Its second rear camera's 2x optical zoom benefits
from optical image stabilisation (OIS).
Modes on the main cameras include 4K video recording, which benefits
from the optical image stabilization and some software stabilization, that results in somewhat unnatural looking movements.
Not exact matches
EverNote uses
optical character recognition to parse text
from an
image and store it so it can be retrieved at a later date.
As seen in the
image below taken
from his Instagram account, the former AC Milan and Chelsea forward has found the Liverpool boss's face is actually on his knee in a weird
optical illusion.
Optical interferometry at CHARA requires collecting the light beams
from six different telescopes, sifting through multiple gigabytes of data, and then combining the beams to synthesize the kind of
image that otherwise would be possible only with an enormous space telescope.
Taking an
optical image of distant planets is tough because the bright light
from their stars drowns them out.
The background
image includes
optical and near - infrared imaging
from both the Gemini South and ESO Very Large Telescope.
The gravitational pull of matter in the cluster bends and twists the light
from more distant galaxies, producing a plethora of strange
optical effects ranging
from distorted arcs to multiple
images of the same background object.
This new
image of GK Persei contains X-rays
from Chandra (blue),
optical data
from NASA's Hubble Space Telescope (yellow), and radio data
from the National Science Foundation's Very Large Array (pink).
The
image is a compotie of the i - band data (in red)
from the Hyper Suprime - Cam at the Subaru Telescope and R - band (in green) and V - band (in blue)
images from the Mayall 4 - m telescope at the Kitt Peak National Observatory of National
Optical Astronomy Observatory.
The very first
images came
from its
optical channels.
With additional funding support
from NIBIB, Wang recently overcame the
optical diffusion limit, which is the depth at which light can be used to take
images of tissues in the body by other existing high - resolution imaging technologies.
Blandford: Well, analyzing the radio,
optical and x-ray and now gamma ray
images of jets and data
from jets have helped us to understand that they are moving at relativistic speed.
Built
from «metamaterials» with bizarre, controversial
optical properties, a superlens could produce
images that include details finer than the wavelength of light that is used
We crafted ultrathin light sheets
from two - dimensional
optical lattices that allowed us to
image three - dimensional (3D) dynamics for hundreds of volumes, often at subsecond intervals, at the diffraction limit and beyond.
The new microscope is essentially three microscopes in one: an adaptive
optical system to maintain the thin illumination of a lattice light sheet as it penetrates within an organism, and another adaptive
optical system to create distortion - free
images when looking down on the illuminated plane
from above.
One of these two photons is detected by a photodiode and used to trigger an acousto -
optical modulator, causing it to divert the second photon to a tapered
optical fiber directed at a pipette containing a rod cell
from a frog's eye (see
image).
In addition,
optical and radar
images of the surface show signs of cryovolcanism — geyserlike eruptions of ammonia - water ice — which also indicates that material wells up
from the interior.
The 45 - centimeter Dutch Open Telescope (DOT) could open the door to bigger solar
optical telescopes by eliminating the need for putting the telescope mirror in a vacuum to prevent heat
from distorting the
image.
The CARS
images were acquired with a Leica TCS SP8 CARS system (Leica Microsystems, Mannheim, Germany) consisting of a TCS SP8 confocal microscope combined with a picoEmerald laser (APE, Berlin, Germany) offering a fixed Stokes laser line of 1064.5 nm and a tuneable Pump line
from an
optical parametric oscillator (780 nm — 940 nm).
In addition, all three stars (including Proxima) were among the «Tier 1» target stars for NASA's
optical Space Interferometry Mission (SIM) to detect a planet as small as three Earth - masses within two AUs of its host star (and so some summary system information and
images on Stars A, B, and C are available
from the SIM Teams), but the SIM project manager announced on November 8, 2010 that the mission was indefinitely postponed due to withdrawal of NASA funding.
This technology is a nondestructive
optical clearing agent offering a high level of transparency that greatly reduces problems with light scattering and enables high resolution
images to be captured
from biological tissues.
