Wireless Waffle - A whole spectrum of radio related rubbish

Outrage as tests show up to 30% of spectrum auctioned in Europe is “not electromagnetic”signal strength
Monday 1 April, 2013, 08:04 - Spectrum Management
Posted by Administrator
electromagnetic spectrumMobile operators have been outraged by the results of tests carried out by the University of Bolondok, Hungary, which have shown that, in some cases, up to 30% of the spectrum sold at auction in Europe is not electromagnetic.  One of the team behind the work done by the University, Prof. I. Laslo said,
 
“We became suspicious of the quality of European spectrum following an undergraduate student project to prepare a set of quality criteria for spectrum auctions.  The student’s results were inconsistent, which led us to conduct further tests.  Upon closer examination, we discovered traces of non-electromagnetic spectrum within that which has been auctioned, and were surprised to find that in some cases the amount of non-electromagnetic spectrum accounted for up to 30% of that which has been sold.”

 
The professor refused to indicate which countries were the worst offenders but added,
 
“You can get an idea of the intrinsic amount of spectrum that is electromagnetic by considering how much money was raised in the auctions themselves.  The fact that there is a correlation between lower prices and the level of non-electromagnetic spectrum that was sold suggests that operators were probably aware of the practice when preparing their bids.”

 
An industry expert, who wished to remain anonymous, has said that the practise of Governments selling non-electromagnetic spectrum should have been anticipated.
 
“The huge prices paid at auction for spectrum will inevitably lead to regulators wishing to find a way to ‘bulk up’ the spectrum so as to make greater revenues from its sale.”

 
Asked if they thought that the operators knew that not all the spectrum was electromagnetic they added,
 
“These murky practises are not confined to regulators. Despite claiming that spectrum is their most valuable resource, there have been cases of operators releasing some of the spectrum they have historically been using, in return for the promise of alternative, presumably pure electromagnetic, spectrum at future auctions.  This is a clear indication that they are aware of the fact that some of their spectrum was, perhaps, not as electromagnetic as it should have been.”

 
No regulators were willing to comment on the situation but mobile operators have been quick to jump on the findings.  A senior employee of mobile conglomerate T-Orasdafonica, who also wished to remain anonymous, told us,
 
“We are outraged to find that regulators have been selling spectrum that may not be fit for purpose.  We bought it in good faith.  It takes us some time from the auction itself to the point where we actually put the spectrum into use and so we don’t necessarily notice its purity straight away.  Once we heard of the findings from the tests, we immediately went out and began to try using the spectrum we had bought.  We can concur with the findings that there is some which does not appear to be electromagnetic. We strongly refute the insinuation that we knew of these issues beforehand or that we have knowingly participated in the sale, purchase, or use of spectrum that was anything other than electromagnetic.  We intend to instigate an immediate investigation into our spectrum holdings and will be holding the Government culpable for any which we find not to be electromagnetic.”

 
clean up the spectrumAsked if they would continue to buy spectrum at auction, most operators contacted said that they would, but that they would ensure that a rigorous testing regime was put in place to ensure the quality of the product being sold, before opening their wallets. They suggested that it was the regulators that should clean up their act and that operators, who have been encouraged to rely on market forces were the ones who had been taken for a ride. One likened it to having been 'sold a pup when you set out to buy a thoroughbred'. One even went so far as to suggest that there were bigger problems in the supply chain which have been forced upon the whole mobile market by the ever downward spiral of prices.
 
