Puma, M.J., R. Rodriguez - Iturbe, M.A. Celia, and A.J. Guswa, 2007: Implications of rainfall
temporal resolution for soil - moisture and transpiration modeling.
Not exact matches
The field of live - cell imaging has expanded greatly in recent years, but still faces many challenges, such as how to improve spatial and
temporal resolution as well as how to keep cells healthy
for extended periods of time.
The ability to capture selected - area - image dynamics with pixel
resolution and to control the time separation between pulses
for temporal cooling of the specimen made possible studies of fleeting structures and morphologies.
We generated knockout mice lacking synaptobrevin / VAMP 2, the vesicular SNARE protein responsible
for synaptic vesicle fusion in forebrain synapses, to make use of the exquisite
temporal resolution of electrophysiology in measuring fusion.
«Young students of cognitive neuroscience are lucky to be in the midst of a new era where we have access to amazing new tools of science
for eavesdropping on the population of cells with a superb
temporal resolution,» Parvizi says.
To increase the
temporal resolution, we plan to extend deconvolution based on compressed sensing
for three - dimensional single molecule localization.
Taking advantage of the available
temporal resolution with FlyMAD, the team was able to show that activity of one type of neurone correlates with a persistent state of courtship, whereas the other cell type was important
for the action of singing.
Currently, there is no commercial microscopy system available
for live imaging of Archaea with sufficiently high spatio -
temporal resolution to accurately observe processes such as cell division.
Samples
for analyses were taken every two hours in order to obtain a high
temporal resolution.
In addition to 2 - photon microscopy, lightsheet microscopy is rapidly becoming the preferred technique
for many of these samples due to its fast
temporal resolution and decreased phototoxicity.
These samples do not necessarily require optical sectioning, but open the door to a number of other techniques that can improve contrast and
resolution due to the lack of a requirement
for high
temporal imaging speeds.
One approach is to develop empirical regional models that enable aragonite saturation state to be estimated from existing hydrographic measurements,
for which greater spatial coverage and longer time series exist in addition to higher spatial and
temporal resolution.
It's taking a
temporal Resolution from the previous frame and and injecting them into the new frames image, while jittering the pixel count to a higher resolution... It can be done at 1080p 1440p or 1800p to resolve at 2160p when using a 4k frame buffer... This is what Insomniac has used on both Ratchet and Clank and Spider - Man... The Technique was developed by Epic games and then used by Ubisoft for For Honor on PS4 and XBO
Resolution from the previous frame and and injecting them into the new frames image, while jittering the pixel count to a higher
resolution... It can be done at 1080p 1440p or 1800p to resolve at 2160p when using a 4k frame buffer... This is what Insomniac has used on both Ratchet and Clank and Spider - Man... The Technique was developed by Epic games and then used by Ubisoft for For Honor on PS4 and XBO
resolution... It can be done at 1080p 1440p or 1800p to resolve at 2160p when using a 4k frame buffer... This is what Insomniac has used on both Ratchet and Clank and Spider - Man... The Technique was developed by Epic games and then used by Ubisoft
for For Honor on PS4 and XBOX One X
for For Honor on PS4 and XBOX One X
For Honor on PS4 and XBOX One X...
Resolution shouldn't be as much of a priority, not when new
temporal reconstruction technologies can provide great IQ enhancements
for little or no cost to hardware resources.
Having worked closely with Ubisoft throughout Watch Dogs 2's development, we've had the opportunity to integrate HBAO +
for richer, more realistic Ambient Occlusion contact shadowing; PCSS and HFTS
for vastly improved character, object and world shadowing; TXAA
for improved anti-aliasing and the addition of
temporal anti-aliasing; SLI
for increased performance on Multi-GPU systems; Surround
for immersive triple - screen gaming; and NVIDIA Ansel, an in - game tool that enables you to capture unique screenshots in Super
Resolution, Stereo, 360 ° Virtual Reality, and 360 ° Stereo formats.
To run them stochastically
for long simulation times requires using computational efficiencies that reduce complexity or spatial and
temporal resolution.
There's
temporal resolution loss as you go back, but I suspect that
for a given background climate, there's a lot of «boringness» within it (e.g., how much in - Eocene or in - Snowball variability do we actually expect?
A high -
resolution dataset is prepared
for the global Ocean during 1992 - 2006, with a spatial
resolution of 1 degree, and weekly and monthly
temporal resolutions.
«These projections
for Europe are partially in agreement with studies based on datasets with much higher spatial and
temporal resolution.
In particular,
for some of my applications,
temporal frequency of surface meteorology trumps spatial
resolution.
Here we construct a database of worldwide RS observations matched with high -
resolution historical climate data and find a previously unknown
temporal trend in the RS record after accounting
for mean annual climate, leaf area, nitrogen deposition and changes in CO2 measurement technique.
