Wireless Waffle - A whole spectrum of radio related rubbish
They're Jammin'signal strength
Tuesday 8 March, 2011, 19:22 - Radio Randomness
Posted by Administrator
flumpetThe front page of London's Metro newspaper today screams about 'Terror Fears over Dangerous Sat Nav Flaw'. The story highlights the extent to which the British economy relies on satellite navigation systems and claims that over GBP94 billion of domestic output would be affected by a loss of GPS caused, for example, through deliberate jamming. Not wishing to blow the Wireless Waffle trumpet (actually we have a flumpet not a trumpet), but we raised the issue of GPS jamming in February last year!

What the article does not explain is why the loss of GPS would cause so much damage. Clearly if aircraft or boats lose GPS, they rely on their other safety devices such as radars and navigation beacons.

The crux to the problem is not in cases where GPS is used for its location abilities, but for its timing. Few people realise that, as well as providing accurate information to help you figure out where you are, GPS (and the other systems which do the same such as the European Galileo and Russian COMPASS satellites) also provides very accurate time. Each satellite has its own very accurate atomic clock on-board - in fact because of the way in which these satellites (collectively known as the Global Navigation Satellite Service or GNSS) work, accurate time is a prerequisite for determining accurate location. To work out where you are, you determine the apparent time for each of the satellites you can see. This is the 'real' time plus a delay due to the radio waves travelling from the satellite to you at the speed of light. For a GPS satellite, this delay is around 66 milliSeconds, but will vary depending on the position of the satellite in the sky relevant to you. Your GPS receiver knows where each satellite is supposed to be (this is stored in it) and thus can 'triangulate' your position using the time difference to work out how far you are from each one. Complicated eh?

This timing information is accurate to a few nanoSeconds (it has to be for you to be able to calculate your position to within a few metres) and thus can be used for other purposes, in particular for synchronising networks. No longer is the time in London different from that in Manchester as it was in the days of the railway, but the time in the two cities can be synchronised to within nanoSeconds of each other. For telecommunications and broadcast networks, this synchronisation is essential when transmitting data at speeds of Gigabits per second, where each bit is only a few nanoSeconds in duration itself. Similarly, the London Stock Exchange uses GNSS timing information to record the times of trades. And many other big businesses rely on GNSS timing of this kind. And this is the BIG problem. If the GPS signal is lost, the various network clocks will slowly drift apart and all of these networks will begin to fail.

This is, of course, a dream for terrorists. A GPS jammer can be made for a few pounds (the Metro article gets that right) and if correctly situated would cause untold havoc, though most new receivers are capable of dealing with basic jammers. In response, there are now designs for increasingly sophisticated jammers kicking around the internet and you can bet that as receivers get better at detecting jammers, the jammers will get increasingly complex. This is why the authorities are spending time and money putting in place solutions to identify jamming and locate the jammers as quickly as possible, as well as mechanisms to get around the problems of a local jamming source.

tomorrow gpsTo date there have been few real examples of malicious GPS jamming. The military did manage to 'accidentally' jam all GPS receivers in San Diego, and James Bond did have to deal with a British boat being thrown off course by a GPS encoder (in 'Tomorrow Never Dies'), but these are isolated incidents. It is certain that GPS jammers are being used today, but so far, no serious damage has been done. So if you're driving along a country lane and your Sat Nav suddenly starts indicating that you are in a car park in Coventry, you know why!
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Malta Universal Frequency Telereception Instrumentsignal strength
Saturday 25 December, 2010, 15:04 - Radio Randomness
Posted by Administrator
Following the immense success of the SuSi as a piece of apparel for improving short-wave reception, it is an honour to have received an e-mail from Nicolas Sant of Malta who brings news of an increadible new development in the field. Nicolas takes up the story:
Here in Malta, the summer months are very hot and the beaches are crowded with tourists. Having walked around several beaches it seems that the 'SuSi' is very popular as I have seen many women using them, as always receiving a good reception from their boyfriends and husbands and also from passers by.
The great thing about living in Malta is that it remains warm at Christmas time and it's quite possible to spend a day on the beach even in December. Me and my friends thought that it would be interesting to try and make a more festive version of the SuSi to be worn around the Christmas period. The result is what we call the Malta Universal Frequency Telereception Instrument (or Mufti for short). I hope you like it.

christmas antenna experimentThank you for this piece of festive sunshine from the Mediterranean Nicolas.

Your Mufti looks very promising, though the close proximity of the vertical struts will serve to reduce it's effective bandwidth. The positioning of the supporting structure (particularly in the upper region), covering the Mufti will also dampen it's effectiveness as the structure tends to absorb many frequencies. We suggest that the Mufti should be clear of all obstacles, and be fully visible. Do not allow the supporting structure to be allowed to cover the Mufti up in this way.

The purpose of the furry adornment on the top of the supporting structure is unclear. Is this some kind of pre-amplifier? If so, a simple repositioning of the supporting structure should increase the signal such that no additional amplification is necessary.

Finally, we do give a solid thumbs-up to the connector that you have used. It is clearly free of any oxidisation being nice and shiny and silver. This will ensure a good contact is made.

Anyhow, good work Nicolas. Do keep those pictures of your efforts at the SuSi coming in...
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Radio Ray Gunsignal strength
Friday 29 October, 2010, 16:06 - Radio Randomness
Posted by Administrator
Ever wondered what goes on in those increadibly high frequencies that might almost be called 'nanowave' instead of 'microwave'? Well other than a bit of use for looking at the earth from satellites (a.k.a. earth observation) the main uses tend to be military. This is partly because it becomes quite difficult (and thus expensive) to generate any kind of power at these frequencies but also because even if you do, it doesn't tend to go very far because of the poor propagation characteristics. At these frequencies, signals do not penetrate very far inside solid objects such that even the thinnest membrane will stop them dead in their tracks. Even the thin blue line of atmosphere that surrounds our fragile planet is enough to nobble extra high frequencies.

