(continued from left side)
Nikola Tesla invented the AC system. The beauty of AC is induction or the ability to step up or step down voltages. If you were generating power far from where it is to be used, it is easier to transport it as voltage than to do so as current. Take downtown Manhatan for example. It consumes hundreds of thousands of amps everyday all day. To move that much current in one wire would require a conductor as thick as Manhatan itself. To move it as voltage requires a wire only a couple inches thick. So if it is generated in New Jersey it gets stepped up by a transformer to about one million volts sent via high tension wires then stepped down when it gets to New York. Cutting down high tension towers is a place to start. All thats really necessary is weaken it. You could pour some acid on the bolts that hold it down and wait for the next big wind. Or make a couple cuts with a battery powered reciprocating saw (see picture below) and wait for the next wind.
It is not enough to just shut off the power and cut down the towers. The wires themselves can be used as antenna's. They need to be cut up and disconnected from any source. The telephone poles also need to be cut down and the wires destroyed. To do this to a larger area and live the power must be off and the wires dead. It can take quite some time for the transformers to discharge. To ensure the wires are dead locate all the substations in a given area.. A substation is where the voltage is stepped down for use locally. Cut the nearest telephone pole so it falls away from the station and takes the wires with it. Make sure the wires are completely disconnected. Do this to every substation the the immediate area. Wait for the wires to discharge if possible then cut them up.
Another strategy would be to destroy the smaller transformers on the individual poles first. You can just shoot them with a high powered rifle from a safe distance. Wait for the wires to go dead and then cut down the pole and cut up the wires. The picture above is a pole with a small transformer.
Updated March 5, 2013
This is a suggestion that could help if your electric meter (Smart Meter) is transmitting something it shouldn’t. Most electric meters have a metal enclosure. Any metal enclosure can be made into a Faraday cage. Some information on grounding. Earth ground is different from electric ground (or neutral). A good Faraday cage is connected to earth by a solid conductor as short as possible by either a grounding rod or metal water pipe (not the furnace). The furnace does not always go to earth ground but through the furnace. Paint is an insulator in most cases. When making the connection scrape off some of the paint to ensure contact with the metal. Below are two links to military specification documents regarding earth grounding.
MIL-HDBK-419A
MIL-STD-461E
Some suggestions for building a house that is off the grid and secure from surveillance. Do not place any wires permanantly in the walls. The fact that the wiring is like a web that surrounds you in your home helps it act as an antenna. Build a chase somewhere in the middle of the house for all wiring. The chase would go from the top floor to the bottom. All wiring would be removable and accessible. Place all wiring inside metal Romex conduit and ground the Romex to earth.
Updated May 1, 2013
This is an update to my personal noise generator. The picture below is a flowchart of the system including how to test it. Step 1 is the actual device designed to produce noise. I don't have a final circuit. It could be any number of circuits. It could be just random noise or something that mimics the emissions of the human brain. I purchased 2 inexpensive stereo audio components, a Behringer Xenyx 502 mixer and a Pyle PTA Mini Amplifier. I chose these because they are used for audio applications so their frequency response is from 20HZ to about 20,000HZ. They were cheaper than most Ham radio amplifiers. About $50 each. I wasn't sure if a Ham radio amplifier would have the frequency response I needed and they were expensive. Most Ham products had way more power than I needed. The problem with using these components is I have to come up with a way to replace a speaker with an antenna. (see step 4) I think I could do it with some coupling transformers. Step 5 is a homemade antenna tuner. Step 6 is a small SWR meter I purchased for about $30. Step 7 is a mobile Ham radio antenna. The test side goes the opposite way. Step 1 is a mobile Ham radio antenna. It’s fed through a MFJ surge suppressor and then a SDR-IQ software defined radio. The SDR-IQ output goes into my PC running spectrum analyser software.
The picture below is the Behringer audio mixer.
The picture below is the Pyle 45W amplifier.
Another possibility for the flowchart is to use 2 software defined radios, one on each side.
