CTO Clive Brown announces new Oxford Nanopore sequencing and library prep devices during his keynote address to the company’s user group conference
Stop the presses! Not something we call on a regular bases at FLG towers because, well, our work is largely digital. But when the latest news from Oxford Nanopore landed on our desks this afternoon, this old print journalism adage felt rather apt.
Your daily round-up of some of the other security stories in the news
Groupon grief – was it password reuse?
The Telegraph reports that crooks have hijacked a number of Groupon accounts and used them to purchase expensive items like games consoles, iPhones and holidays. Some victims have suffered thousands of pounds of losses.
A column on #transhumanism I did for Flaunt:
Are you ready for the future? A Transhumanist future in which everyone around you—friends, family, and neighbors—has dipped into the cybernetic punch bowl? This is a future of contact lenses that see in the dark, endoskeleton artificial limbs that lift a half-ton, and brain chip implants that read your thoughts and instantly communicate them to others. Sound crazy? Indeed, it does. Nevertheless, it’s coming soon. Very soon. In fact, much of the technology already exists. It’s being sold commercially at your local superstore or being tested in laboratories right now around the world.
We’ve all heard about driverless test cars on the roads and how doctors in France are replacing people’s hearts with permanent robotic ones, but did you know there’s already a multi-billion dollar market for brainwave-reading headsets? Using electroencephalography (EEG) sensors that pick up and monitor brain activity, NeuroSky’s MindWave can attach to Google Glass and allow you to take a picture and post it to Facebook and Twitter just by thinking about it. Other headsets allow you to play video games on your iPhone with only your thoughts as well. In fact, a few months ago, the first mind-to-mind communication took place. A researcher in India projected a thought to a colleague in France, and using their headsets, they understood each other. Telepathy went from science fiction to reality, just like that.
The history of cybernetics—sometimes used to describe robotic implants, prosthetics, and cyborg-like enhancements in the human being and its experience—has come a long way since scientists began throwing around the term in the 1950s. What a difference a generation or two makes. Today a thriving pro-cyborg medical industry is setting the stage for trillion-dollar markets that will remake the human experience. Five million people in America suffer from Alzheimer’s, but a new surgery that involves installing brain implants is showing promise in restoring people’s memory and improving lives. The use of medical and microchip implants, whether in the brain or not, are expected to surge in the coming years. NBC News recently reported that many Americans will likely have chip implants within a decade’s time. It’s truly a new age for humans.
Standing proud at the forefront of all this change is the fascinating biohacker culture, where extreme inventors and innovators are leading the way by sticking RFID tracking chips in their bodies, permanent wireless headphones near their eardrums, and magnets in their fingers.
Tune In, Take Control.
With OV, your day becomes more productive, enjoyable, and just a whole lot easier. Use your voice to play a song, order groceries and check the news. Switch seamlessly between the best music and calls, voice commands and real world conversations, without missing a beat and without touching your phone.
Researchers from the Tyndall National Institute in Cork have created micro-structures shaped like small pyramids that can create entangled photons. Does this mean that quantum computers are closer than we realize?
Quantum computers have been the stuff of science fiction for the past few decades. In recent times, quantum computers have slowly become more of a reality with some machines successfully solving real world problems such as games and path finding algorithms.
But why are quantum computers so desired by tech firms and why is there so much research into the field? Silicon has been incredibly loyal to the tech world for the past 50 years, giving us the point contact transistor in 1947. Now, silicon is at the center of technology with computers, tablets, smartphones, the IoT, and even everyday items. In fact, you cannot walk down a city street without being in range of some Wi-Fi network or influence from a small silicon device.
New article on immigration and AI in The Guardian. https://www.theguardian.com/technology/2016/dec/14/donald-trump-tech-summit-immigration-automation #future
All of this could be under threat if we are to take some of the comments the Trump campaign made in the run-up to the election at face value. The outspoken candidate claimed that Mark Zuckerberg’s push for specialist H1B visas (the main visa used to hire foreign talent to tech companies) was a threat to jobs for American women and minorities. Meanwhile, Trump’s chief strategist Steve Bannon suggested that Asians have too much power in Silicon Valley.
About a dozen members of Silicon Valley’s elite – including Apple CEO Tim Cook, Alphabet CEO Larry Page, Microsoft CEO Satya Nadella and Facebook COO Sheryl Sandberg – will meet with Trump in New York. The meeting is likely to provide an opportunity for them to highlight their concerns and priorities with the incoming administration.
Trump was critical of Silicon Valley business practices during his campaign – from wanting Apple to stop making phones in China to saying Amazon founder Jeff Bezos bought the Washington Post to exert political power and avoid paying taxes.
“If you look at the history of Silicon Valley, it’s clear that drawing on immigrants has been a big part of the vitality, creativity and success of that entrepreneurial melange,” said Marjory Blumenthal, senior policy analyst at Rand Corporation.
A successful production trial by Australian battery technology innovator Nano-Nouvelle has proved its pioneering nanotechnology supports industrial-scale manufacture, with output rates 100 times faster.
The Sunshine Coast-based company is developing world-leading nanotechnology that can boost the energy storage capacity of lithium ion batteries by as much as 50 per cent. Lithium ion batteries are used in devices ranging from mobile phones and notebooks to and electric vehicles and home energy storage systems.
As well as proving its technology, Nano-Nouvelle has worked with companies worldwide to ensure its battery-boosting breakthrough is usable with today’s production lines.
The following press release was written and and published by the Defense Advanced Research Projects Agency (DARPA) and originally published on their website. Click here to see the original version of this post.
On a recent sunny fall day in the nation’s capital, several hundred volunteers—each toting a backpack containing smartphone-sized radiation detectors—walked for hours around the National Mall searching for clues in a “whodunit” scavenger hunt to locate a geneticist who’d been mysteriously abducted. The geneticist and his abduction were fictitious. But the challenge this scavenger hunt was designed to address is real: The need to detect even small quantities of radioactive material that terrorists might try to bring into an urban area with the intent of detonating a “dirty bomb,” or worse. By getting volunteers to walk all day looking for clues, the DARPA-sponsored exercise provided the largest test yet of DARPA’s SIGMA program, which is developing networked sensors that can provide dynamic, real-time radiation detection over large urban areas.
A key element of SIGMA, which began in 2014, has been to develop and test low-cost, high-efficiency, radiation sensors that detect gamma and neutron radiation. The detectors, which do not themselves emit radiation, are networked via smartphones to provide city, state, and federal officials real-time awareness of potential nuclear and radiological threats such as dirty bombs, which combine conventional explosives and radioactive material to increase their disruptive potential. Following a demonstration earlier this year with the Port Authority of New York and New Jersey involving more than 100 SIGMA sensors, the 1,000-detector deployment in Washington, D.C., marked the largest number of SIGMA mobile detectors ever tested at one time and was a demonstration of the program’s ability to fuse the data provided by all those sensors to create minute-to-minute situational awareness of nuclear threats.
Ukrainian scientist Vladislav Kiselev claims that he has developed a type of battery that can power gadgets like smartphones and even cars for up to 12 years, without having to be recharged.
Kiselev, a senior researcher at the Institute of Bioorganic Chemistry and Petrochemistry in Kiev, and professor at Ukraine’s National Academy of Sciences, unveiled his intriguing battery prototype during the 2016 edition of Sikorsky Challenge, a prestigious international competition for research projects. The matchbox-like device looks fairly unimpressive, but the Ukrainian scientist claims that it has been continuously powering electrical devices for a year and four months without a single recharge, and will continue to do so for the next 11 years. That’s because his “battery” produces energy instead of simply storing it.
