August 26, 2011

Scared Mexicans Implanting Microchips in Their Arms; Advanced Microchip Powered by Body Movements is Ready for Implanting

The future of America: microchipped zombies. Researchers believe hair-thin electronic patch-like chips ('electronic tattoos) could be used to replace traditional wires and cables, but this sounds remarkably like an excuse used to cover up the real truth: that this new microchipping method is a way to ensure all of us are eventually microchipped and able to be tracked and monitored. Soon, everyone will be required to wear chips or “tattoos” that prove they got their vaccinations, to link to health records, credit history and social security records. If the government can require Americans to carry microchipped documents including your work, financial and health records, it seems it is only a matter of time before these chips will be implanted for the sake of “convenience” or “security.” According to them, all of this is being done “for our own good.” - Christina Luisa, Hospital patients now being microchipped with “electronic tattoos”, NaturalNews, August 25, 2011

Dateline NBC Psyop: Microchip Everything 2017:



As Kidnappings Increase, Mexicans Get Dubious RFID Tracking Chips Implanted in Their Arms

August 22, 2011

popsci.com - Following the violent kidnapping of former Mexican presidential candidate Diego Fernandez de Cevallos last year, some Mexicans are now having themselves implanted with RFID tracking chips similar to the one that was supposedly cut from Fernandez’s arm by his abductors, the Washington Post reports [see next story]. Companies selling these chips to scared citizens are promising that they will help rescuers track them down in the event of a kidnapping.

The chip, implanted in the tissue between the shoulder and elbow, sends a signal to an GPS device that the wearer carries. But Xega, the company that manufactures many of the chips, says that they can track clients even without the GPS unit, by sending radio signals directly to the implanted chip. This claim seems very unlikely to be true.

RFID researchers say that Xega’s claim that it can still find clients even if their external GPS unit has been lost is ludicrous. The technology that would allow remote tracking of RFID signals is still far off, they say. Although Xega says they have helped to rescue 178 people in the past ten years, an executive acknowledged that the implant would likely not work without the external GPS.

Mexicans have good reason to be frightened, with abductions having jumped 317 percent in the past five years. One fifth of instances have involved police officers or soldiers, which leads to a mistrust of authority figures. Xega has seen its sales increase by 40 percent in the past two years.

Other companies are selling external GPS trackers equipped with panic buttons, disguised as keychains, watches, or bracelets in the hopes of fooling kidnappers. This approach at least is not technologically impossible, although emitting a regular distress signal could quickly drain the battery of such a device.

Scared Mexicans Try Under-the-Skin Tracking Devices

August 14, 2011

Washington Post - Of all the strange circumstances surrounding the violent abduction last year of Diego Fernandez de Cevallos, the Mexican power broker and former presidential candidate known here as “Boss Diego,” perhaps nothing was weirder than the mysterious tracking chip that the kidnappers allegedly cut from his body.

Lurid Mexican media accounts reported that an armed gang invaded Fernandez’s home, sliced open his arm with a pair of scissors and extracted a satellite-enabled tracking device, leaving the chip and a streak of blood behind.

Fernandez was freed seven months later with little explanation, but the gruesome details of his crude surgery have not dissuaded thousands of worried Mexicans from seeking out similar satellite and radio-frequency tracking products — including scientifically dubious chip implants — as abductions in the country soar.

According to a recent Mexican congressional report, kidnappings have jumped 317 percent in the past five years. More alarming, perhaps, is the finding that police officers or soldiers were involved in more than one-fifth of the crimes, contributing to widespread perceptions that authorities can’t be trusted to solve the crimes or recover missing loved ones.

Under-the-skin devices such as the one allegedly carved out of Boss Diego are selling here for thousands of dollars on the promise that they can help rescuers track down kidnapping victims. Xega, the Mexican company that sells the chips and performs the implants, says its sales have increased 40 percent in the past two years.

“Unfortunately, it’s been good for business but bad for the country,” said Xega executive Diego Kuri, referring to the kidnappings. “Thirty percent of our clients arrive after someone in their family has already experienced a kidnapping,” added Kuri, interviewed at the company’s heavily fortified offices, opposite a tire shop in this industrial city 120 miles north of Mexico’s capital.

Xega calls it the VIP package. For $2,000 upfront and annual fees of $2,000, the company provides clients with a subdermal radio-frequency identification chip (RFID), essentially a small antenna in a tiny glass tube. The chip, inserted into the fatty tissue of the arm between the shoulder and elbow, is less than half an inch long and about as wide as a strand of boiled spaghetti.

The chip relays a signal to an external Global Positioning System unit the size of a cellphone, Kuri said, but if the owner is stripped of the GPS device in the event of an abduction, Xega can still track down its clients by sending radio signals to the implant. The company says it has helped rescue 178 clients in the past decade.