Updated June 30, 2013
This post is some ideas on a test setup to develop a synthetic telepathy radio. A very very sensitive antenna is needed and it doesn't have to be able to transmit. My approach is to model the antenna as the secondary of a transformer. It takes advantage of the principles behind transformers but applies them to a radio antenna. The actual radio is the load on the secondary. The construction of the antenna also uses techniques used by audio engineers to move microphone signals long distances with balanced lines. Microphone signals are very small as they come out of the actual mic. They then go to a pre-amp before the actual mixer because they are so small.
Transformers operate on at least two principles that can be used to make the antenna. If you want to step-up the voltage on the secondary you need more turns in the winding than the primary. A transformer works best wound around an iron core or some other ferrous metal. The idea is to make a long piece of ferrite rod from small pieces then wind small gauge magnet wire as many times as possible and have two ends at the bottom. The two ends are connected across a resistor to close the circuit. A very large resistor, say 10 meg ohm, is connected as the load. Any varying emi field will induce a current that can be read across the resistor by a differential amp. So, in effect, the radio is the load for the secondary of the antenna which is acting like a transformer. The output of the differential amp is fed into a USRP SDR and all the signals can be sorted through. To keep the number of signals to a absolute minimum the entire setup should be inside a Faraday cage.
The longest piece of readily available ferrite rod I could find is 7.5 inches long (see above) so it might be necessary to glue or tape together 4 or 5. To get one continuous winding from top to bottom unwind the spool of magent wire so you have about half on each of two spools. then place both spools on a single feeding rod and start the winding at the top by folding wire at half way point. To twist the wire rotate the feeding rod. When you get to the bottom you will have two ends to the winding in one place. The entire assembly can be taped further then inserted into a PVC plumbing pipe and secured at the top with an end cap.
Suggestions for building a Faraday Cage test area. Building something under ground could help but also line the entire room with copper sheet or mesh. The earth itself could help impede emi. The cellar of any home could be retro-fitted.
Added April 7, 2016
Solution Suggestions
Sources of Surveillance
1. ECHELON - A United States federal government program run by the National Security Agency (NSA) based at Ft Meade Maryland. It has bases around the world but for some reason they are only in the United States, Australia, the United Kingdom. Canada, South Africa and New Zealand. These are all predominately English speaking Protestant countries. Evidence the Pope is involved. Every installation has massive computers and antennas that sort through billions of cell phone and Wi-Fi transmissions and who knows what else.
2. Satellites - There are hundreds of satellite systems that are owned and operated by both the federal government of this country and others and also by private corporations. Three private networks I am aware of are: Iridium, Inmarsat and GlobalStar. They are capable of picking up minute amounts of all kinds of phenomena such as electrical, heat, light, etc using what is referred to as remote sensing. There are literally books of bibliographies on remote sensing.
3. Cell Phone Towers - Cell phones became a reality in the 1980's. There is no reason to believe they don't employ the same remote sensing technology used by satellites. Every square inch of this country is covered by more than one network.
4. The Entire Electric Grid - The North American electric grid is the largest machine ever built. It could be acting as an antenna. This includes antennas operated by ordinary radio and TV stations. They could hook up a computer to it anywhere and begin sifting through EMI it picks up. Broadband Over Powerlines (BPL) is a technology that has existed for years. It uses the electric grid to deliver cable TV short distances. They say it's very susceptable to noise but who knows, maybe they've overcome the problem. If revolution occurs all large computer installations shoud be destroyed or permanantly turned off. There is no telling what they're doing. This would also destroy electronic money, another control device.
5. Stand-Alone Techniques (microphones, cameras, vibration sensors etc) Similar technology such as cell phone and satellite remote sensing could be applied to small portable devices. Someone next door could be listening to everything you say or even think by aiming something at your house.
6. People with Neural Implants - Someone could be communicating with these people from a control room somewhere or maybe they're aware of your thoughts without any go between. Either way they're a problem.
Disabling Satelittes
1. Satelittes run on solar voltaic arrays. It might be possible to destroy the solar cells with a high power LASER based on the ground.
2. Satelittes are useless if you can't communicate with them. Establish a connection then turn up the power and try to destroy the circuitry associated with the antenna.
