Property:One-line model description

From CSDMS

This is a property of type Text.

Showing 100 pages using this property.
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3D primitive equation ocean model  +
C
A 2D/3D model of carbonate cyclicity  +
W
A 3-point dynamic model for the morphological evolution of a backbarrier basin composed by marshes and mudflats  +
G
A CSDMS data component for accessing data and metadata from a GeoTIFF file, through either a local filepath or a remote URL..  +
A CSDMS data component for fetching and caching gridMET meteorological data.  +
R
A CSDMS data component used to access the Regional Ocean Modeling System (ROMS) datasets  +
S
A CSDMS data component used to download the soil property datasets from the SoilGrids system.  +
E
A CSDMS data component used to download the ECMWF Reanalysis v5 (ERA5) datasets  +
D
A CSDMS data component used to download the marine substrates datasets from the dbSEABED system.  +
N
A CSDMS data component used to download the National Water Information System (Nwis) time series datasets.  +
A CSDMS data component used to download the National Water Model datasets.  +
W
A CSDMS data component used to fetch and cache WAVEWATCH III datasets.  +
T
A CSDMS data component used to fetch and cache NASA Shuttle Radar Topography Mission (SRTM) and JAXA Advanced Land Observing Satellite (ALOS) land elevation data using the OpenTopography REST API.  +
U
A Matlab-based urban flood model considering rainfall-induced and surcharge-induced inundations  +
Q
A Modeling Framework for Simulating River and Stream Water Quality  +
D
A Python API for the Dakota iterative systems analysis toolkit.  +
T
A Python Package for Hillslope Climate Downscaling  +
P
A Python framework to generate synthetic riverbed topography of constant-width meandering rivers  +
T
A Python package for multi-model analysis in long-term drainage basin evolution  +
D
A Python package for simulating passive particle transport in shallow-water flows  +
P
A Python software package for stochastic sediment transport under rarefied conditions  +
C
A coupled landscape and human-dynamics modeling framework for barrier evolution  +
S
A coupled model for infiltration, fluid flow, and sediment transport.  +
A
A finite element formulation of the non-conservative form of the vertically integrated advection/diffusion/reaction (ADR) equation  +
T
A four-way coupled two-phase Eulerian model for sediment transport  +
M
A fully coupled mechanical–ecohydrological model of peatland development in two dimensions  +
H
A global hydrological model useful for assessment of the land surface water balance.  +
B
A graphical Matlab interface to the C language 2-D quality finite element grid generator Triangle.  +
H
A mesh independent flow direction model for hydrologic models  +
O
A method to test for order in a vertical succession of strata  +
R
A model of dunes and snow-waves  +
K
A model representing infiltration, interception, and runoff using the kinematic wave approximation  +
S
A multi-dimensional Eulerian two-phase model for sediment transport (version 2.0)  +
O
A numerical method to analyse a vertical succession of strata and identify the most cyclical arrangement of constituent facies  +
S
A probabilistic sediment cascade model for sediment production, storage and transfer  +
L
A set of MATLAB functions to model how luminescence evolves in different geomorphic scenarios.  +
T
A set of Matlab functions for topographic analysis  +
M
A simple kinematic model of meandering  +
Z
A simple parallel code to demonstrate diffusion  +
E
A simple snow model  +
B
A spatially explicit model of coastal barrier evolution  +
Q
A state-of-the-art finite-element computer simulation program for coastal ocean circulation modeling  +
T
A suite of Digital Elevation Model (DEM) tools for the extraction and analysis of hydrologic information from topography as represented by a DEM. TauDEM 5 is a new version implemented to take advantage of parallel processing  +
F
A turbulence-resolving numerical model for fine sediment transport in bottom boundary layer  +
N
A turbulent boundary layer model for the linearized shallow water equations  +
Z
A zone-based taxon  +
A
