (not wanting to get caught at the site of the transmitter) or simply to keep the transmitter close to the antenna when the antenna is in a difficult to reach spot (remember, the hieght of the antenna greatly effects the range). A bridge which gives a lot of range allows you to be very creative with antenna locations, as the transmitter could be powered by a small solar panel and battery and put in a very difficult to reach place. This 'bridge can be made in various different ways:
- Using a very long audio cable
- Using a second, usually lower power, FM broadcast transmitter operating on a different frequency.
- Using transmitters from wireless microphones. Most have at least 200khz of bandwidth and work in 470-698mhz UHF TV spectrum (could also be interesting to use for data...)
- Using a 'microwave audio bridge' which you can buy, often they work on 2.4 GHz wifi.
- use wifi routers and audio streaming software to make the bridge (a diy version of the above).
- use an internet link. A computer (eg: raspberry pi) and internet dongle or whatever (instructions in forum on Radionecks)
- use a PMR (walkie talkie) link. Probably would be bad audio quality because of low bandwidth but maybe one could find a way to have a high bandwidth bridge on PMR frequencies. (maybe some wireless microphones do this?)
- use CB. Again of course the bandwidth means a loss in quality but the advantage is the transmitter can be *very* far away. Apparently this has worked well for some projects, it would be great to know more...
Pirate radio links and projects
- Radionecks mostly london based pirate radio forum. there is a lot of interesting stuff, and also a place to buy and sell kit.
- Making waves:pirate radio for actikids pdf zine
- Complete manual of pirate radio pdf book, quite old
- ukw-senderbau.de sells transmitters and other kit
- FMA200 tunable 5/8 wavelength antenna. Is quite a good antenna
- [freie-radios.net]
- [radio4all.net]
- [eldoradio.net] -dortmond
- free radio berkeley
wavelength calculation
For making antennas its important to know the wavelength.
wavelength(lamda) = c / frequency c = speed of light = 299,792,458 m/s or just use c = 3 * 10 ^ 8 so if we use working with frequency in MHz we can use c = 300m/s so wavelength = 300 / frequency in MHz so 100mhz = 3m
darknets
networks which exist 'outside' the internet are gaining popularity. Many of them are comprised partly or entirely by internet 'tunnels' meaning they are not independent of interenet, but aim to create free and secure alternativesw within it.
- GNUnet GNUnet is a framework for secure peer-to-peer networking that does not use any centralised or otherwise trusted services. GNUnet wikipedia
- Tor free software for online anonymity. There are certain services and websites configured to be only accessible to Tor users, which comprises a kind of darknet, including email, the hidden wiki, The silk road marketplace,
wifi mesh or point to point
Using wifi for outdoor links is gaining more and more popularity. As the 2.4ghz band becomes crowded in densly populated area, more projects are begining to use the 5Ghz band as well. Some commercial manufacturers of wifi equipment are Mikrotik in Latvia and Ubiquiti Networks in the US.
- wireless networking for the developing world ebook
- free antennas.com
- Freedombox example projects
- 430mhz data transfer on this wiki
- tlant2409b
- Projectmeshnet.org "Project Meshnet was created out of the /r/darknetplan community in order to fight back against Internet censorship by corporations and governments around the world. It aims to use a combination of software and hardware to achieve the goal of a censorship-free Internet" This wiki is a guide to setting up a meshnet node, using CJDNS.
- Darknetplan subreddit "A place to organize efforts to create a hardware/software stack for a globally scalable system of interconnected local meshnets. We realize that the inclusion of "darknet" in this name does not properly describe our current objectives, but the meshnet is a necessary foundation for the final goal of a truly resilient darknet."
- cjdns software cjdns wikipedia
- hyperboria decentralised network powered by CJDNS
- netsukuku a very interesting project. Has not been maintained for a while but is recently being re-started.
- FON - commercially provided cooperative wifi sharing (but you need an internet connection to join)
guifi.net
guifi.net is based mainly around catalunya/valencia, and with over 20,000 operational nodes, it claims to be the biggest wireless network community in the world.
Each local guifi.net group organises between themselves financially - antennas can be bought be individual users, but often it is useful to put together some money for more expensive longer distance 'supernodes' and for times when nodes would need to be replaced, for example after being struck by lightening.