3. Find a satelitte dish destroy a satelitte dish.
Defeating Surveillance
1. A faraday cage is an enclosure, room or entire building (like the NSA building at Ft Meade), encased in metal and then grounded to earth. It prevents electromagnetic waves from entering or leaving. The NSA building is copper, but aluminum has the best reflective property's of any metal. Aluminum flashing can be bought at any construction supply (Home Depot, Lowes). Attach it to one side of some plywood panels and place the panels on the floor of the attic. There are companies that sell and install metal roofs. This might defeat satelitte surveillance but not cell phone towers. If a satelitte can pick up EMI at 10,000 miles cell phone towers can do the same. Cell phone systems are on the ground and would be capable of snooping through the walls not the roof. To defeat this, the whole house would have to covered with aluminum. They used to sell aluminum siding, I don't know if they still do.
2. It might be possible to eavesdrop on a dwelling through the grounding rod. Which is to say any dwelling. This, in fact, could neutralize the Faraday Cage. This is only a guess. In the event it is true, this idea might help. Introduce noise onto the grounding rod or cage intentionally. This idea is mechanical. Attach a small metal rod to a motor. Rig the assembly to continuesly tap on the grounding rod.
3. Neural implants probably operate on microwaves given the small size. Getting an implant out of someone is tricky. You would have to stop the implant from communicating, get them to a facility that is fully protected from surveillance and they might have to stay there a while. EMI shielding could help cut off communication. They make EMI absorbant material that looks something like a SCUBA diving wet suit. A person could be covered from head to toe with this and brought to a facility that is a faraday cage. A faraday cage is an entire building encased in copper or aluminum and grounded to earth. This would be a faraday cage walking into a faraday cage. Or maybe some sort of aluminum helmet could be made.
4. Any wire entering or leaving a building and connected to a utility (electric, cable, phone) is a highway for someone to snoop. Any house has thousands of feet of wire. A large building has miles and it can all be used for transfering data. Broadband Over Powerlines (BPL) is a technology that uses the AC wiring in a building for delivering the same data as the coax cable. It only works for a couple of miles because of it's susceptibility to noise. Telephone wiring could also be used without a person's knowledge. A Westek Z 100 filter removes all frequencies above audio (30khz). It would slow down any high speed snooping. Anything plugged into a wall outlet in your house could be snooping. This includes Wi-Fi and Bluetooth devices. The wiring itself could be a problem. As a rule the bigger the antenna, the more sensitive it is. So the wiring in your house could be a very sensitive antenna capable of picking up your personal emissions. There are at least 2 ways to defeat some of these problems. Filtering and injecting noise onto the wires. Filtering can be accomplished with basic componants such as capacitors, inductors and resistors. All must be high power. Injecting noise onto the wires can be accomplished with X10 technology. This was developed in the 1970's and is used to turn on or turn off devices using the AC wiring as control wiring. It consists of a small AC transformer that steps down the voltage creates a DC voltage for the signal then puts the signal back on the AC coming in. They make shielded AC wire. It works like coax cable. It has all the conductors surrounded by aluminum foil that is grounded. It operates on the same principle as a Faraday Cage. It keeps out all signals and keeps all signals in.
5. This may sound crazy but "Where does an 800 lb gorilla sit"? If you have 500,000 heavily armed soldiers in a small area all the surveillance in the world is useless. Take control of the countryside. Establish some lines. This is where the enemy is, this is where the enemy isn't. Control the country from the countryside. Stop people from moving around. Don't try to rule the urban areas. If someone is identified as the enemy restrict them to an urban area. Try to get everyone on the same page. Overcoming the fact that "Everything You Know Is Wrong" (and that means everyone) is the biggest problem. One way to do this might be to take over a couple hospitals with as big a force as necessary to neutralize local police along with the surrounding area, then force everyone in the area to have an X-ray and have everyone watch as people are dis-connected. This could also be a recruiting tool. Leave behind literature that gets people asking questions. Feel free to use anything on my websites. Reward people with property taken during the revolution instead of relying on banks.
