Saturday, May 25, 2013

Pentagon mind experiments



BBC
Future

12 March 2013

Ten extraordinary Pentagon mind experiments



  • Robo-roach
    The Pentagon has a long interest in neuroscience, ranging from understanding brain injuries to attempts to turn insects into tiny spies using implanted systems. (Copyright: Darpa)
The Pentagon's growing interest in the brain for everything from mind-controlled vehicles to advanced prosthetics.
It’s been 30 years since the first message was sent over initial nodes of the Arpanet, the Pentagon-sponsored precursor to the internet. But this month, researchers announced something that could be equally historic: the passing of messages between two rat brains, the first step toward what they call the “brain net”.
Connecting the brains of two rats through implanted electrodes, scientists at Duke University demonstrated that in response to a visual cue, the trained response of one rat, called an encoder, could be mimicked without a visual cue in a second rat, called the decoder. In other words, the brain of one rat had communicated to the other.
"These experiments demonstrated the ability to establish a sophisticated, direct communication linkage between rat brains, and that the decoder brain is working as a pattern-recognition device,”said Miguel Nicolelis, a professor at Duke University School of Medicine. “So basically, we are creating an organic computer that solves a puzzle."
Whether or not the Duke University experiments turn out to be historic (some skepticism hasalready been raised), the work reflects a growing Pentagon interest in neuroscience for applications that range from such far-off ideas as teleoperation of military devices (think mind-controlled drones), to more near-term and less controversial technology, like prosthetics controlled by the human brain. In fact, like the Arpanet, the experiment on the rat “brain net” was sponsored by the Defense Advanced Research Projects Agency (Darpa).
The Pentagon’s expanding work in neuroscience in recent years has focused heavily on medical applications, like research to understand traumatic brain injury, but a good portion of the past decade’s work has also been on concepts that are intended to help the military fight wars more effectively, such as studying ways to keep soldiers’ brains alert even after days without sleep. Under the rubric of “Augmented Cognition,” Darpa has also pursued a number of military technologies, like goggles that would monitor a soldier’s brain signals to pick up potential threats before the conscious mind is aware of them.
Now, such work may get an even bigger boost: President Barack Obama is set to announce an initiative that could funnel billions of dollars to the field of neuroscience. That could mean more money for the Pentagon’s forays into brain science.
While some of the applications might be a generation away, or may never arrive, like mind-controlled drones, others, like the brain-monitoring goggles, are already in testing (though probably not ready for use in the field).  That’s raising questions from ethicists, who are pushing for the government to begin now to think about “neuro ethics.”
In a 2012 article published last year in the journal Plos Biology, Jonathan Moreno, a professor of medical ethics, and Michael Tennison, a professor of neurology, argued that many neuroscientists don’t think about the contribution of their work to warfare, or consider the ethical implication of such work.
The question they raise is what choice future soldiers might have in such cognitively enhanced warfare. “If a warfighter is allowed no autonomous freedom to accept or decline an enhancement intervention, and the intervention in question is as invasive as remote brain control,” they write, “then the ethical implications are immense.”
Whether this era will come to pass, remains to be seen. But, for now, expect many more advances in the world of neuroscience to come from the Pentagon. 
Visitors to the SXSW Festival in Austin, Texas, can hear Sharon talk in more detail about the Pentagon’s growing interest in neuroscience in her talk A Manhattan Project of the Mind on 12 March.
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3D printing



BBC
Future

14 May 2013

The weird and wonderful world of 3D printing


  • Empty your cartridges
    American law student Cody Wilson has created the world’s first working 3D-printable gun – though the US government has stopped his plans being shared for free on the internet.
Printers that can create 3D objects have become one of the hottest topics in technology in recent months – ushering in a world of weird and wonderful possibilities that could be manufactured with the push of a button.
Plans for everything from toys to radio-controlled planes are available to download – for those who have pockets deep enough to buy one of these still-pricey devices.
But this isn’t just bushing the limits of what we can do technically, it’s pushing the moral and legal limits too. Just last week, US law student Cody Wilson was filmed by the BBC firing the Liberator – the world’s first 3D-printable handgun, made entirely of plastic apart from the metal firing pin. Wilson, a staunch believer in the right to bear arms, made the plans for the gun freely available online, which were downloaded more than 100,000 times before US authorities took them down.
There are other controversial uses for the 3D printer, such as pilotless drones that could be printed out in a makeshift hangar and assembled by hand to carry out their duties. BBC Future looks at some of the most thought-provoking ideas in the world of 3D printing.
If you would like to comment on this slideshow or anything else you have seen on Future, head over to our Facebook page or message us on Twitter.

