Wireless Waffle - A whole spectrum of radio related rubbish

Eurovision, but no Eurosound?signal strength
Thursday 4 April, 2013, 22:05 - Licensed, Spectrum Management, Chart Predictions
Posted by Administrator
eurovision logoIt is now only a month or so before the annual pan-European musical bun fight that is the Eurovision Song Contest (which is on the 18th of May). The 39 songs that have made it to the competition (which this year is in Malmo, Sweden) are now available to listen to online - with many having professionally produced videos viewable on YouTube. As always there is a mix of complete Euro-nonsense (Greece with their song Alcohol Is Free), songs that could have been written for Eurovision any time from 1960 to the present day (Switzerland's song You And Me falls into this category) copies of last year's winner in the hope that people will want the same thing again this year (Germany's Glorious for example), sickly pop songs with no real substance (Finland's Abbaesque entry Marry Me) and this year, it seems, a whole swathe of rather nice ballads.

For what it's worth, Wireless Waffle is particularly fond of the Icelandic entry (Ég á Líf), the video for which awaits your enjoyment below. If you are of an emotionally sensitive disposition, make sure you have some tissues to hand.



Our selection of songs that ought to be in the top 5, at least if they are able to reproduce the performance in their videos on stage on the night are:
  • Eyþór Ingi Gunnlaugsson - Ég á Líf (Iceland)
  • Roberto Bellarosa - Love Kills (Belgium)
  • Zlata Ognevich - Gravity (Ukraine)
  • Despina Olympiou - An Me Thimáse (Cyprus)
  • Dina Garipova - What If (Russia)
But dodgy songs aside, the contest has always been a real test of ingenuity and resourcefulness for broadcast engineers. Those who remember the show from the early 1990s will recall the 'fun' that took place trying to establish the video feeds from the countries voting, with cheers going up from the audience on occasions when the link was finally made. These days, making a video connection from one place in Europeland to another is comparatively straightforward, though dealing with the presenters egos is a whole different problem.

What has become more complex, though, is the use of wireless technology for the event. Whilst it's still normal in a concert hall to use wired cameras, the use of radiomicrophones and in-ear monitors (which allow the performer to hear themselves sing without the noise of the surrounding environment) has grown significantly over recent years. Figures provided in response to a European Commission consultation on programme making spectrum show an average annual growth of 12% in the number of such devices employed over the past 15 years (but nearly 40% growth per year over the last 4 years).

Year Venue Radiomicrophones used In-Ear Monitors used
1998 Birmingham, UK 40 2
1999 Jerusalem, Israel 42 6
2000 Stockholm, Sweden 48 16
2001 Copenhagen, Denmark 48 16
2002 Tallinn, Estonia 54 16
2003 Riga, Latvia 54 16
2004 Istanbul, Turkey 54 16
2005 Kiev, Ukraine 54 16
2006 Athens, Greece 54 16
2007 Helsinki, Finland 56 16
2008 Belgrade, Serbia 56 16
2009 Moscow, Russia 56 16
2010 Oslo, Norway 72 32
2011 Düsseldorf, Germany 82 40
2012 Baku, Azerbaijan 104 80

What is driving this growth? One the one hand, the equipment costs are coming down making it more affordable to use wireless microphones. On the other, it's also probably true that in earlier years, microphones would be passed from one user to another as they went on/off stage whereas now each artist and band has their own set of equipment which is tailored to their own needs.

radio microphone 1955

Equipment is one thing, but what about the radio spectrum issues? Radiomicrophones and in-ear monitors are normally analogue (for reasons that can wait for another day) and use around 200 kHz of spectrum each. If all the devices in Baku (184) were turned on at the same time, they would need 37 MHz of spectrum just to exist. But this is not the full story. Firstly, if devices were 200 kHz apart, there would be not a sliver of a gap between them. Whilst they could all successfully transmit, even the smartest digital receivers would find it difficult to separate them from each other - and we aren't dealing with digital technology. In reality, frequencies are separated by at least 300 kHz and often more to allow the receivers room to breathe.

