Not exact matches
«It would be great to have satellite tags on a few individuals to learn about
finer scale movement patterns and to see with greater
resolution who they interact with, where they spend their time, what they do in winter, and whether there are any fish - eating killer whales.»
With the help of satellite data, the new analysis looked at reefs on a much
finer scale than did the effort in 1998, with a 64 times greater
resolution.
Mazumdar notes that the simulation lacks
fine resolution and can not probe
scales smaller than a hundred light years.
The higher -
resolution contact maps enable the researchers to discern genomic structural features on the
scale of 1,000 genetic letters — a
resolution about 1,000 times
finer than before.
Note that apparently solid regions of deviation often show
fine -
scale pattern at higher
resolution.
Second, numerous historical and biological factors can inherently limit the
fine -
scale resolution of individual incompatibilities within many hybrid zones.
Samsung says that those apps that do not
scale will display in WVGA
resolution, noting that only a few of third - party apps would be affected and that Samsung apps and Google's native apps work perfectly
fine.
Would there be any advantage to having seperate models at seperate
scales, where smaller
scale processes would be modelled at
fine resolution, and the larger
scale model would, for each unit grid and time, search the results of the smaller model based on similarity of input conditions, perhaps interpolating and if necessary using a randomly chosen result based on probability distributions, and in the ocassion where the results of the smaller model are too sparse, telling the smaller
scale model to do a new run (as time goes on this would happen less often)?
Finally, simulations having
finer spatial detail (i.e., «downscaled» climate model projections) do not necessarily have greater accuracy than coarser -
resolution simulations; they add contextual detail related to factors such as regional topography and coastlines but may still retain the same basic climatic features simulated at larger
scales.
It contains a suite of routines for downscaling coarse
scale global climate model (GCM) output to a
fine spatial
resolution.
LOCA downscaling estimates
finer -
scale climate detail from a coarse -
resolution global model using a new high -
resolution historical observation dataset developed by researchers at the University of Colorado.
''... models produce precipitation approximately twice as often as that observed and make rainfall far too lightly... The differences in the character of model precipitation are systemic and have a number of important implications for modeling the coupled Earth system... little skill in precipitation [is] calculated at individual grid points, and thus applications involving downscaling of grid point precipitation to yet even
finer ‐
scale resolution has little foundation and relevance to the real Earth system.»
The ClimDown R package publishes the routines and techniques of the Pacific Climate Impacts Consortium (PCIC) for downscaling coarse
scale Global Climate Models (GCMs) to
fine scale spatial
resolution.
SB: So, these
fine -
scale simulations will be a two - kilometre
resolution, so if we contrast that with the 12 kilometre or 20 kilometre that previous generations had, this is quite a big advance.
Given the coarse
resolution of global climate models, downscaling techniques are often needed to generate
finer scale projections of variables affected by local -
scale processes such as precipitation.
In the end, they came up with a «wall - to - wall» map of carbon stocks in Sabah down to 30 - meter (98 - foot)
resolution, or about 5,500 percent
finer resolution than mapping that others have done on a global
scale, Asner said.
While most existing loss alert products use 250 - meter
resolution MODIS imagery, these alerts have a 30 - meter
resolution and thus can detect loss at a much
finer spatial
scale.
The regional focus of RASM permits «significantly higher spatial
resolution» to represent and evaluate the interaction of «important
fine -
scale Arctic processes and feedbacks», such as:
Further investigation using high -
resolution modeling approaches that better resolve the boundary conditions and
fine -
scale physical processes (44 ⇓ — 46) and / or using analyses that focus on the underlying large -
scale climate dynamics of individual extreme events (8) could help to overcome the limitations of simulated precipitation and temperature in the current generation of global climate models.
But the datasets are not flawless (biases can occur, for example, when stations are being relocated, or when instrumentation is exchanged) and their monthly
resolution is too coarse for studies of
fine -
scale climate features such as changes in daily temperature extremes.
The development and application of scenarios from high -
resolution regional climate models and global atmospheric models (time - slices) since the TAR confirms that improved
resolution allows a more realistic representation of the response of climate to
fine -
scale topographic features (e.g., lakes, mountains, coastlines).
An important question regarding the adequacy of
resolution is deciding whether the information produced at
finer scales at higher
resolution feeds back on the larger
scales or do the
finer scales simply add to local effects (Williamson, 1999).