Skepticism abounds

In recent years, all manner of Mexican media reports have featured the chips, with some estimating that as many as 10,000 people are walking around with the implants. Even former attorney general Rafael Macedo told reporters in 2004 that he had a chip embedded “so that I can be located at any moment wherever I am.”

That’s pure science fiction — a sham — say RIFD researchers and engineers in the United States. Any device that could communicate with satellites or even the local cellular network would need a battery and sizable antenna [see next story], like a cellphone, they say.

“It’s nonsense,” said Mark Corner, an RFID researcher and computer science professor at the University of Massachusetts.

The development of an RFID human implant that could work as a tracking device remains far off, said Justin Patton, managing director of the University of Arkansas RFID Research Center, which specializes in product and merchandise tracking for retail companies such as Wal-Mart.

“There’s no way in the world something that size can communicate with a satellite,” Patton said. “I have expensive systems with batteries on board, and even they can’t be read from a distance greater than a couple hundred meters, with no interference in the way.”

Water is a major barrier for radio frequency, he added, and because the human body is mostly made up of water, it would dull the signal, as would metal, concrete and other solid materials.

Xega executives declined to respond to questions about the technical specifications of their products, citing security protocols. When pressed, Kuri acknowledged that a Xega implant would be essentially useless unless the client carried the GPS-enabled transmitter — meaning the chip might bring psychological security but little practical benefit for a rescue operation.

Several other Mexican companies also sell GPS-enabled tracking units with panic buttons, relying on more-proven forms of technology. The transmitters, smaller than a cellphone, can fit on a key chain, and they work by communicating with cellular networks.

“Demand is huge right now,” said Guillermo Medina, director of Max4Systems, which sells the devices for $200, with a $20 basic monthly fee. “Our sales are increasing 20 to 25 percent every month.”

Limits to GPS devices

But researchers say the GPS devices also have limitations. Unlike a GPS-enabled cellphone, which sends a signal only when the user requests location coordinates, a GPS rescue device would have to emit a distress signal at regular intervals — every few minutes or so. That would quickly drain the battery [see next story].

And if the device is in an area with no reception — whether a cabin in the woods or the basement of a safe house — its signal can’t be detected.

Then there is the likelihood that kidnappers will dispose of the victim’s belongings soon after the abduction, including any GPS device. Companies have responded by creating GPS-enabled watches or fashion bracelets, which emit a distress signal to a monitoring station, in the hopes of duping kidnappers.

“The technology is evolving fast,” said David Roman, Mexico sales manager for the company Globalstar.

Clients often inquire about the chip implants and the GPS units, said Armand Gadoury, managing director of Reston-based Clayton Consultants, a division of the security contracting firm Triple Canopy that has seen its Mexico caseload double since the start of 2010. Gadoury tells clients not to bother.

“The technology just isn’t there,” he said, adding that a fancy-looking tracking device can end up sending an unwanted signal to the criminals: that the person they have abducted has lots of money.

“If the expectation is that you’re going to hit a panic button and that law enforcement is going to mount a raid, then there will be zero planning,” he said. “And that’s even more dangerous for the victim.”

We've Got You Under Your Skin: Battery-free Surveillance Device that Can Be Implanted Under the Flesh

June 17, 2011

Daily Mail - A new generation of battery-free surveillance devices which can be implanted under the skin and transmit over huge distances via wireless have been developed by scientists.

Researchers are working on nano machines that could be injected into the arms of patients and then report back to doctors who are monitoring them from miles away.

They would be powered by the motion of a person walking, or even the pulse of a blood vessel, so would never stop working until the person died.

The technology could also be used in CCTV cameras attached to small flying craft [drones] which use their own motion to power themselves.

Such devices could be used by hospitals to locate patients or perhaps check if they are following their treatment plan. But they will also be of interest to the military and the criminal justice system which is constantly on the lookout for new ways to spy on criminals [and "domestic terrorists"].

The advancements were reported in the journal Nano Letters by Zhong Lin Wang of Georgia Tech University in the U.S.
‘It is entirely possible to drive the devices by scavenging energy from sources in the environment such as gentle airflow, vibration, sonic wave, solar, chemical, and/or thermal energy,’ he wrote.
The device would be powered by the motion of a person walking, or even the pulse of a blood vessel, so would never stop working until the person died

The device would consist of a nanogenerator which makes electricity from vibration or motion, a capacitor which stores they energy and a Bluetooth-style transmitter to end the signal.

According to Science Daily it would be able to pick up wireless signals at a distance of more than 30ft.

It took six years to develop and in experiments was able to power an LED and LCD display. At the time he said:
‘This development represents a milestone toward producing portable electronics that can be powered by body movements without the use of batteries or electrical outlets.

‘Our nanogenerators are poised to change lives in the future. Their potential is only limited by one's imagination.’

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