The situation is even worse than this however. Due to the close proximity of devices to each other, and of devices to receivers, there is a tendency for lots of intermodulation to occur. If you assume that each 200 kHz channel that can be used is numbered, starting at 1 then you can't use the adjacent channel because it's too close. You also, because of intermodulation, can't use any channel which represents the difference or sum of twice the value of one channel being used minus another channel being used. As and example:
  • If you are using channels 1 and 3 (channel 2 is adjacent to channel 1, so you can't use that), you can't use channel 4 (as its adjacent to 3) or channel 5 (as its 2*3-1). The next available channel is 6.
  • If you are using channels 1, 3 and 6, you now also can't use channel 7 (adj to 6). The next available channel is 8.
  • If you are using channels 1, 3, 6 and 8 you now can't use channels 9 (adj to 8), 10 (2*8-6) or 11 (2*6-1). The next available channel is 12.
... and so on.

The diagram below shows the situation. Green channels are those in use. Red channels are adjacent channels that can't be used. Purple channels are intermodulation products. Pink channels are both at the same time!

radio mic intermod

In the example given above, out of 24 available channels, only 8 are useable. Actually, if you extended the diagram at this point you would find that another 10 channels are already 'wallied out' because of intermodulation. So 8 transmitters has used 34 frequencies! The relationship between the number of transmitters on-air and the number of channels sterilised is not linear but in general something of the order of 1 frequency in 5 can be used for radiomicrophones where they are packed densely in a given location if these problems are to be avoided.

This represents pretty poor frequency efficiency but is fairly representative of what is achieved in real life, which is that only something like one fifth of any spectrum available for radiomicrophones or in-ear monitors can be used in any one venue at the same time. Returning to Baku then, the amount of spectrum required is not 37 MHz, but to support 184 devices simultaneously would require more like 184 MHz of spectrum: give or take 1 MHz per device!

Most radiomicrophones (and in-ear monitors) operate in and amongst television broadcasts in the UHF band which notionally runs from 470 to 862 MHz. In many countries, however, the upper end of this band from 790 MHz upwards has now been set-aside for mobile broadband services, leaving 320 MHz remaining for television broadcasting (and of course radio microphones).

look no wiresAzerbaijan, last year's host of the Eurovision, is yet to switch over to digital TV and equally has not yet used the upper part of the UHF TV band for mobile services and so finding 180 MHz of spectrum for radiomicrophones is presumably not that difficult. In 2013, however, the contest is in Malmo, Sweden. Not only has Sweden cleared the upper part of the UHF band for mobile services, but it has also gone over to digital broadcasting. Malmo is virtually on the border between Sweden and Denmark meaning that the local TV spectrum will be occupied not only by the 8 Swedish multiplexes but by the Danish ones too. Finding 180 MHz of spectrum for this year's competition is therefore much more challenging.

But move forward 10 years and then what will happen. For starters, at the current rate of growth, and assuming no improvement in the spectrum efficiency of wireless microphone technology, there will be a requirement for 560 MHz of spectrum for the Eurovision. Secondly, the parts of the UHF TV band currently unoccupied and used for these purposes will be full of 'cognitive radio' devices hunting out every last vestige of unused spectrum. What will happen then? The simple fact is that no-one really knows, but the programme making community are worried, and understandably so. If there was a way around the intermodulation problem, then the amount of spectrum required would decrease, so perhaps now is the time for some enterprising RF engineer to find a solution to this problem so that we can continue to enjoy the pageantry of the world's greatest song contest. Either that or sing less? Some would argue that for the Eurovision that would be no bad thing.
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What are the chances (Part III)?signal strength
Thursday 21 March, 2013, 17:54 - Licensed, Spectrum Management
Posted by Administrator
Previous posts entitled 'What are the chances?' have mostly been about the chances of pirate at800radio stations causing enough interference to merit the authorities tracking them down. In a sense, there is a certain similarity between that topic and the one discussed here as the question that's being explored today is 'What are the chances... of receiving interference from 4G networks at 800 MHz if you are a UK DTT viewer?' Rather a long title, but as of this week, an organisation called Digital Mobile Spectrum Limited (DMSL) who are badging themselves as at800 have been given £180 million specifically to try and answer exactly that question.

