Monday, December 30, 2013

US announces six drone test sites

The US aviation regulator has announced the six states that will host sites for testing commercial use of drones.
The Federal Aviation Administration (FAA) picked Alaska, Nevada, New York, North Dakota, Texas and Virginia.
The sites are part of a programme to develop safety and operational rules for drones by the end of 2015.
Hitherto mainly used by the military, the potential of drones is now being explored by everyone from real estate agents to farmers or delivery services.
The head of the FAA, Michael Huerta, said safety would be the priority as it considers approval for unleashing the unmanned aircraft into US skies.
Pilots will be notified through routine announcements about where drones are being flown.
The FAA said in a statement that its decision followed a 10-month process involving proposals from 24 states.
The agency said it had considered geography, climate, location of ground infrastructure, research needs, airspace use, aviation experience and risk.
The sites chosen are:
  • A set of locations proposed by the University of Alaska in seven zones with varying climates, from Hawaii to Oregon
  • Griffiss International Airport in central New York state will test how to integrate drones into the congested north-east airspace
  • North Dakota Department of Commerce will test the human impact of drones and also how the aircraft cope in temperate climates
  • The state of Nevada will concentrate on standards for air traffic and drone operators
  • Texas A&M University plans to develop safety requirements for drones and testing for airworthiness
  • Virginia Tech university will research operational and technical areas of risk for drones
The biggest chunk of the growth in the commercial drone industry is currently expected to be for agriculture and law enforcement.
Police and other emergency services could use them for crowd control, taking crime scene photos or for search and rescue missions.
It can cost a police department hundreds of dollars an hour to deploy a helicopter, while an unmanned aerial vehicle (UAV) can be sent into the skies for as little as $25.
Farmers, meanwhile, might find it easier to spray crops or survey livestock with the pilotless aircraft.
The FAA estimates as many as 7,500 aircraft could be in the air five years after widespread airspace access is made legal.
However, the commercial use of drones has drawn criticism from both conservatives and liberals.
In a report last December, the American Civil Liberties Union said that giving drones access to US skies would only ensure "our every move is monitored, tracked, recorded and scrutinised by the authorities".
But lawmakers from winning states were delighted with the selections.
"This is wonderful news for Nevada that creates a huge opportunity for our economy," said Senator Harry Reid, a Democrat from Nevada.
An industry-commissioned study predicted more than 70,000 jobs - including drone operators - would develop in the first three years after Congress loosens drone restrictions on US skies.
The same study, conducted by the Teal Group research firm, found that the worldwide commercial drone market could top $89bn in the next decade.

Sunday, December 22, 2013

'Massive' reservoir of melt water found under Greenland ice

Researchers say they have discovered a large reservoir of melt water that sits under the Greenland ice sheet all year round.
The scientists say the water is stored in the air space between particles of ice, similar to the way that fruit juice stays liquid in a slush drink.
The aquifer, which covers an area the size of Ireland, could yield important clues to sea level rise.
The research is published in the journal, Nature Geoscience.
The melting of the Greenland ice sheet has been a significant contributor to a rise in sea levels over the past 100 years.
According to the latest report from the Intergovernmental Panel on Climate Change, the ice sheet lost 34 billion tonnes of ice per year between 1992 and 2001 - but this increased to 215 billion tonnes between 2002 and 2011
Scientists still have many unanswered questions about the direction and speed and ultimate destination of this melted water.
Ice free liquid
This new research finds that a significant amount is stored in partially compacted snow called firn.
In the spring of 2011, researchers drilled deep into this slushy layer and to their surprise, found liquid water flowing back to the surface even though air temperatures were -15 degrees C.
As this was well before the onset of the summer melt, the team concluded the water had persisted in a liquid state through the Greenland winter.
"This discovery was a surprise," said Prof Rick Forster from the University of Utah.
"Instead of the water being stored in the air space between subsurface rock particles, the water is stored in the air space between the ice particles, like the juice in a snow cone."
The scientists have also come up with a rough estimate for the amount of water that is contained in the aquifer which itself covers an area of 70,000 sq km.
They believe that it holds roughly 140 billion tonnes of water, which is the equivalent to 0.4mm of sea level rise per year - about half of what Greenland contributes to the sea every year.
But crucially the scientists don't know the ultimate destination of the water in the reservoir.
"It depends on whether it is currently connected to a system that is draining into the ocean or if it is a bit isolated and completely acting as a storage source without a current connection," said Prof Forster.
"We don't know the answer to this right now. It's massive, it's a new system we haven't seen before - we need to understand it more completely if we are to predict sea level rise."
The scientists say the water is prevented from freezing by the large amounts of snow that fall on the surface of the ice sheet late in the summer.
This insulates the water from the air temperatures which are below freezing, allowing the water to persist as liquid all year long.
Other researchers believe this discovery may help explain disparities between projections of mass loss by climate models and observations from satellites.
"The large mass of liquid water in firn also represents a heat sink that could be playing a role in Greenland's interaction with the climate system," wrote Dr Joel Harper from the University of Montana, in a comment piece published alongside the study.
"As the intensity of surface melt in Greenland increases and expands upwards to the higher elevations that are covered by firn, liquid water storage may play an expanding role in the ice sheet's future response to climate change."
Follow Matt on Twitter @mattmcgrathbbc.