The University of Bolondok has offered to work with operators to develop a set of agreed quality tests, and present them for ratification at CEPT.  The operators have cautiously welcomed this offer but have suggested that it is the regulators who should come clean on their practices rather than operators who are to blame.
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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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Is the European Commission's Spectrum Inventory nuts?signal strength
Wednesday 27 February, 2013, 08:20 - Amateur Radio, Spectrum Management, Satellites
Posted by Administrator
Over in Brussels, the European Commission, through the direction given to it by the Radio Spectrum Policy Programme (RSPP), is trying to identify 1200 MHz of spectrum that can be made available for 'wireless broadband' services. At present there is 1025 MHz of spectrum available for such services including:
Band Allocation Total Spectrum
Digital Dividend 791 – 821 // 832 – 862 MHz 60 MHz
900 MHz 880 – 915 // 925 – 960 MHz 70 MHz
1800 MHz 1710 – 1785 // 1805 – 1880 MHz 150 MHz
2.1 GHz (FDD) 1920 – 1980 // 2110 – 2170 MHz 120 MHz
2.1 GHz (TDD) 1900 – 1920 MHz
2010 – 2025 MHz
35 MHz
2.6 GHz (FDD) 2500 – 2570 // 2620 – 2690 MHz 140 MHz
2.6 GHz (TDD) 2570 – 2620 MHz 50 MHz
3.6 GHz 3400 – 3800 MHz 400 MHz
Total 1025 MHz

Finding another 175 MHz to make the goal of 1200 MHz is therefore surely not such a big ask. However, there are issues with the spectrum that is currently available. The 3400 – 3800 MHz band accounts for 400 MHz or a good third of it and despite already being allocated to broadband wireless in Europe, it has not been very popular. The slow take-up is partly due to a lack of mass market products for the band and the poorer propagation at these higher frequencies, but is also due to the need to protect certain C-Band satellite downlinks which remain in the band. This also forms the 9cm amateur band. It therefore seems sensible that if new spectrum is to be found, it ought to be below 3 GHz in order that it will prove popular enough to actually be put into use.

counting moneyTo try and identify 'underused' spectrum, the European Commission is conducting a spectrum inventory whose purpose is to firstly examine the availability and use of spectrum and then to consider the future needs to try and match supply with demand. The first part of this inventory, a study which examined the extent to which each spectrum band is used was published in late 2012. The initial findings of the consultants who undertook the study were that the bands with the lowest current usage and thus which might be candidates for re-allocation were:
  • 1452 – 1492 MHz. This band is set aside for DAB radio services, however it has remained virtually unused. The ECC have now recommended the re-allocation of this band for mobile services after pressure from Ericsson and Qualcomm to do so. This is therefore a 'no brainer' or a 'done deal'.
  • 1980 – 2010 // 2170 – 2200 MHz. This band is currently allocated for 3G mobile satellite services to complement terrestrial 3G services. One satellite (Eutelsat 10A) was launched with a payload that is active in this band, but it failed to deploy the dish correctly and as such the band remains largely (though not completely) unused. It would seem churlish to take this away though, when there is still scope for it to be commercialised for its intended purpose. Perhaps some form of sharing using a complimentary ground component could be envisaged.
  • 3400 – 3800 MHz. This was identified as being underused… 'Quelle surprise' as they say in Brussels!
  • 3800 – 4200 MHz. This is also part of the C-Band satellite downlink frequency range but has also been used for fixed links in some countries. Fixed links can be carefully controlled so as to avoid interference to satellite ground stations: it is unclear how a more widespread roll-out of services in this band would be feasible. This also fails the 'below 3 GHz' test.
  • 5030 – 5150 MHz. This band is allocated for aeronautical use and was intended to be used for a new microwave landing system (MLS) to replace existing landing systems and for aeronautical mobile satellite services (AMSS). Very few airports or airlines have adopted MLS (London Heathrow and British Airways being two of the few who have done so) and no AMSS services in the band have been launched. If 3.5 GHz is not popular though, it seems unlikely that 5 GHz will be any more welcome.
  • 5725 – 5875 MHz. This is a band which is available on either a licence exempt or a lightly licensed basis in most European countries for use with WiFi (802.11a) and other low power services. Being well over 3 GHz it is unlikely to be popular. It also forms a large chunk of the 6cm amateur band.
In total this represents another 770 MHz of new spectrum, more than enough to deal with finding an extra 175 MHz. However the majority of this is above 3 GHz and experience has shown that the appetite of operators for this spectrum is relatively small. The question therefore ought to be whether there is spectrum below 3 GHz which could be made available.

