Moto G5 Plus Back - facing Camera Specs: • 12MP CMOS sensor with 1.4 µm pixel size • Dual Pixel autofocus • F1.7 aperture • 8x Digital Zoom • On - sensor phase detection • 1080p video • Dual - LED Flash • Sony IMX362 Exmor
RS Image Sensor
The 23 - megapixel 1/2.3 Exmor
RS image sensor is a lot like the one used in past devices, like the Xperia Z5 and Z5 Compact.
The Plus uses a 13MP Sony IMX278 Exmor
RS image sensor, f / 2.2 lens, Schneider optics, and adds laser auto - focus that is desirable on a larger phone like this.
The main camera on this smartphone is a 23MP one with a 1 / 2.3 - inch Exmor
RS image sensor from Sony.
The front camera is 13MP with 1/3.06» - inch Exmor
RS image sensor, 22 mm wide angle lens, and f / 2.0 aperture.
When you aren't dumping your phone in the bath, you can use its 13MP camera — outfitted with an Exmor
RS image sensor and other goodies — to help you snap quality images in a variety of lighting conditions.
With the high - sensitivity Exmor
RS image sensor and high ISO, you can capture high - quality portraits, even in low lighting.
On the hardware side, Sony Xperia SP comes with a 1.7 GHz Qualcomm Snapdragon S4 Pro dual - core processor, 1 GB RAM, 8 GB internal storage, 4.6 - inch touchscreen TFT display with 1280 x 720 pixels resolution and Mobile BRAVIA Engine 2, 0.3 - megapixel front - facing webcam, and 8 - megapixel rear camera with auto focus, pulsed LED flash and Exmor
RS image sensor technology and HDR support.
And while the former features the company's Exmor
RS image sensor, the latter has the Exmor R CMOS sensor.
The Xperia arc s will arrive with the same 4.2 - inch reality display and the Sony Mobile Bravia engine as the first device, along with the same 8.1 megapixel camera that has the Exmor
R image sensor that captures images in low light.
Besides that, we also find out the camera sensors are made by Omnivision, with the OV13860 PureCel -
S image sensor for the rear while the selfie camera uses a 5 MP OmniVision OV5648.
Not exact matches
The Bounce ball, equipped with a camera and motion
sensors, sends
images and data to a smartphone to provide emergency personnel with an idea of what
's inside the potentially dangerous space they
're about to enter.
Schilowitz, an expert in the workings of video technology, had investigated, and he had come back to Jannard with the bad news: Though every element of this hypothetical camera, from the body to the software, would
be tough to develop, the
sensor — the light - sensitive chip that replaces film in capturing an
image —
was a doozy.
The camera
sensor is always on too, so you don't have to wait that extra beat for the
image to appear on your screen.
In the former category,
is Sony's lucrative digital
image sensor business that provides the chips for pretty much every smartphone worth a damn.
The ability to take pictures in low light or to capture professional - looking HDR
images has
been achieved through software developments, like Almalence's own super
sensor, which
is used on millions of smartphones around the world today.
TOMRA Sorting Tobacco
is able to deliver this by combining Cerberus's EM
sensor with its SUPPIX ®
image processing technology which has
been successfully used by TOMRA's global recycling business for over fifteen years.
At AUTOMATICA 2012 and going forward, developments in
sensor technology such as 3 - D
image acquisition systems and the use of force / torque
sensors will
be obvious trends as a new generation of human - friendly assistance systems emerges.
CMOS
sensors are more sensitive than the kind used in DSLR cameras, so a CMOS camera will produce clearer, crisper
images.
The 24.2 MP resolution CMOS
sensor is capable of capturing a large ISO range for exceptional
image quality.
Unlike most film cameras, it features a high - end 10MP
sensor that captures
images on an SD card and
is then able to print them out as well.
As a result, the larger the
sensor, the better the overall
image quality will
be.
The CMOS
image sensor captures sharp, stunningly clear photos and videos, and
is ideally suited for both beginners and experts alike.
This Sea - viewing Wide Field - of - view
Sensor (SeaWiFS)
image, which
was captured on June 27, 2000, shows two large blooms.
The built - in CMOS
image sensor ensures that the dynamic range of your
images is excellent.