Monday, May 20, 2013

Xiangli robot



BBC
Future

17 May 2013

The best science and technology pictures of the week


  • Home-grown droid
    Chinese inventor Tao Xiangli puts finishing touches to a robot he built at his house in Beijing. The automaton cost him nearly $25,000 to build. (Copyright: Reuters)
The most amazing pictures from the last seven days – including a home-built robot, a return to Earth for intrepid astronauts and a very hungry bear cub.
More stunning image galleries:
If you would like to comment on this slideshow or anything else you have seen on Future, head over to our Facebook page or message us on Twitter.

Darpa element of surprise



BBC
Future

25 April 2013

Darpa: The element of surprise



  • Sky high
    The Defense Advanced Research Projects Agency (Darpa) is the high-risk research arm of the US Pentagon, tasked with creating cutting edge technologies. (Copyright: Lockheed Martin)
For more than 50 years the Pentagon's hi-tech research branch has endeavored to stay ahead of an ever-changing world.
When President Barack Obama earlier this month announced a new $100m year brain initiative, it was no surprise the White House would tap agencies like the National Institutes of Health and the National Science Foundation to help lead the effort. Less obvious, at least to some, was the role of the Defense Advanced Research Projects Agency (Darpa), a military agency that is perhaps better known for its development of weapons like stealth aircraft than medical technology.
That an agency founded over 50 years ago as the original space agency—before Nasa was created—would now become a leading government agency for brain research might be unexpected, but it is perhaps in line with an usual history that has spanned early work on spy satellites to current effort to help develop cyber weapons.
Darpa is an agency that has continuously reinvented itself, and this week may be another part of its story.
At a Pentagon briefing, Arati Prabhakar, the current head of Darpa, announced the release of a “framework” that spells out the agency’s role. “Our mission is unchanged, in 55 years, it has been and will be to prevent and create technological surprise,” she said, in announcing the new plan. “But of course the world in which we do that has changed many times since 1958.”
Before Nasa
Darpa was founded in 1958 as the Advanced Research Projects Agency (the “D” for defense was added in the 1970s), an expedient way to manage civil and military space programs in the chaotic days after the launch of the Soviet Sputnik satellite. When Nasa was formed, it took over the civil space programs from Darpa, and military space programs soon went back to the military services.
Rather than shut its doors, Darpa moved into a series of high-risk, and often futuristic science and technology programs, pursuing research in ballistic missile defense, computer science and counter-insurgency. In fact, many of Darpa’s biggest early achievements—such as a satellite system for detecting nuclear tests—are today obscure to a generation that has grown up during a US and Russian moratorium on nuclear weapons testing.
Of course, the dilemma of explaining—or in some cases defending—Darpa’s research, is that its applications aren’t always clear in the early stages. In the 1980s, Malcolm Wallop, a Republican senator from Wyoming, blasted the agency for spending money on super computers, saying that it should be investing in weapons—a criticism that ended up being terribly short sighted given the current importance of computing to almost all weapons.
Those questions aside, Darpa’s funding of the Arpanet, a precursor of the internet, an early prototype of stealth aircraft, and the Global Positioning System (GPS), have all contributed to making it something of a household name. The agency has also enjoyed recent publicity for some of its more far-out research, such as the Cheetah robot, a four-legged robot that can run at 46km/h (29mph).
Darpa is widely hailed as a success story—so much so, in fact, that its model of innovation has been copied—at least in name, among other government agencies, through the creation of  “Arpas” for energy, intelligence, and homeland security. Even Russia recently launched its own version of Darpa, though few, even in Russia, expect it to have the funding or reach that the original agency enjoys.
But even with public and political support, Darpa also faces cuts as part of sequestration, a budget deal that makes across-the-board reductions in spending. In recent congressional testimony, Prabhakar said that the agency was planning to delay one of its new cybersecurity programs, known as Plan X, by five months as a result of the budget reductions.
Beyond those immediate cuts, Prabhakar says there may be longer-term fiscal trends driving down the budget. “We believe we may be at the beginning of a fundamental shift in how society allocates resources to the business of national security,” she said.
Even with much heralded successes, Darpa also faces continuing questions of relevance: what is the role of a technology agency in an era when technology doesn’t always win - or lose - wars?  Though the document Darpa released this week revealed little new on the agency’s overall strategy, it did highlight some current interests, such as engineering biology, robotics, and neuroscience.
Indeed, defining Darpa’s overall purpose may prove the biggest challenge for an agency founded to help counter a technological threat from the Soviet Union, which ceased to exist over 20 years ago.
Asked, for example, what country might, given current US superiority, produce a surprise, Prabhakar’s answer was simple: “If it happens, it’ll be a surprise.”
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Crowded cities