Noise Generators
1. Spark Generators - Spark generators were one of the first Morse Code machines. They were invented by Nikola Tesla before the end of the 19th century. The Titanic carried a spark transmitter (generator). As radio progressed they were outlawed because they interfered with the entire radio spectrum. A Jacobs Ladder is a type of spark generator. At high voltages they can interupt everything. I mounted a standard spark plug from an internal combustion engine in a piece of metal to simulate an engine. To create the spark I used a standard ignition coil with a Velleman kit. The Velleman kit (K2543) comes with everything needed, but it has to be assembled.
2. Mechanical Generators - Electric motors are notorious for generating noise that interfere with sensitive electronics. All motors have a rotor that must move and be energized at the same time. This is accomplished with a conducting brush that keeps contact with the rotor. The idea is to rotate a metal brush on metal and conduct electricity through it to create noise. Then amplify the noise and put it on an antenna.
3. Electronic Generator - I began experimenting with Texas Instruments MSP430 line of microcontrollers. The Launchpad comes preprogrammed with a software routine that pulses an LED. I theorize you could simply take that pulse, amplify it and put it on an antenna and it might create enough disturbance for one person. It could be made small enough to hang around a person's neck. The MSP could also be programmed to generate random digital signals out of almost any output. You could generate many random signals mix them together and create digital noise. The outputs could be programmed for different frequencies. Another electronic idea is to build a white noise generator, chop up the signal somehow and amplify that. Different metals have different conducting properties. It might be possible to make your own componant to chop up signals by passing the current through different metals. You could pass the signal through a piece of pig iron and see if it makes a lot of noise. To overcome the limitations of microwave antennas you pass the final signal through a long conductor on the PCB. This is the opposite of what designers do. They must meet standards set by the Federal Communication Commission for EMI.
4. It might be possible to record the noise made by a spark transmitter, make a computer file out of it, then rebroadcast (transmit) it through a cell phone or iPod. It's effectiveness might be limited to the microwave spectrum because of the size of the antenna.
5. Bluetooth is a technology that allows Personal Area Networks using microwaves. You can transmit and recieve signals up to 150 ft away. Anyone can develop applications for Bluetooth. Development kits can be bought online at supply houses such as Mouser or Digi-Key.
6. Android is an open source platform for cell phones and MP3 players. Anyone can develop applications for an Android based device. The software is free. Google "Android Software Development Kit". Many Android devices have an antenna that can be programed. It could be used to broadcast noise or some other jamming signal.
7. I have been thinking a lot about a solid state electronic noise generator that would work as well as the Tesla spark transmitter. I know as a technician different metals conduct electricity in different ways. A cold solder joint can do really funny things to a signal. Question of the day. Is it possible to make an alloy that would purposely distort a signal applied to it? A circuit for the idea is to build a sine wave oscillator that runs about 100 HZ. It would be about 3 volts to 0.5 volts peak to peak. Feed this signal into a voltage controlled oscillator (VCO) that runs in the microwave range across a wide span. The 100 HZ signal would constantly sweep the VCO back and forth. Put this signal on an antenna made of the alloy.
Jamming
1. Jamming is a technology as old as radio. Jamming is aimed at the reciever not the transmitter. The idea is to prevent the reciever from picking up the signal. A couple of methods can be used. Over power the transmitted signal with a higher wattage signal similar to the one trying to be recieved or just broadcast noise of many frequencies and of very high wattage. A satelitte can be considered a reciever if it is trying to pick up your brain transmissions. Carrying around a device that transmits noise at frequencies the same as your brain at higher power levels could stop synthetic telepathy. The power levels of your brain can be easily overcome by a device with a 9 volt battery. It might be possible to program an Android device to do this.