Despite
being a tiny camera, it shoots full 1080p HD video and captures
images at a very impressive 16MP, thanks to a great CMOS
image sensor usually seen in much larger devices.
Examples of projects include: Cyclesense — CENS
is designing an application that runs on mobile phones that enables bike commuters to log their bike route using GPS and provide geo - tagged annotations (
images, text notes) along with automatic
sensor data (accelerometer / sound) to infer the roughness and traffic density of the road.
The # 1.3
m Engineering and Physical Sciences Research Council - funded project will see academics working with newly - developed dynamic visual
sensors, which drastically reduce computing power and data storage requirements by only updating the parts of an
image where movement occurs.
But that only solved part of the challenge, because no attachment would
be enough to compensate for the difference in quality between smartphone cameras»
image sensors and lenses and those of high - end lab equipment.
In today's minicams, the
image sensors and support circuitry
are on separate microchips, and most of the power goes on communication between the chips.
The resulting
image can
be read by a
sensor and converted back into 1s and 0s.
Full 180 degree fields of view with zero aberrations can only
be accomplished with
image sensors that adopt hemispherical layouts.
«Full 180 - degree fields of view with zero aberrations can only
be accomplished with
image sensors that adopt hemispherical layouts — much different than the planar CCD chips found in commercial cameras,» said Rogers, a Swanlund Chair Professor, of the new camera.
It
was designed to test a number of new technologies for planetary exploration, including a camera capable of sending 360 - degree video
images to operators back home,
sensors and metal detectors for uncovering meteorites, and a new navigational system called safeguarded teleoperation.
There
's also the Fine Guidance
Sensor (FGS) allows Webb to point precisely, so that it can obtain high - quality
images.
That
image, however,
was taken with ultraviolet and infrared
sensors; this
is the first time Cassini has taken a snapshot of our pale blue dot in its true colors.
For this study, a tumor cell line
was transplanted into a rat and
imaged with each of the following: conventional MRI, the radiotracer carbon - 13 (C - 13) pyruvate and hyperpolarized MRI at a resolution of 2.5 mm, Medipix positron detector, luminescence
sensor and a fluorescence microscope.
In compressive imaging, since we aren't using pixelated
sensors, it should
be less sensitive to light scrambling and enable transmission of
images through scattering.»
If the light
is split into millions of pixels, each
sensor receives a tiny fraction of light, creating noise and destroying the
image.
However, because the light coming into the
sensor has to pass through several layers of metal before reaching the silicon, which
is a weak light absorber, the
sensor detects only about 25 percent of the light that makes up the
image, says Sargent, who
is also a professor of electrical and computer engineering and Canada research chair in Nanotechnology at the University of Toronto.
These features should enable the artificial intelligence to
be used in a broad range of societal applications such as
image / voice recognition, wearable terminals,
sensor networks and nursing - care robots.
With this in mind, the researchers with the Illinois State Geological Survey
are testing equipment that has never
been used before with carbon sequestration, including seismic
sensors that use vibrational energy to create a detailed
image of the gas plume.
The generated waves
are then detected by an ultrasonic
sensor to form photoacoustic
images of the tissues.
The i - Mouse
is a new user interface for smart glasses in which the gaze -
image sensor (GIS) and object recognition processor (ORP)
are stacked vertically to form a small chip.
A device called a coronagraph can
be built into a telescope to block most of the photons from a distant star's glow, allowing the dim light from a planet to pass into the telescope's
sensors and create a glare - free
image.
This
is 1000 times the intensity range, and 100 times the speed of conventional electron microscope
image sensors.
A three - dimensional
image can
be created by towing a number of cables with
sensors on them and essentially combining a series of two - dimensional
images into a three - dimensional one.
We have known about the
sensors that starfish have at the ends of their arms for 200 years, but no one knew whether they
are real eyes that form
images or simply structures that detect changes in light intensity.
«We expect that the quality of the
images achieved using this technique will continue to improve as higher - resolution cameras with larger
sensors and better
image stabilization
is incorporated into newer smartphones.»
Olson says Gray himself had worked on methods to calculate wind and drift direction from buoys and other
sensor data: «He collaborated with people on satellite
image data capture and analysis and sea surface data capture and analysis, and these people now
are using their professional skills in the search.»