BBC
Future

17 May 2013

Cities: How crowded life is changing us



How  crowded city life is changing us
(Copyright: Thinkstock)
More than half the world’s population are concentrated in urban areas, and this is having an effect not just culturally, but biologically too. And advances in technology are adding an entirely new dimension to people’s lives.
Cities cover just 3% of the planet's land surface, but are already home to more than half of its people. That means cities are bringing people into ever greater contact, where collectively they act as a giant physical, biological and cultural force. Transport links and communication between cities, from superhighways to express trains and planes, allow businesses to operate planet-wide, shrinking the human world and making the global local.
The great homogenisation of the Anthropocene includes human culture and lifestyle as much as any effect on the natural ecosystem. And cities are the biggest expression of that. They truly are universal. I feel at home in cities around the world precisely because they essentially provide the same experience. Some are more violent, or more sleepy, or more wealthy, but the urban environment is at its heart the same. There is not the vast diversity of landscape and experience that exists across the natural world.
The sheer concentration of people attracted by the urban lifestyle means that cosmopolitan cities like New York are host to people speaking more than 800 different languages – thought to be the highest language density in the world. In London, less than half of the population is made of white Britons – down from 58% a decade ago. Meanwhile, languages around the world are declining at a faster rate than ever – one of the 7,000 global tongues dies every two weeks.
It is having an effect not just culturally, but biologically: urban melting pots are genetically altering humans. The spread of genetic diversity can be traced back to the invention of the bicycle, according to geneticist Steve Jones, which encouraged the intermarriage of people between villages and towns. But the urbanisation occurring now is generating unprecedented mixing. As a result, humans are now more genetically similar than at any time in the last 100,000 years, Jones says.
The genetic and cultural melange does a lot to erode the barriers between races, as well as leading to novel works of art, science and music that draw on many perspectives. And the tight concentration of people in a city also leads to other tolerances and practices, many of which are less common in other human habitats (like the village) or in other species. For example, people in a metropolis are generally freer to practice different religions or none, to be openly gay, for women to work and to voluntarily limit their family size despite – or indeed because of – access to greater resources.
Virtual revolution
Now that the technology exists for individuals to communicate instantly with companies, government departments, to broadcast to millions or to specific groups over the internet, the city has gained an entirely new dimension. This “virtual city” of communities formed online, using social networks like Twitter or Facebook, is incredibly powerful and not necessarily limited to the geographical contours of the real city. Like-minded individuals can find each other easily, gathering in online forums or through hashtags and comment streams in the same way as special interest clubs and cafe movements coalesce in the real city. Virtual applications make it easier to sift through a crowd – the Grindr app, for example, allows gay people to find other users of the app in a public setting. Online clubs – like the shopping network Groupon – are attempting to personalise trade exchanges and perhaps develop a proxy for the relationship people might have with a neighbourhood store.
Those petitioning for social or political change can hold governments and companies accountable in a manner never possible before. Instead of ploughing through books of corporate ledgers in libraries, vast amounts of data are now published online and can be searched and filtered in minutes with algorithms, allowing journalists and other groups to discover corruption, tax evasion or other information of public interest. Such information can be self-published in seconds, where it is available for billions to see. In a few seconds, I can compare hospital cancer survival rates in my area or nationally, I can look up how much profit popular stores shift to offshore accounts to avoid taxation, or read hundreds of reviews of a product I’m thinking of buying.
The virtual and real cities are closely enmeshed. Information gathering and community building can take place more easily online than in the vast cities of the Anthropocene, where members of a group may live far from each other or be unable to meet easily for momentum-building. But the discussions and real-world changes these online gatherings initiate move easily to government chambers, mainstream media outlets in television, radio and press, or onto the streets. The Arab revolutions across Northern Africa and the Middle East since 2010 were coordinated via the virtual city of Twitter, Facebook, SMS messaging and other apps, but they took place on the streets and squares of the real cities, uniting flesh-and-blood individuals who had united online using computers and smartphones. Starbucks was compelled by a Twitter campaign to pay billions of pounds of tax to the UK government after its perfectly legal offshore tax evasion was revealed in 2012.
So the virtual city is as global as it is local. I can get hourly updates on air-pollution levels in my neighbourhood or buy a new battery for my phone from Korea. People from across the world can gather online to share ideas, pressure for change, innovate, spread their artistic talents or make friends. The virtual city provides a way of shrinking and filtering the real megacity, saving time and energy on real journeys across complicated spaces, of accessing multiple conversations with relative anonymity, and of individually helping steer humanity through collaborative creativity and problem solving. It enhances but doesn’t replace the real city with its face-to-face social cues, physical exchanges and wealth of information humans use to make judgements about trustworthiness and other value-laden decisions.
The virtual city does have a more problematic side, however. Never has there been so much information about so much of our lives in such an accessible form. In the course of a day, the average person in a Western city is said to be exposed to as much data as someone in the 15th century would encounter in their entire life. The digital birth of a baby now precedes the analogue version by an average of 3 months, as parents post sonogram images on Facebook and register their infant’s domain name before the child is even born. Governments, groups, individuals and corporations can access data about us and use it for their own purposes.
This erosion of individual privacy can be benign or malevolent, but it is already a part of life in the Anthropocene. Customer data collected by the US supermarket Target allows it to identify with a high degree of accuracy which shoppers have recently conceived and when their due date is. The store uses this information to target such women for advertising of its pregnancy and baby products in a timely fashion, even if she has not yet told anyone else. Sinister? Maybe. What about police officers identifying householders as marijuana growers by analysing energy use data? Or neighbours targeting individuals for cyber or physical bullying because of information they discover online? We’re all generating data, every time we make an ATM transactions or log onto a website. In the Anthropocene, we will have to decide who owns our data and whether it can be shared.
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How to survive future



