The trade - off is that you lose fine detail for the sake of
lower image noise.
Low - light images looked markedly better, capturing fine details with relatively
low image noise.
The Idol 3's shots showed uniform sharpness and
low image noise in a variety of settings.
Not exact matches
g (acceleration due to gravity) G (gravitational constant) G star G1.9 +0.3 gabbro Gabor, Dennis (1900 — 1979) Gabriel's Horn Gacrux (Gamma Crucis) gadolinium Gagarin, Yuri Alexeyevich (1934 — 1968) Gagarin Cosmonaut Training Center GAIA Gaia Hypothesis galactic anticenter galactic bulge galactic center Galactic Club galactic coordinates galactic disk galactic empire galactic equator galactic habitable zone galactic halo galactic magnetic field galactic
noise galactic plane galactic rotation galactose Galatea GALAXIES galaxy galaxy cannibalism galaxy classification galaxy formation galaxy interaction galaxy merger Galaxy, The Galaxy satellite series Gale Crater Galen (c. AD 129 — c. 216) galena GALEX (Galaxy Evolution Explorer) Galilean satellites Galilean telescope Galileo (Galilei, Galileo)(1564 — 1642) Galileo (spacecraft) Galileo Europa Mission (GEM) Galileo satellite navigation system gall gall bladder Galle, Johann Gottfried (1812 — 1910) gallic acid gallium gallon gallstone Galois, Évariste (1811 — 1832) Galois theory Galton, Francis (1822 — 1911) Galvani, Luigi (1737 — 1798) galvanizing galvanometer game game theory GAMES AND PUZZLES gamete gametophyte Gamma (Soviet orbiting telescope) Gamma Cassiopeiae Gamma Cassiopeiae star gamma function gamma globulin gamma rays Gamma Velorum gamma - ray burst gamma - ray satellites Gamow, George (1904 — 1968) ganglion gangrene Ganswindt, Hermann (1856 — 1934) Ganymede «garbage theory», of the origin of life Gardner, Martin (1914 — 2010) Garneau, Marc (1949 ---RRB- garnet Garnet Star (Mu Cephei) Garnet Star Nebula (IC 1396) garnierite Garriott, Owen K. (1930 ---RRB- Garuda gas gas chromatography gas constant gas giant gas laws gas - bounded nebula gaseous nebula gaseous propellant gaseous - propellant rocket engine gasoline Gaspra (minor planet 951) Gassendi, Pierre (1592 — 1655) gastric juice gastrin gastrocnemius gastroenteritis gastrointestinal tract gastropod gastrulation Gatewood, George D. (1940 ---RRB- Gauer - Henry reflex gauge boson gauge theory gauss (unit) Gauss, Carl Friedrich (1777 — 1855) Gaussian distribution Gay - Lussac, Joseph Louis (1778 — 1850) GCOM (Global Change Observing Mission) Geber (c. 720 — 815) gegenschein Geiger, Hans Wilhelm (1882 — 1945) Geiger - Müller counter Giessler tube gel gelatin Gelfond's theorem Gell - Mann, Murray (1929 ---RRB- GEM «gemination,» of martian canals Geminga Gemini (constellation) Gemini Observatory Gemini Project Gemini - Titan II gemstone gene gene expression gene mapping gene pool gene therapy gene transfer General Catalogue of Variable Stars (GCVS) general precession general theory of relativity generation ship generator Genesis (inflatable orbiting module) Genesis (sample return probe) genetic code genetic counseling genetic disorder genetic drift genetic engineering genetic marker genetic material genetic pool genetic recombination genetics GENETICS AND HEREDITY Geneva Extrasolar Planet Search Program genome genome, interstellar transmission of genotype gentian violet genus geoboard geode geodesic geodesy