ANUGA is a hydrodynamic modelling tool that allows users to model realistic flow problems in complex 2D geometries.  +
Add-on package to ANUGA with modules for sediment transport and vegetation drag  +
AeoLiS is a process-based model for simulating aeolian sediment transport in situations where supply-limiting factors are important, like in coastal environments.  +
D
Aeolian dune landscape model  +
C
Aggregate scale morphodynamic model of integrated coastal systems  +
A
Alaskan Frame‐based Ecosystem Code  +
H
Algorithm for directly measuring hillslope length from high resolution topographic data  +
D
Algorithm for extracting channel networks from high resolution topographic data  +
M
Alluvial morphodynamics of bedrock reaches  +
S
An easy-to-use MATLAB code to simulate long-term lithosphere and mantle deformation.  +
An iceberg drift and melt model, developed to simulate sedimentation in high-latitude glaciated fjords.  +
T
An immersed boundary, Navier–Stokes code for the simulation of gravity and turbidity currents interacting with complex topographies.  +
I
An implementation of the Implicit Drainage Area method (regular and hybrid versions) for calculating drainage area from flow directions using parallel iterative solvers.  +
R
An intermediate complexity model for simulating stream channel evolution (years to decades) at the watershed scale.  +
S
An updated Lagrangian explicit finite difference code for modeling a finitely deforming elasto-visco-plastic solid in 3D.  +
Analysis of time-variable gravity from the GRACE satellite mission using spherical harmonics and spherical Slepian functions  +
B
Barrier Island Translation model  +
Barrier-Bay-Marsh-Forest Transect Coupled Model Framework  +
Basin and landscape dynamics  +
S
Basin filling stratigraphic model  +
R
Bed-material sediment transport and storage dynamics on river networks.  +
B
Bedload transport model  +
Bergen Ocean Model  +
Biogenic mixing of marine sediments  +
BlockLab computes landscape evolution in the presence of large blocks of rock on hillslopes and in channels.  +
T
Build and destroy strath and fill terraces  +
C
COAWST: A Coupled-Ocean-Atmosphere-Wave-Sediment Transport Modeling System  +
Caesar Lisflood is a morphodynamic / Landscape evolution model that simulates erosion and deposition in river catchments and reaches over time scales from hours to 1000's of years.  +
Calculate Chi Indices  +
H
Calculate Hack parameters.  +
F
Calculate floodwater depth based on an inundation polygon (e.g. from remote sensing) and a DEM  +
S
Calculate steepness and concavity indices from gridded topography  +
O
Calculate wave-generated bottom orbital velocities from surface wave parameters  +
P
Calculates potential evapotranspiration  +
Calculates the acoustic values based on physical properties  +
C
Carbonate cellular automatacyclicity  +
A
Cellula automata model for salt marsh evolution with variable soil resistance under wind waves attack  +
G
Cellular automaton model of hillslope evolution  +
C
Cellular landscape evolution model  +
U
Chesapeake Bay Application, special case of Regional Ocean Modeling System (ROMS)  +
C
Chesapeake Bay ROMS Community Model (ChesROMS), special case of ROMS  +
H
Climate driven hydrological transport model  +
C
Coarse-grained delta dynamics and stratigraphy  +
A
Coastal Circulation and Storm Surge Model  +
B
Coastal barrier island transgression model  +
S
Coastal evolution model  +
C
Coastline evolution model  +
D
Code for estimating long-term exhumation histories and spatial patterns of short-term erosion from the detrital thermochronometric data.  +
C
Community Water Model (CWatM) is a hydrological model simulating the water cycle daily at global and local levels, historically and into the future  +
D
Component for calculating drainage density in Landlab given a channel network  +
O
Component simulating overland flow using a 2-D numerical approximation of the shallow-water equations following the de Almeida et al., 2012 algorithm for storage-cell inundation modeling.  +
F
Component to accumulate flow and calculate drainage area.  +
L
Component to calculate drainage area and accumulate flow, while permitting dynamic loss or gain of flow downstream.  +
S
Computation of spherical harmonics, Slepian functions, and transforms  +