Glass without the glasses: Google patents smart contact lens system with a CAMERA built in
- Lens has camera built in
- Could be developed to help the blind see and give them guidance
- Could also give wearer 'supervision' with ability to zoom
- Could shrink Glass to fit on a pair on lenses
- Firm already developing lenses with screen and medical sensors built in
- Project developed in secretive Google X lab
Google has patented a smart contact lens that could see its Glass wearable computer fit inside a smart lens.
The firm has already developed a contact lens for diabetics analyses their tears, warning them if their glucose levels are low.
Now it has revealed plans for a lens with a camera built in - opening the possibility of its Glass system being shrunk down significantly, offering features such as 'superzoom' to wearers and even helping the blind see.
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Glass without the glass: Google patent contact lens camera
HOW IT WORKS
The Google lens contains a control circuit, an image capture (camera) component and an image sensor.
The system can be wirelessly linked to a mobile phone for data access and to issue commands via audio, although it is unclear if the lens would be powered wirelessly or have a wired link to a battery.
The system can be wirelessly linked to a mobile phone for data access and to issue commands via audio, although it is unclear if the lens would be powered wirelessly or have a wired link to a battery.
'For example, a blind person wearing Google's contact lens with a built-in camera may be walking on a sidewalk and approaching an intersection,' it says.
'The analysis component of the contact lens can process the raw image data of the camera to determine processed image data indicating that the blind person is approaching intersection with a crosswalk and establish that there is a car approaching the intersection.'
The lens also has wireless capabilities allowing it to link to a smartphone, which can be used to process data and give the user audio commands.
Google also says the system will be able to detect faces, potentially allowing the blind to recognise people.
The firm has already developed a smart lens capable of measuring the glucose level of diabetics.
The technology could eventually allow Google to shrink its Glass computer (pictured) into a contact lens
Google is testing a prototype for a smart
contact lens that we built to measure glucose in tears continuously
using a wireless chip and miniaturized glucose sensor.
HOW IT WORKS - DIABETIC'S LENS
The
smart contact lens can measure glucose levels in tears using a tiny
wireless chip and miniaturized glucose sensor that are embedded between
two layers of soft contact lens material.
Prototypes generate a reading once per second.
Google is also investigating the potential for this to serve as an early warning for the wearer, integrating tiny LED lights that could light up to indicate that glucose levels have crossed above or below certain thresholds.
Prototypes generate a reading once per second.
Google is also investigating the potential for this to serve as an early warning for the wearer, integrating tiny LED lights that could light up to indicate that glucose levels have crossed above or below certain thresholds.
'But you may not be familiar with the daily struggle that many people with diabetes face as they try to keep their blood sugar levels under control.
'Uncontrolled blood sugar puts people at risk for a range of dangerous complications, some short-term and others longer term, including damage to the eyes, kidneys and heart.
'A friend of ours told us she worries about her mom, who once passed out from low blood sugar and drove her car off the road'
The project's co-founders, Brian Otis and Babak Parviz, say they hope the technology could eventually become commonplace.
How it works: The chip includes a sensor, chip and antenna to let wearers know when their glucose levels are dangerously low
The firm is already in discussion with the FDA over the project
'We’re now testing a smart contact lens that’s built to measure glucose levels in tears using a tiny wireless chip and miniaturized glucose sensor that are embedded between two layers of soft contact lens material,' they said.
'We’re testing prototypes that can generate a reading once per second.
How they are made: The process starts with a
tiny chip, which is then mounted on a ring with the antenna and sensor,
and finally mounted onto the lens.
The technology is sandwiched inbetween two lenses
'We’re also investigating the potential for this to serve as an early warning for the wearer, so we’re exploring integrating tiny LED lights that could light up to indicate that glucose levels have crossed above or below certain thresholds.
'It’s still early days for this technology, but we’ve completed multiple clinical research studies which are helping to refine our prototype.
'We hope this could someday lead to a new way for people with diabetes to manage their disease.'
The firm is in discussions with the FDA, but says 'there’s still a lot more work to do to turn this technology into a system that people can use.
It hopes to work with other medical firms to develop the lenses and other smart health monitoring devices.
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Google Buys Drone Company Titan Aerospace
by Jay Yarow
(See link for video:)http://www.businessinsider.com/google-buys-drone-company-titan-aerospace-2014-4
Google has acquired drone maker Titan Aerospace, the Wall Street Journal reports.
Titan is a New Mexico-based company that makes high-flying solar powered drones.
There's no word on the price Google paid, but Facebook had been in talks to acquire the company earlier this year for a reported $60 million. Presumably, Google paid more than that to keep it away from Facebook.
It sounds like Titan will work on a variety of projects for Google.
- Titan will be able to collect photos from around the planet from high up, which could help with Google Earth and Google Maps.
- It will also contribute to Google's Project Loon, which is sending balloons into the atmosphere which then beams Internet to parts of the world that are not yet connected.
- It's also likely to work with Makani, another company Google bought, that gets wind power high in the sky, and delivers the energy back to earth through a long cable.
Titan's drones could potentially be in the air for five years at a time, relying on solar power to stay aloft, according to a report from last year.