Satellite observations may have resolved many of the spacial /
temporal resolution issues surrounding proxy measurements of earlier periods there is a long way to go before we have sufficient data suitable
for prediction.
Borehole data (Pollack et al., 1998) independently support this conclusion
for the past 500 years although, as discussed earlier (Section 2.3.2.1), detailed interpretations comparison with long - term trends from such of such data are perilous owing to loss of
temporal resolution back in time.
Each data point represented the average of all surveys
for a given 0.5 - degree pixel conducted during the twice - weekly time period (
temporal resolution) of the satellite data, plotted against the DHW value observed
for that pixel and time period.
The big problem with this particular hockey stick appears to be the
temporal resolution of the proxies — which is about 120 years average
for the historic temps, but is only 1 year
for the 20th century data they have tagged on the end.
Meanwhile, the few studies that involve a higher spatial
resolution generally do so by sacrificing the
temporal coverage of the data, providing them with a «case study» point of view of a particular weather event, rather than robust statistics required
for an understanding of climate.
Modified funnel trap designs can support longer - term, temporally resolved data by (a) incorporating an airtight housing equipped with a differential pressure sensor or optical bubble size sensor
for automated, high
temporal resolution measurements of ebullition fluxes (Varadharajan et al. 2010, Delwiche et al. 2015), and (b) installing an electronic unit to empty the trap once it reaches full capacity so that traps don't fill faster than they can be sampled (cited in Maeck et al. 2014).
Following calibration of acoustic signal with bubble size (Ostrovsky et al. 2008), an echosounder can be mounted to a boat to estimate ebullition flux at a greater spatial
resolution, or mounted to a stationary object
for greater
temporal resolution.
The important considerations
for the baseline include the time period adopted as well as the spatial and
temporal resolution of the baseline data.
Verifiable features The 2011 Kinnard «blade» is stronger than the 2013 Marcott «blade» in that the 20th century «blade» of the Kinnard study (a) reflects far more proxies (69
for Kinnard et al.) and (b) has far finer
temporal resolution (5 years
for Kinnard et al.), and (c) reflects are far sharper, far more priminent «blade» (blade - to - noise ratio of order 3 - 5
for Kinnard et al.).
Additionally, the report considers the expectations of the quality and spatial and
temporal resolution possible through such approaches, and the prototype sensors that are available that could be used
for detailed ground calibration of permafrost / high latitude carbon cycle studies.
There are many drivers
for increased
resolution (spatial and
temporal) surface observations, not least being new high
resolution numerical weather prediction (NWP) models.
In order to study if an underrepresentation of weak magnetic fields in the Carrington rotation synoptic charts is the explanation
for the difference between our model and the observation, full - disk images with higher spatial and
temporal resolution should be analyzed in future.
There are now several alternative proxy measures of ancient climate change, but the δ18O data (figure 1a) of Zachos et al. [4], a conglomerate of the global ocean sediment cores, is well suited
for our purpose as it covers the Cenozoic era with good
temporal resolution.
The historical to recent centuries of the model are strongly constrained to agree with the 400 - year historical model gufm1 by Jackson et al. (2000), and consequently spatial and
temporal resolution increase drastically
for this time interval.
(ii) to use the Mann et al. (1998), Luterbacher et al. (2004) and Moberg et al. (2005) methodologies to work towards a regional reconstruction at different
temporal and spatial
resolution for southern South America.
This task involved extensive time series analysis that identified Singular Spectrum Analysis (SSA) as an optimal analytic
for resolving estimates of mean sea level from long tide gauge records with improved accuracy and
temporal resolution, since it provides a superior capability to separate key time varying harmonic components of the time series.
The breakout group heard a presentation regarding the importance that high -
temporal -
resolution hyperspectral observations of key atmospheric state variables and their trends have
for climate data records.
The set - up of the numerical experiments suggests that the
temporal resolution of the atmospheric forcing field is responsible
for the significant increase in vertical velocities, in agreement with previous studies (Danioux et al., 2008; Komori et al., 2008).
Further, some participants noted that
for SST, sea ice, and ocean surface vector winds there is possible synergy and an optimum combination
for accuracy, data gap limitation, spatial and
temporal resolution, and CDR continuity that should be considered.
Some workshop participants noted the desirability of a GIFTS - or HES - like instrument
for geostationary measurements (with high
temporal resolution) relevant to this ECV.
Almost any problem can be made into a Grand Challenge grade problem as the need
for higher
temporal and spatial
resolution is factored in along the software - evolution trajectory.
Stephens makes the case
for increased spatial and
temporal resolution.
Bigger, faster hardware can be driven by the need to increase spatial and
temporal resolution,
for example.