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Five mysteries of the brain

For centuries, the brain was a mystery. Only in the last few decades have scientists begun to unravel its secrets. In recent years, using the latest technology and powerful computers further key discoveries have been made.
However, much remains to be understood about how the brain works. Here are five important areas of study attempting to unlock the last secrets of the brain.

How to fix it

When we think, move, speak, dream and even love - it all happens in the grey matter. But our brains are not simply one colour. White matter matters too.
Much of the research into dementia has focused on the tell-tale plaques of beta amyloid and tau protein tangles which occur in the grey matter.
But one British scientist, Dr Atticus Hainsworth says the white matter - and its blood supply - may be equally important.
The white colour results from fatty sheaths around the axons - which are extensions of the nerve cell bodies and help the cells to communicate.
He is using banks of donated brains, in Oxford and Sheffield, to analyse white matter for potential triggers such as leaking blood vessels.
"Some of the cases had an MRI or CT scan and that information can help give more clues about whether there was disease in the white matter - and what its basis might be," says Dr Hainsworth.
If leaking blood vessels in white matter do play a key role in the development of dementia then it may offer up a another potential route for new drug therapies.

How to make us all geniuses

For years caffeine was used to enhance alertness. But popping a pill to get straight-A's may soon become the norm.
At Cambridge University neuroscientist Barbara Sahakian is investigating cognitive enhancers - drugs which make us smarter.
She studies how they can improve the performance of surgeons or pilots and asks if they could even be used to make us more entrepreneurial.
But she warns that there is no long-term safety information on these drugs and as a society we need to talk about their use.
She says the scientific and ethical challenges created by drugs which affect the production of brain chemicals like dopamine and noradrenaline - which induce pleasurable or "fight or flight" responses - need to be debated in order to decide whether drug-tests become routine before taking an exam.
Dr Sahakian adds: "I frequently talk to students about cognitive-enhancing drugs and a lot of students take them for studying and exams.
"But other students feel angry about this, they feel those students are cheating."

How can we harness our unconscious?

People need to be on top of their game when mastering skills like playing a musical instrument or detecting a bomb.
But research suggests that our unconscious can be harnessed to help us excel.
Repeatedly playing a tricky piece of music obviously helps develop a familiarity with the bits that are most difficult.
But cellist Tania Lisboa, who's also a researcher in the Centre for Performance Science at London's Royal College of Music, says it also helps to send the trickier parts of a piece from her conscious to the unconscious part of her brain.
After hours of practice, a fluent musician's brain stores how to play the piece in an area at the back of the brain called the cerebellum - literally "the little brain".
Neuroscientist Prof Anil Seth, of Sussex University, says: "It has more brain cells than the rest of the brain put together.
"It helps to promote fluid movements.. So the conscious effort of learning how to bow a cello is moved from the cortical areas which are involved when it's new or difficult over to the cerebellum, which is very good at producing unconscious fluent behaviour on demand."
Music and defence may not appear to have much in common, but the unconscious can also help detect potential threats, whether it's a suspicious person in a crowd or the presence of an improvised explosive device.
The unconscious brain is really good at spotting patterns - a skill which Paul Sajda at Colombia University in New York exploits - right at the boundary of the conscious/sub-conscious.
"I can flash 10 images a second and if one of those images has something out of the ordinary..that will essentially cause me to re-orient my brain to that image - but I'm not exactly aware of what that is."
Brain activity is monitored whilst the analyst looks at images so that researchers can later see which images triggered reactions.

What dreams are for

It's just 60 years since scientists in Chicago first noted the tell-tale "rapid eye movement" or REM sleep which we now associate with dreaming.
But our fascination with dreams dates back at least 5,000 years to ancient Mesopotamia when people believed that the soul moved out of a sleeping body to visit the places they dreamed of.
REM sleep - which occurs every 90 minutes or so - begins with signals from the base of the brain which eventually reach the cerebral cortex - the outer layer of the brain which is responsible for learning and thought.
These nerve impulses are also directed to the spinal cord, inducing temporary paralysis of the limbs.
Prof Robert Stickgold, from the Beth Israel Deaconess Medical Center for Sleep and Cognition in Boston, believes that dreams are vital for processing memory associations.
He has asked the subjects of some of his sleep studies to play Tetris - and then noted their descriptions of how they floated amongst geometric shapes in their dreams.
He's an admirer of Japanese scanning research where the scientists could "read" the dreams of subjects as they had MRI scans.
But he says it's hard to get people to sleep in a noisy, expensive scanner.
And the future? "I would like to see research which reveals the rules for dream construction - and how it relates to the larger concept of memory processing during sleep."
One even more elusive goal: how to dream just happy dreams and ditch the bad ones, especially nightmares.

Can we cure unreachable pain?

