At first glance, looking at past predictions about the future of technology, prognosticators got a whole lot wrong. The Web is a garbage dump of inaccurate guesses about the year 2000, 2010 and beyond. Flying cars, robotic maids and jet packs still are nowhere near a reality.
Mother Nature Network Augmented reality robot brings us one step closer to 'Avatar' technology Mother Nature Network Japanese researchers with Different Dimension Inc., a start-up company working on augmented reality, have invented a robot that can...
mobile health adoption among patients is booming, with 53% of US adults in possession of a smartphone, and just over half of those users accessing medical information from their devices. With ownership rates and device capabilities expanding every day, physicians, pharmacists, and other medical professionals are using apps to make an impact during clinical visits and behind the scenes.
There are between 20,000 and 30,000 healthcare related apps available for Apple and Android platforms, and 17,000 of those are geared towards purely medical use. Pharmacist Timothy August, for example, told the Las Vegas Review-Journal that he uses a pill identification app on a daily basis, inputting the shape, size, and color of a medication and receiving the name of the pill almost instantly. The technology has become invaluable to him during his community outreach work when a patient has her pills in hand, but hasn’t brought the prescription bottle.
Medical calculators and reference information are also popular among doctors and students who need to check symptoms or want a quick refresher on a procedure. Epocrates, one of the oldest companies developing mobile apps for medical professionals, has over one million users of their drug reference software, and is now branching out to educational apps, like Anatomy on the Go and an echocardiography atlas, for use on standard smartphone devices as well as the iPad.
Patient education is one reason some physicians use smartphones in the exam room. John Cox, CEO of Visible Health, notes that “somewhere around the order of 80 percent of all information communicated between a physician and a patient is lost when a patient walks out of the room.” With Visible Health’s drawMD software, physicians can create personalized diagrams to explain tumors and other injuries without needing to take out a sketch pad and pencil. The diagram can be printed or emailed afterward, or added to the patient’s medical record, ensuring that the patient can retain the information and its context.
At Siggraph 2012 ElectricTV spoke with Bruce Bradshaw, Director of Marketing at Objet Inc. Bruce shares with us some thoughtful insights into the state of 3d printing now and into the future.
About Objet, via their website: "Objet Ltd., is the world's leading provider of advanced, inkjet-based 3D printing systems and materials. A global company, Objet has offices in North America, Europe, Japan, China, Hong Kong, and India. Objet's 3D printing systems and 3D printing materials are ideal for any company involved in the manufacture or design of physical products using 3D software or other 3D content. Companies using Objet's solutions can be typically found in sectors such as consumer goods & electronics, aerospace & defense, automotive, education, dental, medical and medical devices, architecture, industrial machinery, footwear, sporting goods, toys and service bureaus. "
Brain-computer interfaces are quickly becoming more advanced and accessible, and some of the ways they're being used are truly mind-boggling.
Why toil with the pressing of buttons or tilting of joysticks when controlling something can be as simple as thinking about it? This kind of technology may sound like the stuff of science fiction, but in reality, it’s actually been around for decades. The development of electroencephalography (EEG) technology can be traced back to the 1920′s, but it wasn’t until recently that we figured out a way to use neurofeedback to control electronic devices. Nowadays, we can use brain-computer interfaces (BCI’s) to control everything from prosthetic limbs, to robotic arms, cars, and even things as simple as your computer’s cursor.
In the past couple years, BCI technology has expanded in leaps and bounds. Not only are sensor technologies becoming more advanced, but companies like Emotiv and NeuroSky are working to make BCI headsets more affordable and available to consumers. Software development kits are available for most major EEG headsets, which means developers everywhere can tinker with the technology and help to expand its uses. Here’s a look at some of the latest developments in the world of mind control, including many you can buy today:
3D printing, or additive manufacture as it is also known, creates objects from a digital design using a machine that looks not unlike a conventional ink-jet printer, but using materials instead of ink to build up the object.
One of the critical changes occurring is the growing sophistication of the equipment, but also the fall in price and size. The $500 3D printer has now been made; as has a truly portable one that fits in a suitcase. This changes the level of accessibility and affordability.
The scale of what we can 3D print is also changing. At one end, the potential to 3D print a house cheaply and quickly is emerging – an application would be the production of emergency housing made in situ – which could then also be designed to ‘fit’ local terrain. Such an approach could be adapted for low cost housing, radical house renovations or high end bespoke room fittings.
At the other end of the scale are the development of 3D nano-printing and the use of cells. A recent experiment ‘broke the record’ for nano-printing, by making a model of a formula 1 car at nano-scale. Being able to operate effectively at that scale could revolutionise not only material sciences but almost any area of manufacture.
