Re: OT; latest tinfoil beanie technology

["McGinn" <McGinn@xxxxxxxxx>]

PUSSY Crash,

Call and ask these NSA PSYCHOPATHS

List of UNDERCOVER EVIL AMERICAN GOVT NSA and FBI PSYCHOPATHS and their
ADDRESSES and PHONE NUMBERS.


The FIRST TWO agents Maddelina Wahl and Kathleen Taylor are listed on
www.infospace.com under their UNDERCOVER AGENTS HUSBANDS names Larry Wahl
and Kevin Taylor.


1) Agent Maddelina Wahl , 28087 Hickory Drive, Farmington Hills, MI 38331
ph 248-324-1527.


2) Agent Kathleen Taylor, 29390 Bermuda Lane, Southfield, MI 48034, Ph
248-356-1946.


3) Agent Mediha Krijestorac, 30408 Shiawasee Rd, Farmington MI 48336, ph
248-477-9161.


4) Agent Frank Spodek, email id:   sfrank9 at aol.com or sfra...@xxxxxxx


5) 351 FTK - Atlanta, Georgia car registration in Sep 2004 (undercover
agents)


6)  Janet Lorna Brown,  20978 Delaware St, Southfield MI 48034 in 2002.


7) Ed Conrad - Ed Conrad@xxxxxxxxxxx

8) CoreyWhite - CoreyWhite@xxxxxxxxx









"Crash" <robosama@xxxxxxxxx> wrote in message
news:1152971904.615225.295170@xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
> Which model chip did you get implanted?
>
>
>
> McGinn wrote:
>> "Crash" <robosama@xxxxxxxxx> wrote in message
>> news:1152888807.006848.186190@xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
>> > http://zapatopi.net/afdb/history.html#COINS
>> >
>>
>>
>>
>>
>>
>> Technology available to FBI, CIA and NSA PSYCHOPATHS is 30 years AHEAD of
>> technology available to the american public.
>>
>> ONLY LOW IQ SLAVES and MORONS are obsessed by tin foils and meds. Read
>> the
>> following and EDUCATE and PROTECT YOURSELF and YOUR FAMILIES from the
>> EVIL
>> AMERICAN GOVT PSYCHOPATHS.
>>
>> EVERY AMERICAN will be MANDATORILY  INSERTED with a SYNTHETIC TELEPATHY
>> chip
>> in about 10 -15 years from now so the EVIL AMERICAN GOVT can know WHAT
>> YOU
>> are THINKING.
>>
>> FDA already APPROVED verichip to be IMPLANTED in patients bodies. Just
>> google for the words "verichip" and patients.
>>
>>
>>
>> http://groups.google.com/group/sci.physics/msg/8add8661de87ddc3?hl=en&;
>>
>>
>> http://online.wsj.com/article/SB115274937020005165.html?mod=djemTAR
>>
>> A start-up founded by leading neuroscientists will report that a
>> patient in a clinical trial who had electrodes implanted in his brain
>> used
>> his thoughts to control a computer cursor, send email and operate a
>> robotic arm.
>>
>>
>> Harnessing Thought to Help the Injured
>>
>> By SHIRLEY WANG and ANTONIO REGALADO
>> July 13, 2006; Page B1
>>
>> Scientists have long dreamed of harnessing thoughts to allow amputees to
>> move their prosthetic limbs or patients with brain-stem injuries to speak
>> with the aid of a computer.
>>
>> Results released today from a clinical trial of four paralyzed patients
>> suggest the mind-control technology faces complex challenges but appears
>> to
>> be feasible. In the latest in a series of pioneering human tests of
>> direct
>> mind control over electronic devices, a start-up company founded by
>> leading
>> neuroscientists reports in the journal Nature that a patient who had
>> electrodes implanted in his brain used his thoughts to control a computer
>> cursor, send email and operate a robotic arm.
>>
>> Engineers have envisioned using the mind to directly control devices for
>> decades, but technological advances and better understanding of the brain
>> have made actual tests in humans possible only recently. And some hope
>> that
>> new investments by the U.S. military will result in a few years in new
>> devices to help veterans and others with devastating injuries.
>>
>> "The whole field is bubbling up," says Philip Kennedy, chief scientist
>> and
>> CEO of Neural Signals, a closely held Atlanta company doing research in
>> the
>> field. While still at an early stage, excitement over early findings has
>> led
>> to increases in funding and attention.
>>
>> The four-patient trial, including the patient described in Nature, uses
>> what's known as a "neural prosthetic," an implant to record nerve signals
>> inside the brain and use them to control electronic devices. The study
>> was
>> paid for and the brain implant built by Cyberkinetics Neurotechnology
>> Systems Inc., a Foxborough, Mass. company.
>>
>> Researchers caution that it will likely take a decade for brain implants
>> or
>> similar devices to come to market -- a long time for companies in the
>> field
>> to wait for a payoff. "This is a start, showing efficacy in a human, but
>> still far from being a useful device," says Andrew Schwartz, a professor
>> of
>> neurobiology and bioengineering at the University of Pittsburgh who has
>> conducted similar research in monkeys.
>>
>> Scientists are pursuing a range of strategies to achieve the goal of
>> direct
>> mind control over machines. Some efforts measure signals inside the
>> brain,
>> others use brain waves that can be recorded outside the skull.
>>
>> Creating a fast, reliable and, above all, natural way for patients to use
>> limbs and senses that they thought were gone is the ultimate goal of the
>> field of brain-computer interfaces, says Leigh Hochberg, a neuroscientist
>> at
>> Massachusetts General Hospital who is the lead author of the Nature
>> article.
>>
>> The study shows that "this part of the brain can still be used to control
>> an
>> external device even years after spinal-cord injury," Dr. Hochberg says.