Neural Implants
1. Reading the book "Physical Control Of The Mind" (a free pdf can be found on the DOCUMENTS page) by Jose Manuel DelGado there are at least 2 methods for controlling the mind. A small chip (RFID) can be placed under the scalp without drilling a hole in the bone and an actual implant can be inserted into the pituitary through the nose with a procedure called Endoscopic Pituitary Surgery. The RFID chip can be powered by the AC wires all around us by by picking up the EMI like a transformer. The chip itself acts like the secondary of a transformer. The RFID can communicate with the person by the microwave hearing effect. The RFID can communicate with the outside world with a small antenna probably on some microwave frequency coming out of a satelitte or cell phone system. It might work like any phone system. Each chip has a specific phone number or address. To disable it, all one has to do is locate it under the scalp and break it with a hammer. "Instant Karma"
2. Disabling a neural implant is a little more complicated. In the movie "One Flew Over The Cuckoos Nest" the main character, R P McMurphy, has to under go ECT (electro-convulsive therapy) as punishment. ECT is used by some doctors to treat depression. Electrodes are placed on the temples and voltage is applied to the head. Since a neural implant is so small this would be like hitting a TV with lightning. It would "fry it". Another way would be to expose the head to a massive high power pulse of EMI and try to destroy small componants on the chip. A general idea for a pulse generator can be found on the DOCUMENTS page.
Original Text
In case you haven't heard yet, this is not a free country. It never has been. The American Revolution was a coup de tat. We were more free before the revolution than after. Instead of freedom we got capitalism which is economic slavery. The powers that be spent 200 years inventing BS wars while science came up with an even better prison. That better prison is George Orwell's '1984'. Surveillance, manipulation and cover-up by the media as a means to dispose of the riff raff the rich don't want. The rest of this document describes some of the surveillance and offers some solutions. It begins with a basic description of electricity.
Electricity is part of the science of life. All life forms on this planet generate very small electro-magnetic waves that can be picked up by electronic sensors. A basic understanding of electricity will help to understand the problem. Electricity is the moving of electrons (current) in a conductor (copper wire) by a difference in potential (voltage). Electrons are a basic building block of the atom. The atom is the smallest building block for all matter in the universe. An atom consists of neutrons, protons and electrons. Electrons revolve around the nucleus, or center, and are not bound permanantly to it. They can be made to move from one nucleus to another. Electrons are negatively charged. When a large number of electrons builds up in a small area a difference in potential (voltage) exists. A battery is 'charged' when there is a build-up of electrons.
Electronics could be described as the manipulation of electricity to perform some type of work. There are 3 very basic elements used in electronics that don't require silicon. Resistors, capacitors and inductors. Elements made with silicon are called integrated circuits. Integrated circuits are mostly transistors. Transistors are a kind of switch, an action that cannot be performed by the 3 basic elements. Resistors are devices that limit the flow of current. Capacitors store energy in an electric field and inductors store energy in a magnetic field.
To perform a job or do some type of work the electronics usually convert some physical quantity in the real world to electricity. To do this a transducer is required. There are many types of transducers, some work on pressure others light or temperature. An example would be your TV remote. You push a button and the electronics generates a light signal that gets picked up by the TV and the TV then changes the channel or whatever. An antenna on a radio would be a type of transducer. It picks up electromagnetic radiation and the electronics convert it to sound.
When current flows in a conductor it generates electromagnetic waves, sometimes called 'eddy currents'. Electromagnetic waves are the science behind radio and synthetic telepathy. Synthetic telepathy is one of the major problems associated with todays society. With todays advanced electronics even the minute radiation of the human brain can be picked up by transducers and interpreted with electronics. This is the science behind George Orwell's thought police.
Aside from the known ways to ease drop on someone, microphones, cameras etc, there are at least three new techniques used to oppress people they don't tell anyone about. Synthetic telepathy, the microwave hearing effect and neural implants. Synthetic telepathy, as mentioned above, is the ability to read a person's mind by picking up the tiny electromagnetic signals produced by the brain and interpreting them with electronics. The microwave hearing effect was discovered during WWII by radar operators when they experienced a clicking noise in the ears when near the equipment. It can be used to put voices in someones ear and drive them crazy. It's like a telephone system thats both completely wireless and has no phones. It's sometimes called 'electronic brain link'. Microwaves are radiated from cell phone towers and the towers are everywhere all across the country. They sell people phones, but they're not really needed anymore. The development of neural implants can be traced to the CIA's MK-Ultra mind control program that began in the 1950's. The CIA's Dr Jose Manual DelGado designed the 'Stimoceiver' and demonstrated it in a bull ring in Spain. There are videos of this on youtube.com.
