OpenBTS - open-source software that accesses the cellular network

Renaissance

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OpenBTS is a piece of software that uses fairly non-specialized hardware to create cellular access points (instead of using megacorporation's cell towers) . It's open-source but from looking around it seems there is or has been some accessibility issues. I haven't looked much into that aspect because I don't have a clue as to what is being said. Nevertheless, this is a pretty interesting piece of technology. It can't really be used in the US because it accesses the 2G digital cellular network, which is regulated by the FCC. However, the technology is being used in countries where such regulations do not apply. The system was setup in Haiti after their earthquake in 2010, for example. The system was tested in the US at Burning Man in California. The test was described in an article here:

Burning Man's open source cell phone system could help save the world
Today I bring you a story that has it all: a solar-powered, low-cost, open source cellular network that's revolutionizing coverage in underprivileged and off-grid spots. It uses VoIP yet works with existing cell phones. It has pedigreed founders. Best of all, it is part of the sex, drugs and art collectively known as Burning Man. Where do you want me to begin?

"We make GSM look like a wireless access point. We make it that simple," describes one of the project's three founders, Glenn Edens.

The technology starts with the "they-said-it-couldn't-be-done" open source software, OpenBTS. OpenBTS is built on Linux and distributed via the AGPLv3 license. When used with a software-defined radio such as the Universal Software Radio Peripheral (USRP), it presents a GSM air interface ("Um") to any standard GSM cell phone, with no modification whatsoever required of the phone. It uses open source Asterisk VoIP software as the PBX to connect calls, though it can be used with other soft switches, too. (More stats in a minute that I promise will blow away your inner network engineer.)

This is the third year its founders have decided to trial-by-fire the system by offering free cell phone service to the 50,000-ish attendees at Burning Man, which begins today in Black Rock City, Nevada. I've posted a few photos of the set-up here. But the project is still new and mostly unheard-of. The second-generation hardware is in beta and the project’s commercial start-up, Range Networks, won't emerge from stealth mode until September (at the DEMO conference).

Two of OpenBTS's three founders are a duo of wireless design gurus that make up Kestrel Signal Processing: David Burgess and Harvind Samra. The third is industry luminary Glenn Edens, the same Edens who founded Grid Systems, maker of the first laptop in the early ‘80s, who is also known as the former director of Sun Microsystem’s Laboratories (among his other credentials). He is Range Networks’ CEO.

Burning Man has become a brutal, but great test vehicle. "There are not too many places you can go where tens of thousands of people show up, all of them with cell phones, in a hostile physical environment – lots of heat and dust, with no power and no cell service," Edens says.

GSM operates on licensed bandwidth, so for any U.S. installation, the OpenBTS crew always obtains a FCC license and works with the local carrier to coordinate frequency use. When attendees get into range and power up their phones, the system sends them a text that says “Reply to this message with your phone number and you can send and receive text messages and make voice calls.”

Edens notes: "You can also make phone calls to any number, but you can’t receive them, except from other people at Burning Man. We don’t have a roaming agreement in place with any carriers yet. So calls from people out of range from Burning Man will go to voicemail … but you can check your voicemail." (You can follow the progress of the system setup on Burgess's blog).

Edens jokes that Kestrel gets an equal number of compliments and complaints for making cell phones accessible at the event. You win some and you lose some.

Certainly, the potential of OpenBTS is a winner. The system is only "as big as a shoebox," Edens says, and requires a mere 50 watts of power "instead of a couple of thousand" so it is easily supported by solar or wind power, or batteries. It performs as well as any other GSM base station which has a maximum range of 35 kilometers and a typical range of 20 kilometers, depending on geography, antennae height, etc.

It can use a wireless backhaul, too. "We’re working with UC Berkeley on a really interesting project on super long distance wireless backhaul. We can also use private microwave and all the usual backhaul technologies," Edens says. A full‐power base station with software costs around $10,000. Compare that to the typical $50,000 - $100,000 investment for base station controllers, mobile switching centers and "a whole lot of plumbing" to bring in power, backhaul, etc., in a traditional cellular network.

Like other GSM cell networks, OpenBTS networks can connect to the public switched network and the Internet. Because it converts to VoIP, it "makes every cell phone look like a SIP end point … and every cell phone looks like an IP device. But we don’t touch anything in the phone … any GSM phone will work, from a $15 refurbished cell phone all the way up to iPhones and Androids." Low cost phones are particularly important for projects in impoverished areas, where people can benefit most from better communications services.