Robots have seemingly unlimited potential when it comes to search and rescue operations - they can enter hazardous environments, quickly map dangerous areas for first responders, and help establish communication links and a game plan for larger recovery and triage efforts. But in these scenarios, humans aren't going anywhere. We still need breathing, thinking bodies on the ground. So a team at MIT has built a wearable sensor pack that can "roboticise" human first responders, allowing the first person into a dangerous environment to digitally map it in realtime, just like a robot.
The prototype platform consists of a variety of sensors - accelerometers, gyroscopes, a camera, and a LiDAR (light detection and ranging) rangefinder, among others - affixed to a sheet of plastic roughly the size of a tablet computer, which is in turn strapped to the user's chest. These sensors wirelessly beam data to a laptop, allowing others to remotely view the user's progress through an environment. It also allows the sensor platform to build a digital map of the area as the user moves through it, providing the responders that follow with far more situational awareness than they would have otherwise.
Mind Control: Brain waves control this quadrotor. emergentfutures: Fly This Mind-Controlled Quadrotor Using Your Thoughts [VIDEO] Named Flying Buddy 2, the quadrotor doesn’t run on fuel, but rather on your brainwaves.
With StitchGuide, a photographer can take multiple photographs and accurately compose their final high-resolution panorama with a natural visualization of the placement of each image. The photographer can touch images in space to change how they are viewed or choose to delete a photo after it is snapped.
To create the StitchGuide capability, Cloudburst Research developed a new technology that uses not only the iPhone gyroscope to register images, but also actively tracks image locations by matching them in real time to the scene. This prevents drift while at the same time providing instantly updated registration, producing a compelling version of augmented reality that goes beyond that found in any other apps.
Using a commercial off-the-shelf brain-computer interface, researchers have shown that it's possible to hack your brain, forcing you to reveal information that you'd rather keep secret.
For $200-300, you can buy an Emotiv (pictured above) or Neurosky BCI, go through a short training process, and begin mind controlling your computer.
Both of these commercial BCIs have an API — an interface that allows developers to use the BCI’s output in their own programs. In this case, the security researchers — from the Universities of Oxford and Geneva, and the University of California, Berkeley — created a custom program that was specially designed with the sole purpose of finding out sensitive data, such as the location of your home, your debit card PIN, which bank you use, and your date of birth. The researchers tried out their program on 28 participants (who were cooperative and didn’t know that they were being brain-hacked), and in general the experiments had a 10 to 40% chance of success of obtaining useful information (pictured above).
Yet what most struck me came later on in proceedings, when the company’s co-founder and driving force behind the project, Sergey Brin, described his excitement at a moment when he threw his young son into the air while wearing the glasses. The spectacles had captured an image of the moment exactly as he himself had seen it. It was, Brin reported, “amazing... there was no way I could have that memory without this device." It’s a striking phrase, and it suggests to me the astonishing degree to which we are becoming able to outsource aspects of our minds and memories to the tools we carry with us.
It seems to be very mysterious to build the IPTV/ VoD. But setting up an IPTV network is very easy as long as you master some basic knowledge. IPTV networks are basically intranets, only the web browser isn’t on a PC, it is on a set-top box. If you’ve set up an intranet or public website, you can set up your own IPTV network and do what you want with it. You don’t need massive and expensive servers, specialized set-top boxes or overly large development teams working with complex software. With the right DVB hardware and software, it should take you less than a few hours.
The world just changed yesterday. You probably didn’t notice. But I guarantee strategists at Apple, Facebook, Amazon, Microsoft, and Google did. What happened? Qualcomm shipped a new contextual awareness platform for cell phones. Yesterday the Mobile 3.0 world arrived. First mobile was the standard old cell phone. You talked into it. The second mobile era was brought to us by the iPhone. You poked at a screen. The third era will bring us a mobile that saves us from clicking on the screen.
Sharing your scoops to your social media accounts is a must to distribute your curated content. Not only will it drive traffic and leads through your content, but it will help show your expertise with your followers.
How to integrate my topics' content to my website?
Integrating your curated content to your website or blog will allow you to increase your website visitors’ engagement, boost SEO and acquire new visitors. By redirecting your social media traffic to your website, Scoop.it will also help you generate more qualified traffic and leads from your curation work.
Distributing your curated content through a newsletter is a great way to nurture and engage your email subscribers will developing your traffic and visibility.
Creating engaging newsletters with your curated content is really easy.