>>
>> The large number of injured soldiers returning from Iraq and Afghanistan
>> has
>> motivated the government to accelerate prosthetics research. In February,
>> the U.S. Defense Advanced Research Projects Agency kicked off two
>> programs
>> backed by $48.5 million in funding to create artificial limbs, including
>> ones that can be operated by the wearer's thoughts.
>>
>> "We can have a big impact on people's lives. People who have been doing
>> their part on behalf of the country," says Rick Needham, an engineer with
>> Manchester, N.H.-based DEKA Research & Development Corp., which is being
>> funded by Darpa. DEKA, whose president, Dean Kamen, also created the
>> Segway
>> upright scooter, is working on a sophisticated battery-powered prosthetic
>> arm with rotating shoulder, elbow and wrist joints.
>>
>> To effectively operate such sophisticated devices, direct brain control
>> could be useful. Scientists like Dr. Schwartz have shown that by placing
>> electrodes in the brains of monkeys, they can listen in on nerve signals
>> that tell them how an animal intends to move.
>>
>> In one 2000 experiment, for instance, researchers at Duke University used
>> a
>> monkey's thoughts to control a robot hundreds of miles away in
>> Massachusetts.
>>
>> In the Cyberkinetics clinical trial, doctors have surgically implanted
>> nearly 100 electrodes in the brains of four patients. Computer software
>> was
>> used to pick up signals from the patient's brains as they imagined making
>> movements, such as moving their arms.
>>
>> The patient whose experience was described in Nature is Matthew Nagle,
>> who
>> was paralyzed in 2001 when he was 21. He was the first person outfitted
>> with
>> the Cyberkinetics system. He was able to draw simple figures on a
>> computer
>> screen, and even play the videogame Pong, using his thoughts. Mr. Nagle's
>> implant also was connected to a robotic arm, which he used to move an
>> object, and a prosthetic hand, which he opened and closed.
>>
>> Mr. Nagle had the device removed at the end of his one-year trial in
>> order
>> to have an operation to assist his breathing.
>>
>> Since 2004, Cyberkinetics has raised more than $17 million from selling
>> stock and warrants to investors. The company's stock is traded on the OTC
>> Bulletin Board, where stocks of small companies often trade when they
>> can't
>> meet the listing requirements for the larger Nasdaq market.
>>
>> Joseph Pancrazio, program director for neural engineering in the division
>> of
>> extramural research of the National Institute of Neurological Disorders
>> and
>> Stroke in Bethesda, Md., says the Nature study "has tremendous
>> implications
>> for the application of brain-machine interfaces with people with
>> disabilities." Given that so much earlier work with implants involved
>> healthy monkeys, their employment in injured humans is "a major
>> milestone."
>> The institute spent $25 million on neural prosthetics in 2005, he says,
>> and
>> funded work that led to the current study.
>>
>> Not all scientists in the field are ready to be impressed yet. "I'm
>> asking
>> myself, what was the advantage that the patient got?" says Miguel
>> Nicolelis,
>> a professor of neurobiology at Duke University. "What has been
>> accomplished
>> could have been accomplished from noninvasive methods?"
>>
>> The New York State Department of Health's Wadsworth Center in Albany,
>> N.Y.,
>> has been working on using a less-invasive technology, a brain-wave cap,
>> which fits much like a swim cap, to allow patients to email from their
>> homes, according to Jonathan Wolpaw, who heads the center's laboratory
>> that
>> studies nervous-system disorders. The first patient, a scientist in his
>> late
>> 40s with amyotrophic lateral sclerosis, or Lou Gehrig's disease, was
>> fitted
>> with a brain-computer-interface system in February and can send emails at
>> the rate of a couple words a minute. A second user, an ALS sufferer in
>> his
>> late 60s, will be fitted with the system this month. The entire system
>> costs
>> less than $5,000.
>>
>> Dr. Wolpaw's research program, whose funding comes from the National
>> Institutes of Health and various private foundations, is looking into
>> establishing a nonprofit company for this technology in the next few
>> months.
>>
>> For a few patients, any connection to the outside world may be of value.
>> Neural Signals is in the process of harnessing brain-computer-interface
>> technology to restore conversational speech in people who have lost the
>> ability to talk. An electrode is implanted into one brain region involved
>> in
>> speech, Broca's area, and a computer tries to translate the patterns into
>> sound.
>>
>> The company has implanted electrodes in five patients since 1996,
>> according
>> Dr. Kennedy, the CEO. Their current patient, a 23-year-old who suffered
>> brain-stem trauma from a stroke following a car accident, received the
>> implant in December 2004. He has limited ability to move just his eyes.
>> After his semiweekly sessions using the system, he is able to make seven
>> sounds or short words, including "yes" and "no." The goal is to give him
>> the
>> ability to speak 100 words, a goal that is reachable within the year,
>> according to Dr. Kennedy.
>>
>> Write to Shirley Wang at shirley.wang@xxxxxxx and Antonio Regalado at
>