Model resolution: Difference between revisions
From Glossary of Meteorology
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<div class="paragraph">In gridpoint numerical modeling, the spatial [[resolution]] is at least 4 times the [[grid length]] because the smallest [[waves]] are removed by a [[dissipation]] scheme to prevent [[numerical instability]]. [[Kinetic energy]] spectra can be used to define the "effective" resolution of a numerical model, which is the scale at which [[kinetic energy]] begins to decrease rapidly due to dissipation. In [[mesoscale]] numerical models, the effective resolution is generally about 7 times the grid length.</div></div><br/> | <div class="paragraph">In gridpoint numerical modeling, the spatial [[resolution]] is at least 4 times the [[grid length]] because the smallest [[waves]] are removed by a [[dissipation]] scheme to prevent [[numerical instability]]. [[Kinetic energy]] spectra can be used to define the "effective" resolution of a numerical model, which is the scale at which [[kinetic energy]] begins to decrease rapidly due to dissipation. In [[mesoscale]] numerical models, the effective resolution is generally about 7 times the grid length.</div></div><br/> | ||
</div><div class="reference">Grasso, L. D., 2000: The differentiation between grid spacing and resolution and their application to numerical modeling. ''modeling. Bull. Amer. Meteor. Soc.'', '''81''', 579–580. | </div><div class="reference">Grasso, L. D., 2000: The differentiation between grid spacing and resolution and their application to numerical modeling. ''modeling. Bull. Amer. Meteor. Soc.'', '''81''', 579–580. <nowiki>https://doi.org/10.1175/1520-0477(2000)081%3C0579:CAA%3E2.3.CO;2</nowiki>.</div><br/> | ||
<p>''Term edited 24 August 2023.''</p> | <p>''Term edited 24 August 2023.''</p> |
Revision as of 06:55, 1 September 2023
model resolution
The smallest spatial or temporal scale at which a physical process can be explicitly represented by a numerical model.
In gridpoint numerical modeling, the spatial resolution is at least 4 times the grid length because the smallest waves are removed by a dissipation scheme to prevent numerical instability. Kinetic energy spectra can be used to define the "effective" resolution of a numerical model, which is the scale at which kinetic energy begins to decrease rapidly due to dissipation. In mesoscale numerical models, the effective resolution is generally about 7 times the grid length.
Grasso, L. D., 2000: The differentiation between grid spacing and resolution and their application to numerical modeling. modeling. Bull. Amer. Meteor. Soc., 81, 579–580. https://doi.org/10.1175/1520-0477(2000)081%3C0579:CAA%3E2.3.CO;2.
Term edited 24 August 2023.