So what is the problem exactly? The UK has just auctioned spectrum which is colloquially known as the 'Digital Dividend'. This radio spectrum was previously used for television broadcasting, representing channels 61 to 69 inclusive (790 to 862 MHz). Many people have antennas and receivers that were receiving television pictures on those channels until very recently. As of now, these frequencies are going to be used for 4G mobile services. Once these services are on-air, there will be mobile base stations transmitting on frequencies which it is possible for set-top boxes and digital televisions to receive - though as mobile and television technologies are different, they won't receive pictures, just the signals (a bit like listening to a conversation in a foreign language - you can hear it but you can't decipher it).

femto cellUnder certain circumstances, it is possible that the 4G transmissions could cause interference to television (Freeview) reception. The circumstances are complex but generally if television transmissions on channel 59 or 60 are being used in a particular area, the receivers will be more susceptible to interference. If those receivers are close to a mobile base station transmitting at the lower end of the new 800 MHz mobile band, then interference could be caused (mobile operator 'three' have the frequencies at the bottom of the band most likely to cause a problem). Calculating who will be affected is therefore rather complex - it is a combination of which television transmitter they are watching, how far away from it they are, and how close to a three base station they are. Thus it is not straightforward to identify whose viewing might be disrupted.

All is not lost though, as there is a way to solve the interference. The solution to the problem is to fit a filter which allows the television transmissions through but blocks the 4G signals. at800 have been given the money to help work out who will be affected and to pay for filters to be fitted. It has been estimated that up to almost 1 million UK television households could be affected. The key here is 'could be...' because experience in other countries where 800 MHz services have already been launched is that they have not led to the degree of interference problems that are predicted.

There is no doubt that some households will be affected, but the numbers could be well below 1 million. Those which are most susceptible are those which are in areas where television signals are already weak. In some of those areas, viewers will have fitted amplifiers to their TV antennas to boost the signal. These amplifiers are particularly susceptible to interference and can even be completely overloaded by strong 4G transmitters. Similar amplifiers are also used to distribute signals from a TV antenna to multiple television sockets. Some houses with multiple sockets may have an amplifier fitted and not even be aware of it. In blocks of flats the same idea applies. These situations will make fitting a filter more complex, but still feasible.

In some (rare) cases, it is possible that no amount of filtering will solve the problem. In these circumstances at800 has the power, and the money, to replace the terrestrial television system with an alternative such as cable or satellite.

channel 59 60 use uk dttShould you be worried? Firstly, you need to understand whether the television transmitter in your area uses channels 59 or 60. The map on the right (click for a larger version) shows those television transmitter which will use these channels. If you are served by one of these transmitters then that puts you at a higher risk. If you are towards the edge of the coverage area then your risk is increased. If you are near a three base station your risk is further increased (sadly there is no simple way to determine this). If you are affected, what will you see? In a word... nothing! Your reception of any programmes transmitted on the frequencies represented by channels 59 or 60 will stop, dead. Alternatively, the picture might break up badly.