Many local guifi.net groups have successfully persuaded local government to share their internet connections, for example from libraries or offices, by allowing the group to install an antenna at the site linking it to the guifi network.
Guifi.net is backed by a 'foundation' officially registered as an operator with the Spanish Telecommunications Market Commision. Anyone (as long as they abide by guifi.net's code of practice) can use the name, and take advantage of being recogised as a foundation. For example, the inhabitants of two towns might organise together to lay fibre between the towns, and use guifi.net's foundation status to get permission from local governement.
They also have a good advocat and rely on european law to settle disputes about the legality of the project.
They use a private address space 10.xxx, ips are allocated by their website. and there are dns servers to resolve these local ips. The network is primarily used for providing interenet access, but off-internet services (ftp, etc) also exist and are quite popular.
Many guifi.net groups use mikrotik routers, and some use ubiquity.
freifunk
Freifunk is an international Project for free wireless networks and frequencies (Open Spectrum). Originating in germany, there are many community wireless mesh networks operating under the name 'freifunk'. The freifunk firmware is a modified version of OpenWRT designed for mesh networks. In Germany, some freifunk projects have had problems with people not wanting to share their internet connections using freifunk because of fears of people using their interenet connection for filesharing and that making legal problems for the interenet account holder. This regulation is known as the Störerhaftung. Although there are perhaps ways to get around this, it highlights a problem with the regulation of the internet and makes off-internet projects or services seem more appealing.
- freifunk.net
- freifunk wiki in english
- OLSR an adhoc wireless mesh routing daemon
tetaneutral
- tetaneutral.net Toulouse based wireless ISP, and member of Federation French Data Network, a federation of associative (non-commercial) ISPs in france. They use mostly ubiquity routers to make point-to-point links in and around toulouse.
Wireless Regional area networks
A standard for WRAN (wireless regional area networks), IEEE 802.22 has recently been developed, which will use 'white spaces' in the VHF and UHF bands, previously used by analogue TV broadcasting. The standard is likely to be used by commercial internet service providers to cover rural areas - internet base stations could operate over a 60km radius, like TV transmitters. It is the first international standard to use 'cognitive radio' to eliminate interference with existing TV signals. This makes it possible that transmission equipment will be software defined, making it more adaptable for eventually being re-used by us.
- IEEE 802.22 WRAN wikipedia article
- ieee802.org/22 official IEEE site
- ieee802.22 WRAN standard article on radio-electronics.com
- UK speeds up availability of 800MHz spectrum for lte auction This article shows how, in the UK, newly available spectrum is auctioned off to private companies. Perhaps rather than looking for legal solutions we should be thinking about squatting frequencies.
software defined radio
Software Defined Radio devices, such as the Universal Software Radio Peripheral (USRP), produced in the US by « Ettus research », could be very useful in establishing a community run network. They are computer controlled radios, where various aspects of the radio's operation which traditionally were done by analogue hardware devices, in paticular the modulation and demodulation of the RF signal, are done digitally by software. This has only recently become posibile because with radio frequency high sampling rates are required and computers need to run fast enough to demodulate them. The advantage is that software defined radio devices are flexible, adaptable and easy to modify. For example by changing the software that the USRP is running, it could act as a FM transmitter, GPS reciever, digital TV decoder, VHF tranciever, whatever... Of course some hardware changes (such as antennas and the USRPs 'daughter board' circuits) are required, but essentially it is software which defines the USRPs operation. There are many commerically available software defined radio devices, but the USRPs is particularly interesting because its circuit design is published openly and the software it runs, GNUradio, is open source.
- wikipedia article on software-defined radio
- OpenHPSDR.org High performance SDR, a completly open source modular design, for the lower-frequency projects (will recieve 0-65Mhz).
- USRP - universal serial radio peripheral for use with GNUradio
- wired.com article on the USRP
- SDR# SDR software written in C#
- wirelessinnovation.org has stuff about software defined radios (but seems positive about military/commercial applications)
- tools4sdr.com wiki about software defined radio. has stuff about USRP and WRAN standard.
- The Scientist and Engineer’s Guide to Digital Signal Processing by Steven W. Smith. available online is a useful book for SDR.
