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Google Cardboard
Lo-fi simplified VR from Google I/O is an open-source solution to view steroscopic content on the web with your Android smartphone.
This isn’t the first of it’s kind (there is FOV2GO and many independent efforts) but this is certainly a decent framework and platform ready for experimentation. It’s nothing that will compete with high end technology (although that has benefited from developments in smartphone components such as gyroscopes and displays).
Below is a video from the I/O conference - it is 45 minutes long and a lot is focused on the development side, but the first 15 minutes will give you a good idea about what can be possible:
Virtual reality has made exciting progress over the past several years. However, developing for VR still requires expensive, specialized hardware. Thinking about how to make VR accessible to more people, a group of VR enthusiasts at Google experimented with using a smartphone to drive VR experiences.
The result is Cardboard, a no-frills enclosure that transforms a phone into a basic VR headset, and the accompanying open software toolkit that makes writing VR software as simple as building a web or mobile app.
By making it easy and inexpensive to experiment with VR, we hope to encourage developers to build the next generation of immersive digital experiences and make them available to everyone.
All the instructions + designs and more information can be found at the project homepage here
A kit with everything you will need with all the pieces can be ordered from Dodocase here
A collection of experiments ready for this system can be found here
This isn’t Minority Report.
// Nice default summary. Here’s a bit more:
The Los Angeles Police Department, like many urban police forces today, is both heavily armed and thoroughly computerized. The Real-Time Analysis and Critical Response Division in downtown LA is its central processor. Rows of crime analysts and technologists sit before a wall covered in video screens stretching more than 10 metres wide. Multiple news broadcasts are playing simultaneously, and a real-time earthquake map is tracking the region’s seismic activity. Half-a-dozen security cameras are focused on the Hollywood sign, the city’s icon. In the centre of this video menagerie is an oversized satellite map showing some of the most recent arrests made across the city – a couple of burglaries, a few assaults, a shooting.
[read more]
Paracosm’s Demo for Project Tango Tablet
A brief insight from Paracosm showing the Project Tango tablet in action, and a taste of computational photography for all - video embedded below:
Paracosm has built an app which showcases its cloud-based 3D-reconstruction API for use with Google’s new Project Tango tablet …
…
According to Paracosm’s lead engineer on the project, Quinn Martin, the tablet provides a better medium for showcasing what the technology can do.
“The device feels natural, comfortable and provides a much more immersive experience,” said Martin. Equipped with the Tegra K1, the tablet’s processing power is a big step up from the first Tango device. “When we were working on dense mapping for the Peanut (phone), we were extremely limited in what we could do. The K1 is essentially like a GPU found in a laptop. It’s the first of its kind.”
More Here
New Device Allows Brain To Bypass Spinal Cord, Move Paralyzed Limbs
For the first time ever, a paralyzed man can move his fingers and hand with his own thoughts thanks to an innovative partnership between The Ohio State University Wexner Medical Center and Battelle.
Ian Burkhart, a 23-year-old quadriplegic from Dublin, Ohio, is the first patient to use Neurobridge, an electronic neural bypass for spinal cord injuries that reconnects the brain directly to muscles, allowing voluntary and functional control of a paralyzed limb. Burkhart is the first of a potential five participants in a clinical study.
“It’s much like a heart bypass, but instead of bypassing blood, we’re actually bypassing electrical signals,” said Chad Bouton, research leader at Battelle. “We’re taking those signals from the brain, going around the injury, and actually going directly to the muscles.”
The Neurobridge technology combines algorithms that learn and decode the user’s brain activity and a high-definition muscle stimulation sleeve that translates neural impulses from the brain and transmits new signals to the paralyzed limb. In this case, Ian’s brain signals bypass his injured spinal cord and move his hand, hence the name Neurobridge.
Burkhart, who was paralyzed four years ago during a diving accident, viewed the opportunity to participate in the six-month, FDA-approved clinical trial at Ohio State’s Wexner Medical Center as a chance to help others with spinal cord injuries.
“Initially, it piqued my interested because I like science, and it’s pretty interesting,” Burkhart said. “I’ve realized, ‘You know what? This is the way it is. You’re going to have to make the best out of it.’ You can sit and complain about it, but that’s not going to help you at all. So, you might as well work hard, do what you can and keep going on with life.”
This technology has been a long time in the making. Working on the internally-funded project for nearly a decade to develop the algorithms, software and stimulation sleeve, Battelle scientists first recorded neural impulses from an electrode array implanted in a paralyzed person’s brain. They used that data to illustrate the device’s effect on the patient and prove the concept.
Two years ago, Bouton and his team began collaborating with Ohio State neuroscience researchers and clinicians Dr. Ali Rezai and Dr. Jerry Mysiw to design the clinical trials and validate the feasibility of using the Neurobridge technology in patients.
During a three-hour surgery on April 22, Rezai implanted a chip smaller than a pea onto the motor cortex of Burkhart’s brain. The tiny chip interprets brain signals and sends them to a computer, which recodes and sends them to the high-definition electrode stimulation sleeve that stimulates the proper muscles to execute his desired movements. Within a tenth of a second, Burkhart’s thoughts are translated into action.
“The surgery required the precise implantation of the micro-chip sensor in the area of Ian’s brain that controls his arm and hand movements,” Rezai said.
He said this technology may one day help patients affected by various brain and spinal cord injuries such as strokes and traumatic brain injury.
Battelle also developed a non-invasive neurostimulation technology in the form of a wearable sleeve that allows for precise activation of small muscle segments in the arm to enable individual finger movement, along with software that forms a ‘virtual spinal cord’ to allow for coordination of dynamic hand and wrist movements.