Excruciating chronic pain is one of medicine's most difficult problems to solve.
Untouched by conventional treatments like painkilling drugs, surgeons are now testing their theory that deep brain stimulation could provide relief.
It is a brain surgery technique which involves electrodes being inserted to reach targets deep inside the brain.
The target areas are stimulated via the electrodes which are connected to a battery-powered pacemaker surgically placed under the patient's collar bone.
One of the pioneers of this technique is Prof Tipu Aziz at the John Radcliffe Hospital in Oxford.
Deep brain stimulation has been used in the past for Parkinson's disease and depression, and is now being trialled on obsessive compulsive disorder patients as well as those in chronic pain.
One of his patients, Clive, has suffered from terrible pain for nearly a decade after an operation to remove a disc in his neck.
"Sometimes I thought that if I had an axe, I'd chop my own arm off, if I thought it would get rid of the pain."
The doctors explained to him that his brain was getting signals from his arm to his brain confused and that the electrodes could help.
In Clive's case this was an area of the brain called the anterior cingulate.
A week after his surgery he was one of the fortunate 70% of patients for whom the deep brain stimulation provides relief.
"It's great to be out of that pain now. Since having the implant I can sit down for longer, I am able to walk further, everything is an improvement."
Prof Aziz is treating medical conditions. But he is aware of ethical dilemmas which could arise if the technique was applied to other areas.
"Putting electrodes in targets to improve memory.
"Or you could put electrodes into people to make them indifferent to danger and create the perfect soldier."

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Saturday, December 21, 2013

Gaia 'billion-star surveyor' lifts off

Europe has launched the Gaia satellite - one of the most ambitious space missions in history.
The 740m-euro (£620m) observatory lifted off from the Sinnamary complex in French Guiana at 06:12 local time (09:12 GMT).
Gaia is going to map the precise positions and distances to more than a billion stars.
This should give us the first realistic picture of how our Milky Way galaxy is constructed.
Gaia's remarkable sensitivity will lead also to the detection of many thousands of previously unseen objects, including new planets and asteroids.
Separation from the Soyuz upper-stage was confirmed just before 10:00 GMT.
The satellite is now travelling out to an observing station some 1.5 million km from the Earth on its nightside - a journey that will take about a month to complete.
Gaia has been in development for more than 20 years.
It will be engaged in what is termed astrometry - the science of mapping the locations and movements of celestial objects.
To do this, it carries two telescopes that throw light on to a huge, one-billion-pixel camera detector connected to a trio of instruments.
Gaia will use this ultra-stable and supersensitive optical equipment to pinpoint its sample of stars with extraordinary confidence.
By repeatedly viewing its targets over five years, it should get to know the brightest stars' coordinates down to an error of just seven micro-arcseconds.
"This angle is equivalent to the size of a euro coin on the Moon as seen from Earth," explained Prof Alvaro Gimenez, Esa's director of science.
Gaia will compile profiles on the stars it sees.
As well as working out how far away they are, the satellite will study their motion across the sky.
Their physical properties will also be catalogued - details such as brightness, temperature, and composition. It should even be possible then to determine their ages.
And for about 150 million of these stars, Gaia will measure their velocity either towards or away from us.
This will enable scientists to use them as three-dimensional markers to trace the evolution of the Milky Way, to in essence make a time-lapse movie that can be run forwards to see what happens in the future, or run backwards to reveal how the galaxy was assembled in the past.
And because Gaia will track anything that passes across its camera detector, it is likely also to see a colossal number of objects that have hitherto gone unrecorded - such as comets, asteroids, planets beyond our Solar System, cold dead stars, and even tepid stars that never quite fired into life.
"It will allow us, for the first time ever, to walk through the Milky Way - to say where everything is, to say what everything is. It is truly a transformative mission," said Prof Gerry Gilmore from Cambridge University, UK.
By the end of the decade, the Gaia archive of processed data is expected to exceed 1 Petabyte (1 million Gigabytes), equivalent to about 200,000 DVDs of information.
This store is so vast that it will keep professional astronomers busy for decades.
"To think that you see individual scientific papers coming out now that talk about just a single object - a single star or exoplanet. And very soon, because of Gaia, we will have information on a billion objects. What will the scientific literature look like then?" pondered Dr Michael Perryman, the former Gaia Esa project scientist now affiliated to Princeton University, US.
"Of course, there will be big statistical projects you can tackle with this data, but it is clear the scale of Gaia means this information is not going to be superseded for a very long time," he told BBC News.
It will though offer ample scope for citizen scientists to mine Gaia's data to make their own discoveries, and a number of crowdsourcing projects to facilitate this activity will get under way next year.
Gaia is the result of an enormous industrial effort led by Astrium satellites in Toulouse, France. "For this masterpiece, for this jewel of space hardware, Astrium gathered and led an industrial consortium made up of 50 companies - 47 European, three North American," said CEO Eric Beranger.
"Coming to [French Guiana] and seeing our satellite lifting off brings me huge emotion. So much effort, dedication and ingenuity captured in just a few minutes."
Jonathan.Amos-INTERNET@bbc.co.uk and follow me on Twitter: @BBCAmos

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