A possible way to defeat the sensors that pick up the emissions of the human brain would be to generate a lot of garbage electro-magnetic waves around the people and make it difficult for the sensors to pick up the EMI given off by the people. The people would have to always remain near the generator. The generator would need to generate a higher power level than a human which is not difficult given the tiny voltages of the brain.
Specific Ideas
1. Spark Generators
Spark generators were one of the first Morse Code machines. They were invented by Nikola Tesla before the end of the 19th century. The Titanic carried a spark radio. As radio progressed they were outlawed because they interfered with the entire radio spectrum. A Jacobs Ladder is a type of spark generator. At high voltages they can interupt everything. I mounted a standard spark plug from an internal combustion engine in a piece of metal to simulate an engine. To create the spark I used a standard ignition coil with a Velleman kit. The Velleman kit (K2543) comes with everything needed, but it has to be assembled.
2. Mechanical Generators
Electric motors are notorious for generating noise that interfere with sensitive electronics. All motors have a rotor that must move and be energized at the same time. This is accomplished with a conducting brush that keeps contact with the rotor. The idea is to rotate a metal brush on metal and conduct electricity through it to create noise. Then amplify the noise and put it on an antenna.
3. Electronic Generator
I began experimenting with Texas Instruments MSP430 line of microcontrollers. The Launchpad comes preprogrammed with a software routine that pulses an LED. I theorize you could simply take that pulse, amplify it and put it on an antenna and it might create enough disturbance for one person. It could be made small enough to hang around a person's neck. The MSP could also be programmed to generate random digital signals out of almost any output. You could generate many random signals mix them together and create digital noise. The outputs could be programmed for different frequencies. Another electronic idea is to build a white noise generator, chop up the signal somehow and amplify that. Different metals have different conducting properties. It might be possible to make your own componant to chop up signals by passing the current through different metals. You could pass the signal through a piece of pig iron and see if it makes a lot of noise.
4. It might be possible to record the noise made by a spark transmitter, make a computer file out of it, then rebroadcast (transmit) it through a cell phone or iPod. It's effectiveness might be limited to the microwave spectrum because of the size of the antenna.
5. Take a spark plug from an internal combustion engine, mount it in a piece of metal to simulate an engine and run it as it would normally be used. It would generate something similar to a Jacob's Ladder or an old fashioned Spark Transmitter.
6. Smarthome sells X10 technology. X10 technology was developed in the 1970's by a company in Scotland. It uses the AC wiring in a house to send control signals to devices connected throughout the house. With a central control panel any light or device can be turned on or off. So it's possible to inject noise onto AC wires.
7. Another method of disabling AC wiring would be to 'tap' the wires like a Morse code key.
8. Filtering is a use of passive componants to eliminate noise. Passive componants consist of capacitors, inductors and resistors. All of these come in voltage ratings high enough for 120 AC. A lowpass filter could be setup near the panel where the wire leaves the building and suppress any frequencies above 60 HZ.
The picture above is a spark generator I built. It consists of a standard spark plug and an ignition coil. I mounted the plug in a piece of metal. I have a Velleman Kit (K2543) to create the spark.
The above picture is a representation of a homemade componant for creating noise. It could be inserted into a PCB. The idea is to pass a signal through different metals to chop up the signal. Some metals might not take solder so a mechanical connection would be made.
Noise generators prevent signals from being picked up. They could also prevent transmitting. But it might be useful to use the radio spectrum so jamming is more appropriate. Jamming is the act of disabling only selected frequencies. The radio spectrum goes from 0 HZ to 300 GHZ. It's divided up into hundreds of channels for different uses. There are dozens of ways to modulate (carry data) so jamming is a science in itself. Jamming is a topic beyond my abilities.
The microwave spectrum is from 300MHZ to 300GHZ. Anything above 300GHZ is light. Microwaves can be transmitted with very small antennas. An entire radio, including the antenna, can fit on a single integrated circuit the size of a fingernail. Bluetooth is a technology that allows Personal Area Networks using microwaves. You can transmit and recieve signals up to 150 ft away.