geodesy satellites geodetic precession Geographos (minor planet 1620) geography GEOGRAPHY Geo - IK geologic time geology GEOLOGY AND PLANETARY SCIENCE geomagnetic field geomagnetic storm geometric mean geometric sequence geometry GEOMETRY geometry puzzles geophysics GEOS (Geodetic Earth Orbiting Satellite) Geosat geostationary orbit geosynchronous orbit geosynchronous / geostationary transfer orbit (GTO) geosyncline Geotail (satellite) geotropism germ germ cells Germain, Sophie (1776 — 1831) German Rocket Society germanium germination Gesner, Konrad von (1516 — 1565) gestation Get Off the Earth puzzle Gettier problem geyser g - force GFO (Geosat Follow - On) GFZ - 1 (GeoForschungsZentrum) ghost crater Ghost Head Nebula (NGC 2080) ghost
image Ghost of Jupiter (NGC 3242) Giacconi, Riccardo (1931 ---RRB- Giacobini - Zinner, Comet (Comet 21P /) Giaever, Ivar (1929 ---RRB- giant branch Giant Magellan Telescope giant molecular cloud giant planet giant star Giant's Causeway Giauque, William Francis (1895 — 1982) gibberellins Gibbs, Josiah Willard (1839 — 1903) Gibbs free energy Gibson, Edward G. (1936 ---RRB- Gilbert, William (1544 — 1603) gilbert (unit) Gilbreath's conjecture gilding gill gill (unit) Gilruth, Robert R. (1913 — 2000) gilsonite gimbal Ginga ginkgo Giotto (ESA Halley probe) GIRD (Gruppa Isutcheniya Reaktivnovo Dvisheniya) girder glacial drift glacial groove glacier gland Glaser, Donald Arthur (1926 — 2013) Glashow, Sheldon (1932 ---RRB- glass GLAST (Gamma - ray Large Area Space Telescope) Glauber, Johann Rudolf (1607 — 1670) glaucoma glauconite Glenn, John Herschel, Jr. (1921 ---RRB- Glenn Research Center Glennan, T (homas) Keith (1905 — 1995) glenoid cavity glia glial cell glider Gliese 229B Gliese 581 Gliese 67 (HD 10307, HIP 7918) Gliese 710 (HD 168442, HIP 89825) Gliese 86 Gliese 876 Gliese Catalogue glioma glissette glitch Global Astrometric Interferometer for Astrophysics (GAIA) Global Oscillation Network Group (GONG) Globalstar globe Globigerina globular cluster globular proteins globule globulin globus pallidus GLOMR (Global
Low Orbiting Message Relay) GLONASS (Global Navigation Satellite System) glossopharyngeal nerve Gloster E. 28/39 glottis glow - worm glucagon glucocorticoid glucose glucoside gluon Glushko, Valentin Petrovitch (1908 — 1989) glutamic acid glutamine gluten gluteus maximus glycerol glycine glycogen glycol glycolysis glycoprotein glycosidic bond glycosuria glyoxysome GMS (Geosynchronous Meteorological Satellite) GMT (Greenwich Mean Time) Gnathostomata gneiss Go Go, No - go goblet cell GOCE (Gravity field and steady - state Ocean Circulation Explorer) God Goddard, Robert Hutchings (1882 — 1945) Goddard Institute for Space Studies Goddard Space Flight Center Gödel, Kurt (1906 — 1978) Gödel universe Godwin, Francis (1562 — 1633) GOES (Geostationary Operational Environmental Satellite) goethite goiter gold Gold, Thomas (1920 — 2004) Goldbach conjecture golden ratio (phi) Goldin, Daniel Saul (1940 ---RRB- gold - leaf electroscope Goldstone Tracking Facility Golgi, Camillo (1844 — 1926) Golgi apparatus Golomb, Solomon W. (1932 — 2016) golygon GOMS (Geostationary Operational Meteorological Satellite) gonad gonadotrophin - releasing hormone gonadotrophins Gondwanaland Gonets goniatite goniometer gonorrhea Goodricke, John (1764 — 1786) googol Gordian Knot