From ESA: «This
image shows two polished test mirror segments being inspected by an
optical engineer: one segment with the gold coating already applied, the other without.
The main panel shows X-rays
from Chandra (purple) that have been overlaid on an
optical image from Hubble.
It was also selected as a «Tier 1» target star for NASA's
optical Space Interferometry Mission (SIM) to detect a planet as small as three Earth - masses within two AUs of its host star (and so some summary system information and
images of Epsilon Indi may still be available
from the SIM Teams), but the SIM project manager announced on November 8, 2010 that the mission was indefinitely postponed due to withdrawal of NASA funding.
To validate candidate planets identified by K2, the researchers obtained high - resolution
images of the planet - hosting stars
from Keck Observatory's near infrared camera (NIRC2), the Gemini and Large Binocular Telescope (among others) as well as high - resolution
optical spectroscopy using Keck Observatory's high resolution spectrograph (HIRES) instrument and the AUtomated Planet Finder.
This infrared
image shows a laser beam signal
from NASA's LADEE moon probe as seen in infrared by the European Space Agency's
Optical Ground Station in Tenerife, Spain on Oct. 26, 2013.
Then, they combined the spectra with infrared
images of the Spitzer Space Telescope, the Herschel Space Observatory, and
optical images of the Hubble Space Telescope, to create a complete multi-wavelength picture of their galaxies:
from rest - frame ultraviolet to rest - frame far - infrared.
The team showed that Kinect, the
optical hardware
from Microsoft, Inc., and
image - recognition algorithms used to identify and track the location and orientation of objects in its visual field could be adapted to locate and track the motions of a biopsy needle.
It was also selected as a «Tier 1» target star for NASA's
optical Space Interferometry Mission (SIM) to detect a planet as small as three Earth - masses within two AUs of its host star (and so some summary system information and
images of Eta Cassiopeiae A and B may still be available
from the SIM Teams), but the SIM project manager announced on November 8, 2010 that the mission was indefinitely postponed due to withdrawal of NASA funding.
«This is what theorists have believed for years, but even the best
images from optical telescopes, including the Hubble Space Telescope, failed to show any direct evidence of interactions with other galaxies in many cases,» said Jeremy Lim, of the Academia Sinica Institute of Astronomy & Astrophysics in Taipei, Taiwan.
His approach quantitatively
images structures
from the negative space excluded in the thermal random walk of a particle in an
optical trap, monitored with laser light.
An extraordinary jet trailing behind a runaway pulsar is seen in this composite
image that contains data
from Chandra (purple), radio data
from the ACTA (green), and
optical data
from the 2MASS survey (red, green, and blue).
The
image shows the localization of the gravitational - wave (
from the LIGO - Virgo 3 - detector global network), gamma - ray (by the Fermi and INTEGRAL satellites) and
optical (the Swope discovery
image) signals
from the transient event detected on the 17th of August, 2017.
Panasonic's proprietary
optical technology
from camera and projection systems allowed the company to offer nearly double the
image size of traditional automotive head up displays.
It sports a 16 - megapixel rear camera with f / 1.9 aperture and
optical image stabilisation, apart
from a 5 - megapixel front - facing camera.
As we can see
from the
images, the smartphone features ultra narrow bezel design, and runs on Google Android 4.2.2 mobile operating system, and comes with a Qualcomm Snapdragon 800 2.26 GHz quad - core processor, 2 GB LPDDR3 RAM, 32 GB internal storage, 5.2 - inch Full HD IPS display with 1920 x 1080 pixels resolution, 2.1 - megapixel front facing camera and 13 - megapixels rear camera with
optical image stabilizer, 8x digital zoom, sapphire crystal glass lens and multi-point autofocus.
As we can see
from the
images, the Android phone features a 5.9 - inch full HD IPS display with 1920 x 1080 pixels resolution and slim bezel for a large - screen viewing experience and sleek design, and G Pro 2 is powered by a Qualcomm Snapdragon 800 2.26 GHz quad - core processor and comes with 3 GB DDR3 RAM and 16GB / 32 GB eMMC ROM with microSD card slot for high performance and enough store capacity, moreover, the Android phone also sports an enhanced 13.0 - megapixel rear camera with
Optical Image Stabilizer Plus and natural flash for high quality imaging, while flash for selfie feature enhances its 2.1 - megapixel front - facing camera for selfie.