Neural implants probably operate on microwaves given the small size. Getting an implant out of someone is tricky. You would have to stop the implant from communicating, get them to a facility that is fully protected from surveillance and they might have to stay there a while. EMI shielding could help cut off communication. They make EMI absorbant material that looks something like a SCUBA diving wet suit. A person could be covered from head to toe with this and brought to a facility that is a faraday cage. A faraday cage is an entire building encased in copper and grounded to earth. This would be a faraday cage walking into a faraday cage.
A faraday cage is an enclosure, room or entire building (like the NSA building at Ft Meade), encased in metal and then grounded to earth. It prevents electromagnetic waves from entering or leaving. The earth is an electrically neutral body. Any voltage, whether plus or minus, will discharge a current if given a path to earth. You cannot develop a voltage across neutral. Neutral is neutral. So if an entire building is a piece of metal and connected to earth all radiated electromagnetic waves will discharge to ground. Turning every building in the country into a faraday cage isn't practical but some steps can be taken. It is possible to purchase enough aluminum flashing to cover the floor of the attic for about $600. You could lay down the aluminum and then put some 1/4 inch plywood on top. It wouldn't add too much weight and the attic is still usable. There are thousands of corragated metal industrial buildings in this country that could be easily converted into a faraday cage.
A faraday cage can protect from radiated intrusion, both transmitted and recieved, but it doesn't help with conducted surviellance. Any wire entering or leaving a building and connected to a utility (electric, cable, phone) is a highway for someone to snoop. Any house has thousands of feet of wire. A large building has miles and it can all be used for transfering data. Broadband Over Powerlines (BPL) is a technology that uses the AC wiring in a building for delivering the same data as the coax cable. Telephone wiring could also be used without a person's knowledge. It used to be that when a device was off it was off. But now almost everything plugged in is drawing current even when not in use. I used to think this was done just to pad the electric bill but it may also have a more sinister purpose. Anything plugged into a wall outlet in your house could be snooping. The wiring itself could be a problem. As a rule the bigger the antenna, the more sensitive it is. So the wiring in your house could be a very sensitive antenna capable of picking up your personal emissions. There are at least 2 ways to defeat some of these problems. Filtering and injecting noise onto the wires.
Electronic manufacturers make filters for all kinds of applications. They can be used to defeat some of the problems. An understanding of what they are originally designed for is necessary to use them and I will try to boil it down to a few sentences. Most of them are designed to remove unwanted noise from lines and equipment so that it runs properly and meets FCC standards. Noise is catagorized as common-mode or differential-mode. Common-mode is defined as any signal that can be measured from hot to earth ground or neutral to earth ground. You cannot develop a voltage at earth ground since it is zero at all times. But both the hot lead and the neutral lead can vary above or below. The longer the run of wire the more likely it will pick up some type of unwanted signal (noise). Common-mode could also be described as any voltage picked up as radiation from an outside source. Differential-mode is noise from an actual device. Filtering for both is necessary but differential is more important since we are trying to stop the devices from communicating. Common-mode 'data' would be a problem if there were two long runs of wire and one had data but was filtered and was very close to a wire that is not filtered and that wire was 'picking' it up as radiated. This is less likely but possible. Filtering for differential-mode is in fact 'in-circuit' and is what we are actually trying to do.
There are two basic types of filters, active and passive. Active filters use componants like op-amps and transistors and some require a power source for those componants. Passive filters use only resistors, capacitors and inductors. These componants don't need a separate power supply but act upon the voltage itself as if it were part of the circuit. Other distinctions are they can be designed for AC or DC applications or high voltage or low voltage. I spent a lot of time reading a TE Connectivity (Corcom) catalog trying to understand the various types. One thing I discovered is that any filter used for medical applications only is usually only for differential-mode. In-circuit. There must be something in building codes or the National Electric code or in the way they build medical facilities that eliminates the need for common-mode filters. Some medical filters have common-mode componants but very few. If a manufacturer doesn't specifically say a device is for differential-mode you can tell by looking at the schematic. If the componants connect from hot to neutral it is for differential-mode. If they connect from hot or neutral to earth ground it is for common-mode.