Gordon, Richard Francis, Jr. (1929 — 2017) Gore, John Ellard (1845 — 1910) gorge gorilla Gorizont Gott loop Goudsmit, Samuel Abraham (1902 — 1978) Gould, Benjamin Apthorp (1824 — 1896) Gould, Stephen Jay (1941 — 2002) Gould Belt gout governor GPS (Global Positioning System) Graaf, Regnier de (1641 — 1673) Graafian follicle GRAB graben GRACE (Gravity Recovery and Climate Experiment) graceful graph gradient Graham, Ronald (1935 ---RRB- Graham, Thomas (1805 — 1869) Graham's law of diffusion Graham's number GRAIL (Gravity Recovery and Interior Laboratory) grain (cereal) grain (unit) gram gram - atom Gramme, Zénobe Théophile (1826 — 1901) gramophone Gram's stain Gran Telescopio Canarias (GTC) Granat Grand Tour grand unified theory (GUT) Grandfather Paradox Granit, Ragnar Arthur (1900 — 1991) granite granulation granule granulocyte graph graph theory graphene graphite GRAPHS AND GRAPH THEORY graptolite grass grassland gravel graveyard orbit gravimeter gravimetric analysis Gravitational Biology Facility gravitational collapse gravitational constant (G) gravitational instability gravitational lens gravitational life gravitational lock gravitational microlensing GRAVITATIONAL PHYSICS gravitational slingshot effect gravitational waves graviton gravity gravity gradient gravity gradient stabilization Gravity Probe A Gravity Probe B gravity - assist gray (Gy) gray goo gray matter grazing - incidence telescope Great Annihilator Great Attractor great circle Great Comets Great Hercules Cluster (M13, NGC 6205) Great Monad Great Observatories Great Red Spot Great Rift (in Milky Way) Great Rift Valley Great Square of Pegasus Great Wall greater omentum greatest elongation Green, George (1793 — 1841) Green, Nathaniel E. Green, Thomas Hill (1836 — 1882) green algae Green Bank Green Bank conference (1961) Green Bank Telescope green flash greenhouse effect greenhouse gases Green's theorem Greg, Percy (1836 — 1889) Gregorian calendar Grelling's paradox Griffith, George (1857 — 1906) Griffith Observatory Grignard, François Auguste Victor (1871 — 1935) Grignard reagent grike Grimaldi, Francesco Maria (1618 — 1663) Grissom, Virgil (1926 — 1967) grit gritstone Groom Lake Groombridge 34 Groombridge Catalogue gross ground, electrical ground state ground - track group group theory GROUPS AND GROUP THEORY growing season growth growth hormone growth hormone - releasing hormone growth plate Grudge, Project Gruithuisen, Franz von Paula (1774 — 1852) Grus (constellation) Grus Quartet (NGC 7552, NGC 7582, NGC 7590, and NGC 7599) GSLV (Geosynchronous Satellite Launch Vehicle) g - suit G - type asteroid Guericke, Otto von (1602 — 1686) guanine Guiana Space Centre guidance, inertial Guide Star Catalog (GSC) guided missile guided missiles, postwar development Guillaume, Charles Édouard (1861 — 1938) Gulf Stream (ocean current) Gulfstream (jet plane) Gullstrand, Allvar (1862 — 1930) gum Gum Nebula gun metal gunpowder Gurwin Gusev Crater gut Gutenberg, Johann (c. 1400 — 1468) Guy, Richard Kenneth (1916 ---RRB- guyot Guzman Prize gymnosperm gynecology gynoecium gypsum gyrocompass gyrofrequency gyropilot gyroscope gyrostabilizer Gyulbudagian's Nebula (HH215)
Using 12CO lines to trace molecular gas at both
low and high densities, a new map depicts a high signal - to -
noise image of the inner part of IC342 that includes the first spiral arm.
