Always Innovating is working on a tiny flying video camera called the
MeCam. The camera is designed to follow you around and stream live
video to your smartphone, allowing you to upload videos to YouTube,
Facebook, or other sites.
And Always Innovating thinks the MeCam could eventually sell for just $49.
The camera is docked in a nano copter with 4 spinning rotors to keep
it aloft. There are 14 different sensors which help the copter detect
objects around it so it won’t bump into walls, people. or anything else.
Always Innovating also includes stabilization technology so that videos shouldn’t look too shaky.
Interestingly, there’s no remote control. Instead, you can control
the MeCam in one of two ways. You can speak voice commands to tell it,
for instance, to move up or down. Or you can enable the “follow-me”
feature which tells the camera to just follow you around while shooting
paparazzi-style video.
The MeCam features an Always Innovating module with an ARM Cortex-A9 processor, 1GB of RAM, WiFI, and Bluetooth.
The company hopes to license the design so that products based on the MeCam will hit the streets in early 2014.
If Always Innovating sounds familiar, that’s because it’s the same company that brought us the modular Touch Book and Smart Book products a few years ago.
If the MeCam name sounds familiar, on the other hand, it’s probably
worth pointing out that the Always Innovating flying camera is not
related the wearable camera that failed to come close to meeting its fundraising goals last year.
Samsung has developed a new camera sensor technology
that offers the ability to simultaneously capture image and depth. The
breakthrough could potentially be applied to smartphones and other
devices as an alternative method of control where hand gestures could be
used to carry out functions without having to touch a screen or other
input. According to Tech-On, it uses a CMOS sensor with red, blue and green pixels, combined with an additional z-pixel for capturing depth.
The
new Samsung sensor can capture images at a resolution of 1,920x720
using its traditional RGB array, while it can also capture a depth image
at a resolution of 480x360 with the z-pixel. It is able to achieve its
depth capabilities by a special process whereby the z-pixel is located
beneath the RGB pixel array. Samsung’s boffins then placed a special
barrier between the RGB and z pixels allowing the light they capture to
give the effect that the z-pixel is three times its actual size.
In this early iteration of the new technology, Samsung used FSI
technology only. In future applications, BSI could be applied doubling
the quantum efficiency of the design further reducing cross-talk to the
RGB pixels.
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Personal Comment:
Some additional information on BSI (Backside illumination)/FSI (Frontside Illumination):