Some of the usability and accessibility features include
optical scan that can recognize text
from an
image and reads it aloud; light sensing technology, which uses the device's camera to sense light direction and brightness, and instant voice recorder which gives access to make quick voice notes.
The finished
image is uncanny in its lack of
optical perspective, and presents a strange contrast of uniformity and individuality:
from afar, we admire the perfection of the neat, multicoloured grid, yet, as every point of the frame is in clear focus, we are able to walk up to the
image and pick out individual curtain patterns and windowsill ornaments.
Stemming
from his interest in traditional narrative formats, his work often researches new forms of storytelling through visual and
optical abstraction, rhythm and repetition, patterns and symbolism, text transmissions, color correspondences, and interrelationships of
images and sound.
On display are 14 works that trace the transformation of the art object
from static
image to fluid light projection within two artistic lineages: the unconventional
optical techniques of the 1920s Neue Optik (New Vision) generation of artists, among them El Lissitzky, László Moholy - Nagy, Hans Richter, and Marcel Duchamp; and the situational aesthetics advanced by Robert Irwin, Gordon Matta - Clark, Robert Smithson, and Anthony McCall in the 1970s.
This exhibition considers the transformation of the art object
from static
image to light projection within two distinct artistic lineages: the unconventional
optical techniques and social analyses of the 1920s Neue Optik, or «New Vision,» generation of artists, among them László Moholy - Nagy, Hans Richter, and Marcel Duchamp; and the situational aesthetics advanced by Gordon Matta - Clark, Robert Smithson, and Anthony McCall in the 1970s.
Micah Danges» (Pew Fellow, 2015) work hovers between
image and object, pushing the limit of what a photograph can be and using
optical distortions that create abstract scenes
from everyday items and places, in a distinctive merging of materials and process.
He produces most of his
images in three sizes,
from small to very large, either in signed, mounted prints, which must be protected in a frame, or as replaceable inkjet prints that can be attached directly to the wall and are generated by a certificate - authenticated
optical disc.
Using a homemade bath, he chemically destabilizes the emulsion so that he can extract the filmic
image and
optical sound track
from the reels of celluloid.
The exhibition will include works employing high - end
optical systems to photograph government sites, as well as
images drawn
from data of amateur astronomers to track and photograph classified spacecraft in earth's orbit.
Borrowing
from Michael McClure's notion of an «undersoul,» a term Conner embraced as a way to position many of his works, this talk will examine the variations of visceral forms achieved through the syncopated rhythm / cuts (sound to
image edits), as well as his slow moving, emergent sonic and
optical structures.
Group - shows in major museums include: «
Optical Illusions, Contemporary Still Life ``, C / O Berlin, Berlin, Germany (2017), «Good Dreams, Bad Dreams - American Mythologies ``, Aïshti Foundation, Beirut, Lebanon (2016), «Ordinary Pictures ``, Walker Art Center, Minneapolis, MN USA (2016), «
Image Support ``, Bergen Kunsthall, Bergen, Norway (2016), «Ocean of
Images: New Photography 2015, Museum of Modern Art ``, New York, NY USA (2015), «Perfect Likeness: Photography and Composition ``, Hammer Museum, Los Angeles, CA USA (2015), «Reconstructions: Recent Photographs and Video
from the Met Collection ``, Metropolitan Museum of Art, New York, NY USA (2015), «Rites of Spring ``, Contemporary Arts Museum Houston, Houston, TX USA (2014).
Paglen's
image, KEYHOLE IMPROVED CRYSTAL
from Glacier Point (
Optical Reconnaissance Satellite; USA 224)(2011), a spy - satellite portrait of the sky above Yosemite Valley, evokes the work of Ansel Adams and Timothy O'Sullivan.