The samples were excited with a NdYAG - pumped wavelength - tunable dye laser (Sirah Laser, Kaarst, Germany) and
imaged with a f# 1.2 50 mm lens (Nikkor, Japan) and a
low -
noise cooled 512 × 512 16 - bit CCD camera (VersArray, Princeton Instruments, Acton MA), using 10 nm FWHM band - pass interference filters (Chroma, Bellows Falls, VT) centered at 610, 670 and 710 nm.
The Auto Enhance feature eliminates
noise from
low light
images while also softening wrinkles.
From still pictures and
low - resolution videos to high - resolution movies, Sony's unique
image software engine analyzes each
image to optimize colors, sharpness, and contrast, as well as reduce
noise.
It's actually not bad in the grand scheme of tablet cameras, producing sharp and detailed
images in a variety of lighting scenarios, though
image noise does become an issue under
low indoor light.
But the
images are
low on
image noise and turn out clear, with depth of field with a decent color contrast.
When lighting is dimmer, things get tough pretty quickly, but RIM has tweaked the camera to be usable in
low - light: the trade off is that the
image will get very grainy (as seen below), but it's mostly OK if you are going to share it on the web in
low - resolution (640 × 480 or so) as the downscaling of the photo takes out a lot (but not all) of the
noise.
Low light shots can be riddled with
image noise, but we've had some good results in daylight.
The Prime's
low - light
images were grainier with a good deal more
noise.
Camera performance on the Thrive 7 was decent, as far as tablets go, with sharp
images and relatively
low noise, though I could only take pictures and video using the rear - facing camera.
In more recent works, she sources
low - resolution digital files from Google and then prints the white
noise they generate as the final
image.
In the video there is a briefly a spooky increase in
image sensor
noise a few seconds after the flash, co-incident with a
low rumble sound.
As Essential's camera engineer Yazhu Ling explains it, a black - and - white sensor doesn't need to bother with color information, so it can create a cleaner
image with much less
noise, especially in
low light.
Its
image quality scores are impressive across the board, but it is particularly strong in providing a very high level of detail from its 12.3 MP camera, with relatively
low levels of
noise for every tested lighting condition.
As with previous high - end Huawei smartphones, the monochrome camera serves several purposes: it helps with depth estimation for the simulated bokeh effect, and the fine detail and
low noise levels of the monochrome sensor improve
image quality when zooming and in
low light.
The
low light performance of the V30 + is pretty average as result often turn out to be a little grainy and the camera app is also little laggy in
low light environments — the large aperture does pull in more light and makes even objects in dark areas visible, but this benefit is offset by the amount of
noise that creeps into the
images.
In blur - free
low - light
images detail preservation is very good, with only the loss of very fine details, although a coarse luminance
noise is sometimes visible
The company does claim that the iPhone 8's new A11 Bionic chip has allowed for a variety of improvements to the phone's
image processor, particularly when it comes to
low - light performance, autofocus and
noise reduction.
On the other,
image quality is good, with relatively good detail and texture retention, as well as good
noise control even at 100 Lux — which can be attributed to the built - in stabilization, the fast lens, and the camera's choice of
low ISO.
The chip also features camera - related improvements, including an Apple - designed ISP (
Image Signal Processor) that brings with it an improved pixel processor, faster low - light autofocus, and hardware multiband image noise reduc
Image Signal Processor) that brings with it an improved pixel processor, faster
low - light autofocus, and hardware multiband
image noise reduc
image noise reduction.
A new Apple - designed
image signal processor introduces faster autofocus in
low light, new pixel processing techniques for sharpness and texture, and hardware - enabled multi-band
noise reduction.
If you look through to the full - resolution
image, you can also see some
low - frequency
noise and color quantization in faces.
Along with the
image signal processor that reduces
noise and allows autofocus to work more quickly in
low light, there's also a new Apple - designed video encoder that enables faster video frame rates and real - time
image and motion analysis that can predict changes in content to optimize video encoding algorithms.
