Evil inside spoofer
![evil inside spoofer evil inside spoofer](https://img1.etsystatic.com/057/0/6348709/il_340x270.715867001_957r.jpg)
![evil inside spoofer evil inside spoofer](https://vignette.wikia.nocookie.net/parody/images/8/87/Inside_Out_(TheLastDreamworksToon_Style).png)
What was really funny about it was that every time they would "go code" and scramble their transmissions, they never discussed anything of importance.
![evil inside spoofer evil inside spoofer](https://www.telegraph.co.uk/content/dam/obituaries/2018/04/22/Troyer-1_trans_NvBQzQNjv4BqAPPIKi2tMUih-wWAwWkvQ9Ph76CGMqtgQD3Crz1zOH4.jpg)
I managed to construct a descrambler unit and made a few of them for my scanner friends. We were into scanners back in those days and the local police force used a scrambling device based on a balanced modulator/demodulator system that essentially took audio and transformed it into something like a single sideband audio signal. I have an electrical engineering background and used to construct all kinds of unusual and weird devices. If one could construct several of them and put them in an area, it might be possible to have someone wandering around for quite a while before they realized something was wrong with the signal in the area. While it might be possible to construct a spoofing device, I'm not sure how well it would work.
#Evil inside spoofer how to
Anyway, now that I have warned you about the blatant errors in the article, I feel free to share the link to the article with you, and you may find the article, entitled Researchers Demonstrate How to Spoof GPS Devices, at Wired magazine online.Įnjoy! And, lets hear your ideas about how you might use such a small portable spoofing device to create a truly diabolical cache! The author regularly uses the term "receiver" when he intends to indicate a transmitter, and the article contains so many other gross butcherings of logic, semantics and syntax that I began to seriously wonder about the author's sanity and the integrity of his neurochemistry as I read the article. Have you wondered why I have not given you the link for the article yet? Well, I will be giving you the link for the article in a moment, but I decided that I did not dare to give it to you without first forewarning you that the article was obviously written by a babbling idiot who does not understand the tiniest thing about RF transmitters and receivers, nor about how the GPS system works, and it also sounds like Wired must have laid off all their technical editors (whose job it would normally have been to catch and repair glaring errors of fact before the article is published) due to the recession, and thus, the article, while rather short, is jam-packed with very irritating inaccuracies, with incorrect use of terminology. The potential legal issues regarding deployment of such a device aside for a moment, the potential of a device such as this in creating a truly evil and diabolical geocache hide are manifold! Well, this morning I stumbled up on an interesting article in Wired magazine, one which stated that researchers have now come up with ways to build small portable GPS spoofing devices, that is, small portable short-range transmitters that cause nearby GPS receivers to display a pre-set spoofed location, perhaps one that is hundreds or thousands of miles from the actual location.
![evil inside spoofer evil inside spoofer](https://d3d71ba2asa5oz.cloudfront.net/12025049/images/z-014957%20%20itemimageurl01.jpg)
And, putting the potential legal issues aside for a moment (for, after all, a number of these devices are freely offered for sale by numerous online and brick-and-mortar shops), I had also discussed in the same thread the fascinating possibility of deploying such a GPS signal blocking device in the vicinity of a cache to render the cache hide truly "evil", because GPS receivers in the vicinity of the blocking transmitter would tend to display grossly inaccurate location readings. In an earlier thread, I have discussed the existence of very affordable GPS signal blocking devices, that is, small portable short-range transmitters that can be deployed to scramble reception by any GPS receiver within a limited radius, normally limited to anywhere from 80 feet to 600 feet, depending upon model and price of the GPS signal blocking device.