The Ohio State and Battelle teams worked together to figure out the correct sequence of electrodes to stimulate to allow Burkhart to move his fingers and hand functionally. For example, Burkhart uses different brain signals and muscles to rotate his hand, make a fist or pinch his fingers together to grasp an object, Mysiw said. As part of the study, Burkhart worked for months using the electrode sleeve to stimulate his forearm to rebuild his atrophied muscles so they would be more responsive to the electric stimulation.
“I’ve been doing rehabilitation for a lot of years, and this is a tremendous stride forward in what we can offer these people,” said Mysiw, chair of the Department of Physical Medicine and Rehabilitation at Ohio State. “Now we’re examining human-machine interfaces and interactions, and how that type of technology can help.”
Burkhart is hopeful for his future.
“It’s definitely great for me to be as young as I am when I was injured because the advancements in science and technology are growing rapidly and they’re only going to continue to increase.”
Onstage at TED2014, Charlie Rose interviews Google CEO Larry Page about his far-off vision for the company. It includes aerial bikeways and internet balloons … and then it gets even more interesting, as Page talks through the company’s recent acquisition of Deep Mind, an AI that is learning some surprising things.
James Dyson Award-winning robotic arm can make you superhuman
A battery-powered robotic arm designed to give humans a power boost was declared winner of the 2013 James Dyson Award. The Titan Arm, devised by mechanical engineer students from the University of Pennsylvania, can help people lift an extra 40 pounds – or help those with back injuries rebuild and get moving.
The exoskeleton arm was 3D-printed using recyclable plastic, making it waterproof and ergonomic. According to the team, the Titan Arm costs $2,000 to produce compared to similar exoskeletons that are currently upwards of $100,000.
(via James Dyson Award-winning robotic arm can make you superhuman - The Next Web)
The Defense Advanced Research Projects Agency has been driven up a wall — a vertical glass wall — with new tech inspired by geckos (and probably Stan Lee).
DARPA says its “Z-Man” program is all about developing “biologically inspired climbing aids to enable warfighters to scale vertical walls,”
the agency claims to have created technology that allows a 218-pound man carrying an additional 50 pounds in weight to scale 25 feet of vertical glass…
Apple’s announcement of HealthKit is overshadowing the real innovation in biotech: personal devices like the Cue.
Last week Apple announced the long-awaited HealthKit framework, a smartphone dashboard for tracking health information, at its WWDC conference. But the founders of Cue—a hardware device that puts lab-quality medical testing in the hands of consumers—are already one step ahead.
“They’re just kind of tipping their toes into it, aggregating information from different devices. This goes one level deeper,” says cofounder and CEO Ayub Khattak, as he demonstrates howCue works.
HealthKit is a data interface, but Cue gets under the skin: The device processes biofluid samples in real time, enabling a form of self-diagnosis that leaves resources like WebMD in the dust. Worried that you might have the flu? Take a sample from your nose using the Cue wand, load the wand into a pale green cartridge roughly the size of a thumb drive, and within minutes the results appear in the Cue app, via Bluetooth.
New RFID Tag Could Mean the End of Bar Codes
Lines at the grocery store might become as obsolete as milkmen, if a new tag that seeks to replace bar codes becomes commonplace.
Researchers from Sunchon National University in Suncheon, South Korea, and Rice University in Houston have built a radio frequency identification tag that can be printed directly onto cereal boxes and potato chip bags. The tag uses ink laced with carbon nanotubes to print electronics on paper or plastic that could instantly transmit information about a cart full of groceries.
“You could run your cart by a detector and it tells you instantly what’s in the cart,” says James M. Tour of Rice University, whose research group invented the ink. “No more lines, you just walk out with your stuff.”
RFID tags are already used widely in passports, library books and gadgets that let cars fly through tollbooths without cash. But those tags are made from silicon, which is more expensive than paper and has to be stuck onto the product as a second step.
Lots of tech news today..
Radical human brain modification using high-powered lasers has been perfected
Pinpoint fixing of trouble zones in your brain just got real. Enter the new Visuolase fiber-optic laser: 15 Watts of liquid-cooled, catheterized laser persuasion. When mated to a ROSA medical robot, this device makes the brain-fixer mech from Ender’s Game look downright primitive. Even the most stubborn neurons will be conformed. It’s not just the laser that makes this new medical virtuosity the experience of a lifetime, it’s the unreal, futuristic technology pipeline that now awaits. From the salubrious gauntlet we will detail below, even the most humble plebs who aspire to any of the device trials now in full swing can make of themselves a medical celebrity.
[Read More]
Lowe’s creates holodeck-like room for customers to try out renovations
It is essentially a 3D augmented reality area, where customers use a specially designed tablet to first recreate the room in their home they want to renovate.
The Holoroom, created by tech consultancy SciFutures and Lowe’s Innovation Labs, is being tested in stores, and is expected to soon become an app for home use.
Breakthrough allows future drugs to break through antibiotic resistant bacterial cells
New research published today in the journal Nature reveals an Achilles’ heel in the defensive barrier which surrounds drug-resistant bacterial cells. The findings pave the way for a new wave of drugs that kill superbugs by bringing down their defensive walls rather than attacking the bacteria itself. It means that in future, bacteria may not develop drug-resistance at all. READ MORE ON UNIVERSITY OF EAST ANGLIA
12 Futuristic Forms of Government That Could One Day Rule the World
As history has repeatedly shown, political systems come and go. Given our rapid technological and social advances, it’s a trend we can expect to continue. Here are 12 extraordinary — and even frightening — ways our governments could be run in the future.
Full Story: i09