The 31 000 square kilometre hotspot

Added by Editor on 3 August 2011.
Saved under Alistair Fairweather, Opinion, Top
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[By Alistair Fairweather]

Anyone with a laptop or a smartphone has a love-hate relationship with Wi-Fi. When it works it’s like magic, but too often you find yourself just out of range, or struggling to remember which password you used with this or that hotspot. But imagine if a Wi-Fi hotspot could completely cover an entire city.

What sounds like science fiction is quickly becoming fact. Yesterday the Institute of Electrical and Electronics Engineers (IEEE) published their newest wireless standard — wireless regional area network (WRAN), or IEEE 802.22 in geek speak.

Using this standard, a single “hotspot” could cover over 31 000 square kilometres. That means a well-placed mast could cover the whole of Johannesburg and some of Pretoria. But the really brilliant thing about WRAN is that it uses leftover pieces of frequency known as “white space”.

It works like this: everyone who broadcasts a signal must stick to their allocated frequency or all the signals will disrupt each other and customers will be unable to “tune in”. And so the air around us was carved up (or licensed) long ago by the TV and radio broadcasters and, more recently, the cellphone networks.

When the frequencies that TV broadcasters use were allocated, wireless technology was far less precise and reliable than it is today. The industry chose to leave gaps between frequency bands — buffers to prevent one channel from interfering with another. That’s what you’re seeing when you tune a TV; the static between channels is the white space.

WRAN allows us, in theory, to use that wasted space to transmit data wirelessly at speeds comparable with the fastest 3G networks. Even better, these TV frequencies have many advantages over traditional 3G. A single broadcast station can cover 12 to 70 times more area, and the frequencies penetrate buildings and other obstacles much more efficiently. The TV guys clearly got the pick of the litter back when frequencies were doled out.

But while we may dream of a single, citywide hotspot, the best use of WRAN would be to offer broadband Internet access to previously ignored rural areas at the lowest possible cost. That’s almost certainly what the Americans will do with it, and it makes even more sense in Africa and the rest of the developing world.

Perhaps the most exciting thing about white space, at least in the US, is that it’s currently unlicensed. Just as you don’t need a broadcast license to set up your own Wi-Fi hotspot, you won’t need one for WRAN, even though you’re covering provinces rather than households.

Hang on, won’t that mean that hundreds of WRAN cowboys quickly end up interfering with each other? Not if the standard works properly. It uses a system called “cognitive radio” to automatically adjust to surrounding frequencies and therefore avoid any such disruptions. Magic, right?

But this silver cloud does have a fairly thick lead lining. Firstly, it will require a whole new generation of devices to use WRAN. Your standard laptop won’t be able to pick up the new signal, and neither will any smartphone or 3G dongle currently on the market. So we not only need to cover those rural areas, we also need to kit them out with currently nonexistent receivers.

And then there’s the fact that many devices already use the same white space for smaller scale applications. Wireless microphones, intercoms and in-ear monitors all use these frequencies. Blasting an area with WRAN signal would make them effectively unusable.

Nor is it as cheap as it sounds. The reach and penetration of the WRAN signal come at a price: power. TV broadcast masts are typically enormous and use huge amounts of electricity. This is not something a weekend geek could slap together — this is something that needs funding and a business plan.

Finally, the US’s regulators were willing to approve WRAN because they had already shifted their whole country to digital broadcasting standards. This is part of what makes cognitive radio — once a pipe dream — practical for the first time. Since our own digital migration is already running years behind schedule, we shouldn’t expect widespread use of WRAN in SA before 2015 at the very earliest.

For all those drawbacks, WRAN shows enormous promise. One of technology’s great strengths is its ability to make more efficient use of existing resources. There’s something very neat and satisfying about using a previously wasted space to help the less fortunate. Let’s hope our regulators feel the same way.

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  • Justin Robinson

    31, 000 square kilometers could cover more than “the whole of Johannesburg and some of Pretoria” considering Guateng is ±16, 548 square kilometers

  • http://twitter.com/Arfness Andrew Fraser

    Power of the tower is only one side of the coin. A high power broadcast signal from the tower is all very well, and easily capable of travelling 60+km in the 800MHz frequencies.  But what about the transmitter in the mobile device, how is that going to do the same with a (much) smaller antenna, and orders of magnitude lower wattage?

    /Arf goes to google IEEE 802.22…..

  • http://twitter.com/Arfness Andrew Fraser

    Google doesn’t offer any enlightenment.   seems that everyone is talking about 22Mbps at 100km, but no indication on how the CPE will be able to communicate back to the Base Station over that distance.

  • http://twitter.com/thewomble_za Greg Mahlknecht

    I remember seeing MS doing research/trials around this recently… google “White Space Networking microsoft research” and check the MS Research links, there’s a technical pdf with details that might help explain it, if it is indeed the same thing.

  • http://twitter.com/stevesong Steve Song

    Great to see this issue in the news!  Something I have been banging on about since TV White Spaces spectrum was approved by the FCC in 2008.  Probably the most interesting trials in this area are going on in Cambridge in the UK at the moment.  Have a look at http://www.zdnet.co.uk/news/networking/2011/06/27/microsoft-bt-test-white-space-broadband-in-cambridge-40093231/

    A couple of corrections to the article.

    1)  Both the UK and US are planning to rely on a spectrum authentication database to determine where these devices might operate.  These devices would have to regularly authenticate against that database before operating.  This is clumsier than spectrum sensing but there is currently too much debate about how well spectrum sensing currently works to rely on it entirely.  The authentication database is a workaround but probably a good one because it also increases the level of trust for the regulator who can step in at any time via the database to resolve conflicts.

    2)  This technology does not depend on the digital migration. The digital migration will open up more spectrum for re-use but there is ALREADY a lot of unused spectrum with the television bands that could be exploited.

    I suppose in theory you could have a single hotspot covering 31,000 sq km but the more likely scenario are many more lower power devices offering localised coverage.  Cambridge startup Neul are claiming about 16mbs up to a radius of 10km.  That is pretty amazing and a massive opportunity for this continent.

  • http://twitter.com/afairweather Alistair Fairweather

    I think the reality will be that upstream traffic will be handled by GSM or UMTS networks. Not ideal, but given the asymmetry of most users’ access requirements, it’s not a terrible solution.

  • http://twitter.com/afairweather Alistair Fairweather

    Hi Steve. Thanks for the comment and the good points. About the digital migration issue: I meant that our regulators (and broadcasters) are likely to be wary of people using the whitespace between their analogue channels, which are much fatter less noise tolerant. But yes, you’re correct.

    I agree RE the localised coverage. Last mile and femtocell applications within cities are also an exciting possibility.

  • http://twitter.com/Arfness Andrew Fraser

    I suppose that would work… but kinda defeats the object.  No point in such a huge hotspot if you require additional towers to handle return path.  The idea to use it in rural areas is founded on the idea that there is no existing coverage.

    I think that it could be a bit of hype around the concept gone viral – In reality none of the developers expect those kind of distances and would be happy with smaller cells – say 10 – 15km, where the CPE would be able to (at lower bitrates) communicate with tower using same technology.

  • http://twitter.com/afairweather Alistair Fairweather

    You’re probably right. But bear in mind how many rural areas have 2G data coverage, but no high speed wireless access. This could be a way to centralise all the backhaul at a single, much more efficient POP.

    But, yes, hype aside this is probably best used more for last mile type applications.

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