One option on the table, though not identified through the inventory, is the frequency band 2300 – 2400 MHz. It was identified at the 2007 World Radio Conference as a candidate for IMT (the ITU code for wireless broadband). It is already in the 3GPP standards for LTE, where it is known as the mysterious 'Band 40'. The ECC has considered the use of this band for wireless broadband services and concluded that it is quite possible. Sweden and Australia have already handed all of the band over to wireless broadband use, and many other countries (especially in Asia) have licensed part of it. One of the big problems with this band in Europe is that it is heavily used by governmental (read 'defence') services who are already smarting from the loss of many other bands over the past years and are in no mood for another re-farming exercise to release this band. Oh, and it represents the vast portion (and the most useful bit) of the 13cm amateur band.

meteosatMeanwhile, over in the USA, the FCC has also recently assessed the possibility of reallocating some the frequency band 1675 -1710 MHz for wireless broadband uses. This band is currently used for the downlink for meteorological satellite services, however few satellites venture above 1695 MHz (with the possible exception of a couple of NOAA satellites, the Chinese Feng Yun satellites and the polar orbiting METOP) and there is almost nothing above 1700 MHz, unless you count satellites yet to be launched (such as GOES-R).

Given the location of this spectrum, directly adjacent to the existing 1800 MHz band, and given that the associated pairing is also largely unused it might easily be possible to, say, extend the 1800 MHz band by 2 x 10 to become 1700 – 1785 // 1795 – 1880 MHz. Keeping the spacing between the up and downlinks would simplify the adoption of the new spectrum (in the same way that GSM became E-GSM). The 10 MHz gap in the middle is rather small which can cause handset manufacturers problems, but there are ways this could be dealt with. The loser here (other than some yet-to-be-launched satellites who could surely locate their downlink in the remaining part of the band) are radiomicrophones who are allocated 1785 – 1800 MHz. A screaming case of 'use it or lose it' if they are to retain this allocation.

And whilst we're pairing up things, how's about extending the 2.1 GHz band? The lower part of the pair, 1900 – 1920 MHz, is already licensed, albeit for TDD services. The upper part of the pair, 2090 – 2110 MHz is another of those military bands that would prove difficult to squeeze. The bigger problem here is that it contains sensitive satellite uplinks that are easily interfered with. Nonetheless, there was a terrestrial wireless network licensed in the band in the UK (Zipcom), if never actually launched.

So far, we have identified the following extra spectrum:
Band Allocation Total Spectrum
L-Band 1452 – 1492 MHz 40 MHz
Extended 1800 MHz 1700 – 1710 // 1795 – 1805 MHz 20 MHz
Extended 2.1 GHz 1900 – 1920 // 2090 – 2110 MHz 20 MHz (20 MHz was already available)
2.1 GHz MSS sharing 1980 – 2010 // 2170 – 2200 MHz 60 MHz (shared with satellite)
2.3 GHz 2300 – 2400 MHz 100 MHz
Total 240 MHz

