Sentences with phrase «spatial resolution over»
«AO observations from 8 - 10m class telescopes are a dramatic improvement in spatial resolution over previous ground - based observations.
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SUVI replaces the GOES Solar X-ray Imager (SXI) instrument in previous GOES satellites and represents a change in both spectral coverage and spatial resolution over SXI.
«It is the first time that we could localize these inhomogeneities with such a high spatial resolution over so large an area,» says Bösenberg.
Not exact matches
«As such, they offer unparalleled spatial and temporal resolution over other imaging technologies to help us achieve a better understanding of complex and uniquely human brain functions, such as language,» adds Thesen, an assistant professor at NYU Langone.
Studies with better temporal and spatial resolution could help to reveal why nanocatalyst functionality is lost over time.
They could not determine the variation over the planet because of poor signal and spatial resolution.
Five core areas of research are defined to orient long - term ecological research projects toward question / hypothesis formulation and resolution over long time and broad spatial scales.
«Now, with Juno flying over the poles at a close distance it permits the collection of infrared imagery on Jupiter's polar weather patterns and its massive cyclones in unprecedented spatial resolution.»
When there aren't any gaps in space with zero optical thickness (there is approximately a gap above TOA) and temperature varies continously over space (at sufficient spatial resolution, this is generally true everywhere within the climate system), increasing optical thickness eventually saturates the fluxes going in opposite directions, at which point they become equal, so that the net flux is zero.
The CrIS will provide over one thousand spectral channels of information in the infrared at an improved horizontal spatial resolution...»
This is possible due to lack of reliable tracers and adequate combination of image spatial resolution and time interval over which the tracer motions need to be measured.
The principal scientific objective is to make global SSS measurements over the ice - free oceans with 150 - km spatial resolution, and to achieve a measurement error less than 0.2 (PSS - 78 [practical salinity scale of 1978]-RRB- on a 30 - day time scale, taking into account all sensors and geophysical random errors and biases.Salinity is indeed a key indicator of the strength of the hydrologic cycle because it tracks the differences created by varying evaporation and precipitation, runoff, and ice processes.
The data that we have over a longer period are dimensionally so poor (generally only 1 degree of freedom) and have no spatial resolution so that one can interpret them about in any way one wants.
New gridded daily wind fields from Metop / ASCAT scatterometer retrievals are produced in near real - time over global ocean with a spatial resolution of 0.25 °.
The ocean model offers a spatial resolution of 1.5 ˚ × 3.5 ˚ and is vertically divided into 40 unevenly spaced layers, with model poles placed over Greenland and Antarctica.
The new approach combines several remote - sensing tools to study the Arctic landscape — above and below ground — in high resolution and over large spatial scales.
Analyses of tide gauge and altimetry data by Vinogradov and Ponte (2011), which indicated the presence of considerably small spatial scale variability in annual mean sea level over many coastal regions, are an important factor for understanding the uncertainties in regional sea - level simulations and projections at sub-decadal time scales in coarse - resolution climate models that are also discussed in Chapter 13.
The new approach combines several remote - sensing tools to study the Arctic landscape, above and below ground, in high resolution and over large spatial scales.
Several other differences over Europe are linked to differences in spatial resolution, which is higher in E-OBS and lower in GPCP than in ERA - Interim and GPCC.
They are calculated as daily turbulent air - sea fluxes over global oceans with a spatial resolution of 0.25 ° in longitude and latitude.
However, another source of uncertainty in the monthly mean zonal cloud radiative effects comes from the low frequency of clear - sky occurrence, when averaging over regions that correspond to the spatial resolution of general circulation models.
Although the global models have improved over time (Chapter 8), they still have limitations that affect the simulation of extreme events in terms of spatial resolution, simulation errors, and parametrizations that must represent processes that can not yet be included explicitly in the models, particularly dealing with clouds and precipitation (Meehl et al., 2000d).
Over the ocean, some of the increased variability could be a consequence of increased spatial and temporal resolution, because the 1981 — 2010 period has high - resolution satellite data, while the 1951 — 1980 period is largely dependent on ship data.