But those clever military people realised that this ability of signals to not penetrate anything very deeply might have an application other than for radio communication, navigation or any of the other uses you normally associate with the spectrum. They realised that a microwave oven at a frequency of, say, 95 GHz, would only cook the very outside of anything that was put in it (at a depth of no more than a half a milimetre) and leave the insides untouched. So you could use it to char the skin of a red pepper (or capsicum as they are known in lesser countries) whilst leaving the flesh crispy and fresh. Or you could char a peach, leaving the juicy bit inside uncooked. Or you could fire a beam at a human and make them feel as if they were on fire without actually burning them. No, seriously, not only could you do this, but this is exactly what a new line of devices being used by the military (and some other governmental bodies) are actually doing.

active denial systemKnown as the 'Active Denial System' (or ADS for short), these devices were initially designed to use for dispersing unwanted crowds gathering at military establishments, enclaves, camps or hide-outs. By blasting protestors, marauders and other such types with several hundred watts of high frequency 95 GHz microwaves in a tightly focussed beam, you can make them feel as if they are on-fire by heating up the nerve endings near the surface of the skin without heating the skin itself. This makes for a pretty good deterent and they soon move away, out of the beam.

Prisons soon realised the potential of the ADS to 'gently direct' prisoners away from certain areas too. Los Angeles County prison has installed one of these devices and according to the prison chief officer, "we likes 'em California char grilled", though it is unclear whether he was referring to his prisoners or to his burgers.

phaser gunSadly, attempts to use the device to produce instant suntans failed, partly due to the excrutiating pain involved in standing in front of the beam but also because it's completely the wrong type of radiation! Silliness aside, if such a device could be reduced in size to become handheld, it might be possible to generate enough oomph to produce a 'heat ray' beam to temporarily disable miscreants in your immediate vicinity. Now we have moved from HG Wells' martian heat rays to Gene Roddenberry's phaser guns. What with Star Trek communication devices having been introduced in the 1990s, and Star Trek style tri-corder being oh-so similar to iPhones, the time is nigh for someone to develop a real-life warp engine to propel humanity into the future. By the way, whilst you're there, could you check whether our Oidar is working and send us a message backwards through time to let us know. Ta muchly.
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When is a radio not a radio?signal strength
Wednesday 29 September, 2010, 14:36 - Radio Randomness
Posted by Administrator
When is a radio not a radio? radio cakeWhen it's a cake? Well obviously, but it wouldn't be a Wireless Waffle article if it was about cake now would it? Waffles perhaps, but cake?

Anyhow the correct answer is 'When it's a Feynman Radio'. What, I hear you ask, is a Feynman Radio. In order to answer that we have to step back in time to the works of the Maestro James Clerk Maxwell. His Electromagnetic Wave Equation is the mathematical basis of all radio signals, propagation and so forth and desribes how radio waves travel.

Maxwell's equations (in common with many) square numbers before operating on them. One of the key numbers which is in Maxwell's equation is 't' standing for 'time'. The equations describe how Electromagnetic (radio) waves change with time. However, the factor which accounts for time is squared. Now this in itself may not seem important BUT the square of a negative number is the same as the square of a positive one. So, according to Maxwell's equations, a radio wave will look identical whether it has travelled 5 seconds forwards in time or 5 seconds backwards in time! Whoa! Hang on there a minute (or minus a minute). Does this mean that every radio transmitter emits two waves, one which travels forward in time and one which travels backwards? Well that's where Richard Feynman comes in. He argues that not only is this true, but that it is true of all atomic and sub-atomic particles and that for every occurance where something travels forward in time, the same thing happens and travels backwards.

But this is rubbish right? If it were true, we would be bombarded by endless radio signals and light beams from the future. This, argue many people, is evidence that the whole idea of signals travelling backwards in time is just a mathematical theory and not a practical reality. Others argue that the whole notion of 'deja vu' is a perfect illustration of why there must be a way of seeing into the future.

But maybe the fact that we can't hear 'backwards' radio signals is down to something much more straightforward. For example:

* Radio signals travel at the speed of light. Those coming backwards from the future would cross our own path going backwards at the speed of light. We, on the other hand are travelling fowards at the speed of light. Our paths, therefore, cross at twice the speed of light which means the backwards signals would be, to all intents and purposes, invisible.

* Radio signals travelling backwards from the future would be on negative frequencies. As all existing radio receivers only tune to positive frequncies, ie those above 0 MHz, we are unable to receive them. A receiver tuned to minus 900 kHz would presumably receive future radio broadcasts perfectly well.

oidar strawkcabHere at Wireless Waffle headquarters, significant effort is being put into the development of a negative frequency radio, or an 'oidar' as we like to call it. Using things such as negative impedance converters we are seeking to synthesise a capacitor of several hundred negative picoFarads and an inductor of the appropriate number of negative microHenries such that they resonate at a negative frequency. Using a 'edoid' we hope to rectify any signals recived to feed a set of headphones. A negative antenna (an 'annetna') is proving more difficult, however we believe that a modified slot antenna in which the radiating element is a hole in a plate of metal rather than a traditional antenna which is metal in the middle of a hole (eg free space) may just do the job. Burying the annetna underground may also help but until the whole receiver is functioning it will be difficult to check.

Occasionally Wireless Waffle has been known to produce a few spoof entries (especially around April 1st!) however the Feynman Radio is real (try checking on the web). Our attempts to develop an oidar however may just be a reverse-time echo of something we failed to achieve several years from now.

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