Understanding
Electromagnetic Waves and Mind Control - Part 5
HOW THEY WORK
In a true visual prosthetic, a video encoder (camera) transforms the visual world in front of a blind individual into electrical signals that are used to excite neurons at some point of the visual -pathway. The video camera encoder will be a silicon retina that replaces some of the functions that the human retina performs, and then it makes what it sees into signal compatible with the neurons the encoder must stimulate.
The signals from the encoder excite neurons either via a hard-wired percutaneous connection, or a telemetry link. "The stimulating electrodes must be implanted into visual pathway such that each electrode is able to excite only a small population of neurons in the vicinity of the electrode." (Normann, -Richard. "Visual Neuroprosthetics Functional Vision for the Blind", in IEEE Engineering in Medicine and Biology, Jan-Feb. '95, pg. 77)
To improve the picture sent by the implants to the brain, electrodes the size of the neurons they intend to stimulate in the eye were developed. Kensall Wise at the University of Michigan created small high density electrode arrays out of silicon.
In one model, the electrodes are .08 mm at their base, and taper to a sharpened tip. An array of hundreds of such electrodes can be implanted into cortical tissue about 1.5-2.0 mm below the cortical surface.
This is not all of the design considerations involved, but it gives an idea of the direction that public research has gone in. A special pneumatic inserter that can shoot the arrays at high velocities to insert them into the cortical tissue was created by Patrick Rousche. This method provided limited cortical-based-map images. To further improve the picture, implants are being created that create a retinal map, rather than a cortical map. This can take advantage of the image forming properties of the human eye, and may give satisfactory images.
At the current pace of public development, visual implants that restore sight are only a few years away from mass production. Meanwhile, the Network continues to create and use visual implants that are more sophisticated than what the public sector has been allowed to create. Bear in mind that these researchers use either foundation grant money or government grant money to operate. The Network is very careful about what technology is developed. Some excessively ambitious implant researchers (not visual, but other) have seen their work have a national security gag order thrown over them, and the research ends up muzzled from getting out to the public.
TYPES
FIBER OPTICS-- Fiber optics permits the Network to use a fiber optic that looks like a hair as a television camera. In a body suit, several fiber optic cameras that look like hairs will be installed in key places to provide the handlers remote viewing. Fiber optics can also be mounted in the victim, to provide a means to receive remote pictures. Fiber optic implants can be placed by needle into any site on the body. One victim of electronic mind-control, who has repeatedly pulled out Fiber Optic hairs, had a tiny fiber optic hair shot into her chest above her tank top while she was in a restaurant. Some other implants that carry out the same function look like warts, moles, or blisters.
ARTIFICIAL LENSES-- 0ne victim describes his eye implants: "They are oblong objects with a square opening in the middle of them. They appear to be located on my corneas or rapped around them to be more accurate. They are connected to rods or wires that are spread out over my facial area and under the skin like a mask. The implants also appear to be connected to cochlear implants which are the cause of the repeated voice transmissions that I hear." Via a camera, she was able to pick up the presence of a reddish orange smear or stain covering my eye lens. The color blends with her own eye coloring so it is extremely difficult to see anything in her eyes. The lenses of the implants are not lined up evenly with her cornea.
The victim with the visual implants states, "Whenever I close my eyes, I see the presence of constant red orange haze centered with a tint of whitish blue. I also see a small area of fluorescent green color. When I sleep, I am subjected to virtual reality type pictures like programs being run through a computer with a 3-D effect. There is a constant whirring and clicking effect that comes from other implants such as the ears.''
In review. Visual implants are at time called visual prosthetus, but are actually attachments rather than replacements. They are oblong with a square opening in the middle of them. They are located on the cornea (rapped around them) and are connected to rods/wires that are spread out over the facial area and under the skin like a mask. The coloring of the implant is blended with natural eye colors to camouflage it. When the victim closes his or her eyes there is a constant presence of a red-orange haze centered around a small screen. There are also two orbs with a tint of whitish blue, and a small area of fluorescent green. Visual reality pictures are run like programs from a computer, that have a three-D effect. The left forehead scalp area has a whirring noise.
BIO-CHIPS that "talk" to nerve cells.
Some of the readers will have already heard of the bio-chips that talk to nerve cells. Stanford Research Inst. has been working on such bio-chips. Bear in mind, public research is generally a cover for what has already been discovered.HOLOGRAPHIC IMPLANTS
HOLOGRAPHIC OR H INSERT-- There is one type which has been called a Holographic Insert or H Implant. A holographic memory is created by this implant. This may or may not be the Nanobots which are capable of creating holographic images in the mind. Let's discuss the nanobots.
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