Unfortunately, losing reception or having bad reception is not necessarily evidence of interference from 4G base stations. It could be caused by a myriad of other problems. This is what makes the job of at800 that much more difficult. They will need to decide, when confronted with an apparent case of interference, whether 4G is the cause or whether it is something else. Their decisions on this will no doubt prove controversial!

sheffield pensioner denied tv

If you use satellite (Sky or Freesat) or cable then you don't need to worry. If you use Freeview, then perhaps now would be a good time to check your reception, at least then you will know whether anything changes.
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Arqiva win UK Local TV multiplex licencesignal strength
Monday 28 January, 2013, 12:22 - Licensed
Posted by Administrator
In a shock decision, Ofcom today announced that Arqiva are to run the UK's local television multiplex. The winning company, called 'Comux' has won the licence to operate the transmission network that will support local television services. Not speaking to Wireless Waffle, a spokesperson for Ofcom was overheard to think,
"We like Arqiva, oops, we mean Comux's proposal. After all, Arqiva transmit 'X-Factor' which brings us a lot of business in dealing with complaints: without Arqiva a lot of us would be out of a job. We also like the idea of supporting monopolistic companies that pay no corporation tax in the UK. We are hoping that Starbucks will bid in the 4G auction we are running at the moment and that Network Rail will bid to run a mobile network for trains (What? They already do? Since when?)"

jack hargreavesBut wait, in their public justification for the award, Ofcom state (page 6 of the account of decision),
Arqiva is not an applicant for the licence...

So is Comux really Arqiva, that is the question. Well they certainly share the same postal address: Arqiva/Comux, Chalfont Grove, Chalfont St. Peter, Gerrards Cross SL9 8TW.

OK, it's not exactly conclusive but the fact that they share an office surely means there are opportunities for them to share a lot more too! Collusion is a very dirty word, almost as dirty as tax avoidance.

Either way, here's raising a glass at local television in the UK. Let's just hope they bring back Old Country with Jack Hargreaves. What? You mean he's already dead? Since when?
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What do coffee, books, fiddles and TV pictures have in common?signal strength
Wednesday 16 January, 2013, 03:58 - Broadcasting
Posted by Administrator
The UK public has been angered recently at the discovery that some high profile companies used various 'fiddles' to avoid paying tax. At a time when UK incomes have been squeezed, the idea that big name companies have not been contributing to the UK tax coffers left them hopping mad. The first company to be outed was Starbucks who, despite generating £400 million in revenues, paid less than three pence and a used muffin wrapper in corporation tax (corporation tax normally represents 20% of a company's profit).

Next up was Amazon whose sales in 2011 generated £3.35 billion yet who paid only £1.8 million in corporation tax. Even internet behemoth Google paid only £6 million in corporation tax against a turnover of £395 million.

These foreign companies largely argue that they pay tax elsewhere (presumably in countries where the tax burden is lower) and would end up being overcharged if they paid more in the UK. It should also not be forgotten that they generate VAT and pay income tax and national insurance for their employees, but nonetheless their tax affairs are more akin to the affairs in a bordello than those of honour.

spectrum pricingBut it seems that such activities are not just connected with foreign companies. Arqiva, the company responsible for transmitting all terrestrial television programmes across the UK (and many of the satellite programmes too) has, according to the Sunday Times, also been using some creative accounting to reduce its tax bill. The 'fiddle' they have employed is to get their parent companies (who are shareholders) to loan them money, but at a high interest rate, far above that which they would need to pay to take a loan at the bank. The repayments for these loans are taken from the accounts before dividends or the profit for tax purposes are calculated thus providing excellent returns to shareholders and also reducing Arqiva's corporation tax liability.

Arqiva's accounts show that shareholders took out £120m in 2012 and £106m in 2011 on loan interest charged at the stratospheric interest rate of 18%. Not quite Wonga.com interest rates but higher even than interest rates charged by car loan companies. As with Starbucks and Google, such fiddles are not illegal, but it could be argued that they are morally suspect, especially in the current financial climate. Arqiva are currently a monopoly provider and as such their fees are regulated. The regulated fees are based on their accounts, but such 'fiddles' would also impact the prices they charge. As their main customers include the BBC, UK citizens' licence fees are ending up in Arqiva's shareholders' pockets.

Arqiva would no doubt argue that as they do not make profits, they would not pay any corporation tax anyway. But they would be much closer to profitability if they weren't paying their owners for a loan at such extreme interest rates. What is certain is that their owners are benefiting from a much higher return on their investment than licence payers are!
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