Advanced electronics like DVD players, radios etc are a bigger problem because they have advanced IC's. There are two types of these that could have two solutions. Some of these devices have a plug that goes right into the wall and others have a small DC power supply or AC step down transformer that can be separated from the actual device. The former requires the filtering of the AC at the plug and the latter can be filtered between the device and separate power supply. With the separate power supply lower voltage AC or DC filters can be inserted before the device. Manufacturers make pre-assembled low voltage DC filters that can go between.
A spectrum analyser is a device that is useful for both detecting the problem and troubleshooting your solution. It displays a 2 dimensional graph of all frequencies in a domain. A domain is where the measurement is taken, wireless or conducted, radiated or additive. Spectrum analysers use to be very expensive and a separate piece of equipment. Since the advance of digital electronics even the cheapest oscilloscope comes with some sort of spectrum capability. They can analyse both radiated (wireless) energy and conducted (in-circuit). Placing oscilloscope probes into live AC circuits is dangerous for both the operator and the equipment and I don't recommend it. I recently purchased an Extech AC line separator that goes between an AC outlet and a piece of equipment so measurements can be taken with a clamp meter and no live wires are involved. There is also a clamp scope probe by Hantek. Hantek CC650 AC/DC current clamp. I recommend this instead of inserting anything into live AC circuits. Wi-Spy is a stand alone wireless spectrum analyser.
To inject noise onto the wiring you could use X10 technology. X10 technology was developed in the 1980's. It uses the AC wiring inside your home as a way to send data. X10 can be purchased from a website called smarthome.com. I purchased a controller and took it apart to see how it works. See picture above. The controller sends data over the AC wiring to individual plug-in units that turn on or turn off a device when they recieve the signal from the controller. Each plug-in device has a code that is programmed by two rotary switch's. Each plug-in device can go into any outlet and turn on or off whatever is pluged into it. The controller itself is a feedback loop. It plugs into any outlet. The AC goes through a small in-house device, then to a transformer to step down the 120 volts. The stepped down voltage goes to the PCB that has the control circuitry. The control circuitry then outputs back into the in-house device and back onto the AC wiring. I think you could replace the control circuitry with some sort of noise generator and render useless all the AC wiring in your home.
The telephone wiring could also be a problem whether your phone service is provided by a telephone company or the cable company. Our phones go through the coax cable. The best that can be hoped for is to stop high speed data. The human voice goes between 200 HZ and about 30 KHZ, so you can filter out everything above that. It doesn't stop all snooping but it could slow it down. The above picture is of a Westek Z 100 telephone filter. It is placed in series in one telephone extension line. If you have 5 extensions, you would need five filters. It will not handle the wattage of all 5 at once. This filter is advertised as removing everything up to 200 MHZ.
The coax cable is also a potential problem but it makes no sense to try to filter high speed data since thats what its designed for. You could shut it off completely when not in use but disconnecting the BNC everytime will take its toll on the connector. The picture above is an High Isolation A B Switch. You could connect the input to it, then the output to either A or B then leave the other unused. When you want it disconnected you throw the switch. My house uses the coax cable for the TV telephone and internet. If I put one in the main feed I could shut off everything with one switch. To better manage all the wires it is advisable to organize and locate everything in one place. I have spent nearly a year doing this to my house. See picture below.
This is an idea for helping a lot of people with implants all at once. The picture below is a device I made to help protect my Software Designed Radio from being destroyed with too much signal applied to the antenna. The device mounted on the right is a surge suppressor that can be bought from a number of manufacturers. This one is from MFJ. It is designed to short all current to earth ground if it exceeds the rating on the suppressor thus preventing damage to the radio. The idea is to make some sort of portable device that outputs a massive spike that would be large enough to blow a microwave (Bluetooth) antenna. You could just ride around in a car in a heavily populated area blowing it off leaving disconnected people behind.
In the event there is ever a large group of people, without implants, in a small area that don't want to live under a global dictatorship with an implant here are some suggestions that might help. I think the first thing that has to be done is tear down the electric grid. It won't solve the people with implants or the satelites but it's a start. I believe you must start in the countryside. The cities are hopeless but you could create chaos as a diversion. I will begin by trying to boil down how the grid works to a few paragraphs.