- hackrf a SDR hardware project in development
Reducing resources and waste by less hardware redundancy
Making devices more flexible by increasing the extent to which they are controlled by software is good because when the device is no longer needed it can be used for something else instead of being thrown away. Multi-perpose programmable devices, such as the arduino or raspberry pi, are good examples of hardware which will never become redundant. Software defined radio is likely to gain popularity in the coming years, which is interesting for us because it is easy to modify for different perposes. So when this technology becomes widespread and easy to find for free, we could modify commercial devices to work with our own set of standards – and if we change those standards at some point we will not need to get new equipment.
SDR use for mobile phone base stations
The USRP has been used in projects to decode GSM mobile phone signals. It is also used in a project to create easy to build GSM base stations using OpenBTS. A free mobile network using the USRP running OpenBTS (with some RF amplifiers) and powered by wind has been set up at Burning man festival for several years (But with an official lisence). Of course if an unlisenced GSM network was to get popular, we would be likely to have problems with the authorities very quickly. But the advantage is that individual users need only a mobile phone – and thousands of them are being thrown away.
- OpenBTS
- Exploring GNU radio article
- The OpenBTS Chronicles OpenBTS at Burning man 08
- Rowetel blog about free telephony, developing world telephony, open hardware, renewables
- GSM Scanner Project - seems to have gone down - why?
- GSM researcher stopped at heathrow airport by UK government officials
- freeswitch software telephone platform
- airprobe (add link) SDR software for analysing GSM.
RTL-SDR recievers
More recently, low cost SDR receivers have become popular, as it was realised that SDR digital TV recievers (such as the NooElec TV28T)can be used in a very flexible way - recieving 25MHz to 1.7GHz, usually with a 1mhz bandwidth, meaning they can be also be used as a spectrum analyser to look at 1mhz at a time. An antenna design known as a discone is good for omnidirectional wideband applications making it good for SDR projects.
- RTLSDR wiki it has some ideas about alternative antennas and feeders to use
- RTLSDR community on reddit
- DIY discone antenna for rtlsdr this site also has some stuff for 2.4 ghz wifi projects
SDR for community run communication
There seems to be a number of reasons why Software defined radio could be useful for community run communication systems. It could allow us to create something genuinely independent of existing commerically provided systems, whilst being able to re-use redundant hardware from these systems. Changes can be made to the standards of how the system works without requiring any new hardware – saving resources. Frequencies can be dynamically allocated, allowing different types of hardware to work together and interference with other systems to be avoided automatically. Software projects are also easier to work on collaboratively than hardware, meaning they will be constantly optimised and adapted.
Modulation modes for digital radio
Orthogonal frequency-division multiplexing is the modulation system used by ADSL, Wifi, and DAB digital radio. Multiple carriers are used, and the idea is that sub carrier frequencies are chosen that are 'orthogonal' to each other, which means they do not interfere with each other. Interestingly it is used even on HF (below 30Mhz) as used by the new international broadcast system 'digital radio mondiale'. It allows for a better signal in less bandwith compared to standard AM modulation.
- Multiple frequency shift keying wikipedia article
- An Introduction to Multi-Frequency Shift Keying from qsl.net
sounds like chaos
Decentralised community run systems will, by their nature, encourage people locally to interact, as information spreads geographically. If you are searching for something or announcing that you have something to offer, it will be naturally easier to find responses nearby. Compared to the internet, it will be more chaotic, but in a beautiful self-organising way. Text/images/music/whatever will spread geographically and and be able to discover the same stuff as others nearby but it will change all the time as ideas/art spread between groups like a roumour, like fairytails.
But aren't you gonna spend forever setting all this stuff up while your plants need weeding and watering and you ignore the people around you.....
other ideas (that need sorting out and putting somewhere)
- ronja diy laser
- ttfa.net/12volt
- pbx
- "overlay" networks
- x25, a kind of packet switched network
- skype like conferencing system also ZRTP and SRTP
biochar as soil improver open source ecology plants for a future RAM pump using water flow to pump a small amount of water
sox command line synthesiser - can write wav files horn response - speaker enclosure design software. can use with abaca? audio abacus
continue to 430mhz data transfer