The HTC U11 is one of only a few phones we've tested (along with the Google Pixel, Samsung S7 and S8, and iPhone 7 family) that renders flash
images with a high level of detail and
low noise.
The HTC U11's very
low noise and excellent detail preservation will also let you print larger - sized
images than with most other phones.
While performance is good in all areas, in
low - light you will see a drop in detail as the camera processes away
image noise.
In
lower - light conditions the camera shows its weakness with softening and
image noise appearing, so it lacks bite - even in conditions that aren't especially dim.
In
low lighting conditions, you'll notice more
image noise, especially in automatic mode, but the relatively fast aperture settings help keep results at a level that's typical of a high - end smartphone.
«Its
image quality scores are impressive across the board, but it is particularly strong in providing a very high level of detail from its 12.3 MP camera, with relatively
low levels of
noise for every tested lighting condition,» DxOMark said.
It also has significantly improved
image noise reduction, automatic motion detection and superb performance in both
low and normal lighting conditions.
The most useful option of all seems to be Bright mode, which uses the algorithm to double the brightness in
low - light
images without upping the
noise.
In the
low light conditions, there is quite a bit of
noise coming in and the
images are rather flat / lack details.
In
low light conditions, there is still a fair amount of detail to be had, and
images generally tend to be
noise free.
This certainly helps with creating brighter
images in
low light conditions, but the camera still has to resort to the slowest shutter speed possible which can result in a lot of
noise.
The
images were all taken under very -
low light (5 Lux) handheld conditions, showing the improvement in detail preservation and
noise suppression in successive iPhone models.
Other key strengths in still
image mode include very good exposures and HDR
images, accurate color rendering, good detail with
low noise, as well as a natural - looking bokeh effect in Portrait mode.
Sony's X1 Extreme picture processor features three key technologies which have a big impact on
image quality: Object Based HDR Remastering, which improves the precision of SDR upscaling for contrast and colour; Dual Database processing, which features
Noise Reduction and Super Resolution processing, and Super Bit Mapping 4K HDR, the latest version of SBM which removes colour banding from
lower bitrate content, like streaming services.
The Samsung Galaxy S7 Edge camera performed very well overall in our testing, with very fast and accurate autofocus in all conditions,
low levels of
noise, and decent
image detail in most scenarios.
When you combine this with Google's incredible software
image stabilization (EIS), you'll notice your action shots have less blur, your
low - light photos have reduced
noise, and
images in general will appear sharper.
The situation is even worse in
low - light conditions, with
images coming out lacking detail and full of
noise.
The
low - light performance of the Style's camera sensor isn't great however, with detail and colour dropping out so
images lack sharpness - we suspect through processing to remove
image noise.
Super Resolution uses some software magic gives you massive 92MP shots to allow you to zoom and crop to your heart's content, while
Low Light does the direct opposite, and uses software magic to reduce noise in low light conditions, giving you stunningly clean 5MP images in poor lighti
Low Light does the direct opposite, and uses software magic to reduce
noise in
low light conditions, giving you stunningly clean 5MP images in poor lighti
low light conditions, giving you stunningly clean 5MP
images in poor lighting.
Image noise isn't too much of an issue either, with even
low - light shots faring well, although detail when viewed at actual size isn't nearly as impressive as it appears on the phone's smaller screen.
In our initial camera review of Infinix Zero 5 Pro, we found the
image quality to be brilliant in the daylight, the colours are punchier, natural and delivers well to the expectations but in the
low light the camera struggled a bit and we could see some minor
noise in the
images.
OnePlus has also brought back the «Intelligent Pixel» feature which is supposed to analyse pixels in
low - light photos to improve sharpness and remove
image noise, giving much better results.
Image data from both sensors is combined for more detail,
lower noise levels, and better dynamic range.