BBC
Future

19 December 2012

How to survive the future


How to survive the future
(Copyright: Science Photo Library)
If any of our visions of technological revolution come true, then how will humans cope? Economist and futurist Robin Hanson presents his guide.
Like many people, economist and futurist Robin Hanson says he wants to live for as long as he can, but what would be the best way to do this? First, he says you could do all the things that will reduce your chance of dying now – like wearing seatbelts, avoiding dangerous activity and eating healthy food. 
Then there’s finding ways to get past the limitations of our bodies and current medicine, which could mean donating one’s body or brain to cryogenics. If something like whole brain emulation is possible you could take frozen brains of people, and make another version of that old brain.
Immortality is much harder than it seems. It’s not just a matter of finding the ways to potentially live forever, you have to do it in a way that makes it cheap and valuable enough to make it easy for you to stay around. Then there’s artificial intelligence. If the AI revolution comes, we can’t depend on our ability to earn wages for our survival and prosperity. Practically, we should diversify your assets and own things other than your ability to earn wages, like stocks, real estate, patents, etc. And when there’s a world with millions of robots, don’t count on being at the centre of things.
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Robots fire us


Mother Jones

Welcome, Robot Overlords. Please Don't Fire Us?

Smart machines probably won't kill us all—but they'll definitely take our jobs, and sooner than you think.