That makes 240 MHz of potential new sub-3 GHz spectrum without too much pain and done in a way that is largely compatible with existing mobile bands, though not with existing defence or satellite sensitivities. Given the recent auction prices for spectrum, 240 MHz across Europe is worth something in the region of 75 billion Euro. So what would it cost to release it?nuts
  • L-Band is free in every sense of the word. Except possibly in the UK where it is owned by Qualcomm but presumably as they have been lobbying for it to become available for mobile services, they would have no qualms about using it for such. Cost: peanuts.
  • Extended 1800 MHz The main affected party here are some meteorological satellite downlink sites. These are few and far between and could be protected through the use of an exclusion zone. Cost: cashew nuts.
  • Extended 2.1 GHz The number of military satellites using the band 2090 – 2110 MHz is difficult to ascertain (for obvious reasons). There is also a need to re-farm the band 1900 – 1920 MHz. Cost: macadamia nuts.
  • 2.1 GHz MSS sharing In theory there is nothing to stop this taking place even with a satellite already launched. To be completely fair, it would only be reasonable to recompense the licensees (Solaris and Intelsat) for their investments. Cost: pistachio nuts.
  • 2.3 GHz Those defence boys have big toys (and big guns) that would be costly to replace. That being said, only around 40 MHz of this band is necessary if the target is 175 MHz and not 240 MHz. Surely releasing 40 MHz can’t be that difficult no matter how big your toys. The fact that the band is destined for TDD means that it doesn’t even need to be the same 40 MHz in each country. Cost: pistachio nuts.
Wireless Waffle claims no particular ownership of the proposals above, they are all kicking around here and there. A few (tons of) nuts seems a small price to ask to tackle the issues required to get things moving. Even a ton of macadamia nuts (the most expensive nut) would be less than 0.1% of the value released.

Alternatively, perhaps radio amateurs who stand to lose the 13cm, 9cm and 6cm bands might wish to launch a counter-bid? After all, they’re replete with nuts (in a good way)…!
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Who won in the UK 4G auction?signal strength
Wednesday 20 February, 2013, 10:29 - Spectrum Management
Posted by Administrator
4g logoOfcom has today published the long awaited outcome of the first phase of the UK 4G auction. The second phase of the auction is yet to take place. The first phase decided who gets how much of the spectrum, the second phase decides who gets which particular frequencies.

The winning bidders, together with the total price they paid for the spectrum they have won are shown in the table below.
Bidder 800 MHz 2.6 GHz
(paired)
2.6 GHz
(unpaired)
Price
Everything Everywhere 2 x 5 MHz 2 x 35 MHz £589 million
Hutchison 3G 2 x 5 MHz £225 million
Niche Spectrum Ventures (BT) 2 x 15 MHz 1 x 20 MHz £186 million
Telefonica 2 x 10 MHz £550 million
Vodafone 2 x 10 MHz 2 x 10 MHz 1 x 25 MHz £791 million
Total £2,341 million

Can this tell us anything about how much was paid for each of the different flavours of spectrum? Not exactly, but using relatively straightforward schoolboy maths, it's possible to make a decent stab at the value of each type of spectrum (note that this is not 100% accurate but should be in the right ball park). The results are as follows:

Band 800 MHz 2.6 GHz (paired) 2.6 GHz (unpaired)
Price per MHz £25.83 million £4.72 million £2.89 million
Amount Awarded 60 MHz
(2 x 30 MHz)
140 MHz
(2 x 70 MHz)
45 MHz
Total £1,550 million £661 million £130 million

So how does it compare with the results of auctions in other countries? Yet another table shows the outcomes in a selected number of other large European countries. (An exchange rate of £1=€1.2 has been used for the conversion).

Band Price per MHz for 800 MHz Price per MHz for 2.6 GHz (paired) Price per MHz for 2.6 GHz (unpaired)
France £36.6 million £5.57 million
Germany £49.6 million £1.53 million £1.44 million
Italy £41.1 million £3.00 million £2.06 million
UK £25.8 million £4.72 million £2.89 million

penniless chancellorSo the UK has not done as well for the 800 MHz spectrum (if you count 'doing well' as raising as much money as possible) compared to these other countries.

Of course these results are only estimates inasmuch as the maths cannot be 100% accurate without more information, but nonetheless one thing that is certain is the auction has raised significantly less than the £4 billion that pundits were expecting. What will this mean for the UK? On the one hand the UK Government will have a larger hole in its budget than it would have hoped. On the other, perhaps we can expect cheaper 4G services and a faster roll-out than might have been expected. Maybe a victory for the consumer then? Or just the shareholders of the mobile companies?
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