China finds 22 fake Apple stores

12 August 2011 Last updated at 06:21 ET

A total of 22 fake Apple stores have been uncovered in one Chinese city.

Authorities in Kunming began searching out the copycats after pictures of one convincing replica were circulated on the web.

An early search found five fake stores, two of which were shut down for trading without a licence.

Now, according to Chinese trade officials, 22 have been found unlawfully using Apple's brand and logo.

The investigation into unauthorised Apple stores in Kunming was brought about when an American living in the city published a blog post describing a visit to one such shop.

Describing it as a "beautiful ripoff", BirdAbroad revealed how far the owners had gone to copy the decor and ambience of a real Apple store.

Staff also wore the same colour T-shirts as real Apple staffers, and sported lanyards of the same design.

The blog post was widely shared around the world and prompted Chinese trade officials in Kunming to take action.

The Administration for Industry and Commerce in Kunming said its investigation had unveiled a slew of stores violating Apple's registered trademarks.

The shops have been told to stop using the logos as Chinese laws prohibit copying the "look and feel" of another company without permission.

It is not clear whether the shops being reprimanded were selling legitimate Apple products or those bought on the grey market.

The Kunming retail watchdog said it would step up its monitoring efforts and set up a hotline through which the public can report unauthorised Apple shops they find.

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Hypersonic test aircraft 'lost'

11 August 2011 Last updated at 18:06 ET

The US military lost contact with an unmanned hypersonic test aircraft shortly after its launch, defence officials have said.

The Falcon Hypersonic Test Vehicle 2 (HTV-2) - capable of reaching any target in the world in less than an hour - began a test flight from atop a rocket on Thursday.

Contact was also lost with a similar craft during the first mission.

The HTV-2 is designed to travel at 13,000mph (21,000km/h).

The Defense Advanced Research Projects Agency (Darpa), which is funding the HTV-2 programme and overseeing the tests, said the small craft was capable of reaching speeds of Mach 20.

The aircraft took off using a Minotaur IV rocket from Vanderberg Air Force Base in California early on Thursday.

Engineers programmed the HTV-2 to launch from the edge of space, separate from its rocket and crash into the ocean.

No information was available on whether the goals of the mission were achieved.

Re-entering Earth's atmosphere

Darpa said the HTV-2 would be subject to temperatures in excess of 3,500F (2,000C) if it reached its intended speed during its test flight.

The agency had previously said the craft would re-enter the earth's atmosphere over the Pacific Ocean.

The first test flight of a HTV-2 ended with the craft crashing into the Pacific after the military lost contact with the glider nine minutes into the flight.

But the first glider's flight still managed to return 139 seconds of aerodynamic data at speeds between 17 and 22 times the speed of sound, DARPA said.

The HTV-2 programme "informs policy, acquisition, and operations decisions for future Department of Defense Conventional Prompt Global Strike programmes", Darpa said on its website.

At HTV-2 speeds, flight time between New York City and Los Angeles, which are roughly 2,500 miles (4,000 km) apart, would be less than 12 minutes.

The Atlantis shuttle, launched in July, travelled around Earth's orbit at a similar speed of about 17,500mph (28,000kp/h).

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Tattoo hope in patient monitoring

11 August 2011 Last updated at 14:01 ET By James Gallagher Health reporter, BBC News

An "electronic tattoo" could herald a revolution in the way patients are monitored and provide a breakthrough in computer gaming, say US scientists.

They used the device, which is thinner than a human hair, to monitor the heart and brain, according to a study in the journal Science.

The sensor attaches to human skin just like a temporary tattoo and can move, wrinkle and stretch without breaking.

Researchers hope it could replace bulky equipment currently used in hospitals.

A mass of cables, wires, gel-coated sticky pads and monitors are currently needed to keep track of a patient's vital signs.

Scientists say this can be "distressing", such as when a patient with heart problems has to wear a bulky monitor for a month "in order to capture abnormal but rare cardiac events".

Solar cells

With the tattoo, all the electronic parts are built out of wavy, snake-like components, which mean they can cope with being stretched and squeezed.

There are also tiny solar cells which can generate power or get energy from electromagnetic radiation.

The device is small, less than 50 micrometres thick - less than the diameter of a human hair.

The sensor is mounted on to a water-soluble sheet of plastic, so is attached to the body by brushing with water, just like a temporary tattoo.

It sticks on due to weak forces of attraction between the skin and a polyester layer at the base of the sensor, which is the same force which sticks geckos to walls.

In the study, the tattoo was used to measure electrical activity in the leg, heart and brain. It found that the "measurements agree remarkably well" with those taken by traditional methods.

Researchers believe the technology could be used to replace traditional wires and cables.

Smaller, less invasive, sensors could be especially useful for monitoring premature babies or for studying patients with sleep apnoea without them wearing wires through the night, researchers say.

Prof Todd Coleman, from the University of Illinois, said: "If we want to understand brain function in a natural environment, that's completely incompatible with studies in a laboratory.

"The best way to do this is to record neural signals in natural settings, with devices that are invisible to the user."

The device was worn for up to 24 hours without loss of function or skin irritation.

However, there are problems with longer-term use, as the skin constantly produces new cells, while those at the surface die and are brushed off, meaning a new sensor would need to be attached at least every fortnight.

'Electronic skin'

When the tattoo was attached to the throat, it was able to detect differences in words such as up, down, left, right, go and stop.

The researchers managed to use this to control a simple computer game.

John Rogers, professor in material science and engineering at the University of Illinois, said: "Our goal was to develop an electronic technology that could integrate with the skin in a way that is invisible to the user.

"It's a technology that blurs the distinction between electronics and biology."

Prof Zhenqiang Ma, an electrical and computer engineer at the University of Wisconsin, argued that the technology could overcome issues with bulky sensors.

"An electronic skin will help solve these problems and allow monitoring to be simpler, more reliable and uninterrupted.

"It has proved to be viable and low-cost in this demonstration which will greatly facilitate the practical clinical use of the electronic skin."

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