"The UN and ITU studies show that when you bring communications services to an area, healthcare goes up, economic well being goes up, education goes up," Edens says, noting that costs and power needs are low enough that even a small village can afford to do this. Users may need to pay $2 or $3 a month.

He brags that setup is downright trivial. "After the Haiti earthquake, we sent a system that was installed at the main hospital in Port Au Prince. They had it working an hour after unpacking it from the box. The hospital PBX was down. They used it as their phone system for about two weeks."

Kestral has sold about 150 units, hardware and software, since last January, with trial systems installed in India, Africa, the South Pacific and a number of other countries. The team has also done a few private installations like oil fields, farms, and ships at sea. They are also providing a system to the Australian Base in Antarctica. Plus OpenBTS has been downloaded about 4,000 times, mostly by researchers able to build their own base stations. It is also of interest for military communications, law enforcement and DARPA projects.

Because OpenBTS relies on licensed bandwidth, the team hasn't been targeting enterprises wanting private campus-wide cell phone networks, though that’s not out of the question. Still, Edens says there's plenty of work to be done for the 60% of the world’s landmass and the 40% of the world’s population that don’t have service, he says, quoting number from the ITU. Carriers such as Telefonica to T-Mobile have expressed interest.

Here's a video that show's the setup using an Ettus Research USRP N210 kit, which costs $1700.

 
On the same topic, there's also the Serval Project

_http://www.servalproject.org/

Google Play Store page said:
Help us to make mobile phones go the extra mile during disasters by joining our indiegogo campaign; http://igg.me/at/speakfreely.

Mobile phones normally can't be used when cellular networks fail, for example during a disaster. This means that millions of vulnerable people around the world are deprived of the ability to communicate, when they need it most.

We have spent the past three years working with the New Zealand Red Cross to create a solution. We call it the Serval Mesh, and it is free software that allows smart-phones to communicate, even in the face of catastrophic failure of cellular networks.

It works by using your phone's Wi-Fi to communicate with other phones on the same network. Or even by forming impromptu networks consisting only of mobile phones. Mesh communications is an appropriate technology for complementing cellular networks. Think of it like two-way radio or CB radio that has been propelled into the 21st century. For truly long-range communications you will still need to make use of cellular or fixed telephone networks or the internet.

This software allows you to easily make private phone calls, send secure text messages and share files in caves, in subways, in the Outback, in Australia or Africa, in Europe or the United States -- even when cellular networks fail or are unavailable.

You can also keep using your existing phone number on the mesh, which is really important in a disaster when people are trying to get back in contact with each other.

Our software is :
* Completely open and open-source; free for all
* Can be carried and activated in seconds by those who need it when it is needed
* Carrier independent
* Can be installed during an emergency from only one phone
* Distributed nature makes network resilient
* Can use your existing phone number
* Encrypts mesh phone calls and mesh text messages by default
* Distribute pictures, videos and any other files
 
Renaissance said:
OpenBTS is a piece of software that uses fairly non-specialized hardware to create cellular access points [...]

Here's a video that show's the setup using an Ettus Research USRP N210 kit, which costs $1700.

Plus another $450 for the up-to-6GHz radio daughter card. Plus some cables/antennas. That would bring it to about $2300, but I still want one.

With this sucker, we could have Radio Free Cassiopaea and/or CassMobile cellular service if local infrastructure ever went down!

Well, with a very limited range, but it would still be nifty.

ADDED: Oh, or we could get the 66€ 0-30MHz radio card, and have our own shortwave radio station, if we had a good amp and a really big antenna... Then again, I could build a shortwave transmitter for far less money.

:headbanger:
 
Seems to me, that this setup may require a license
(broadcast, frequencies, bandwidth, etc) to use by
whatever jurisdiction has authority to regulate, like
the FCC in the US and similar authorities around the
world?
 
I just stumbled across this thread and this device looks really neat! In the event of a network blackout after some disastrous event, this could be used pretty effectively by a small community to give emergency communications. No doubt part of my attraction to it is the fact that it has a great philosophy behind it ( open source ) that appeals to me. It is ideal for remote communities that do not have the money for infrastructure but need an effective method to communicate.

In terms of a survival tool kit, I think this would be a really great device to have as it can use standard handsets which nearly everyone has already. I would liken it to having a walkie-talkie that uses your regular handset.

There are definitely and licensing issues and its not cheap if you want one to experiment with, but probably something a small team of interested parties could look into.

Thanks for the great info!

Kinyash
 

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