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This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

List of results

• Model:QUODDY  + (A state-of-the-art finite-element computer simulation program for coastal ocean circulation modeling)
• Model:TauDEM  + (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)
• Model:FineSed3D  + (A turbulence-resolving numerical model for fine sediment transport in bottom boundary layer)
• Model:NUBBLE  + (A turbulent boundary layer model for the linearized shallow water equations)
• Model:ZoneTaxon  + (A zone-based taxon)
• Model:Anuga  + (ANUGA is a hydrodynamic modelling tool that allows users to model realistic flow problems in complex 2D geometries.)
• Model:AnugaSed  + (Add-on package to ANUGA with modules for sediment transport and vegetation drag)
• Model:AeoLiS  + (AeoLiS is a process-based model for simulating aeolian sediment transport in situations where supply-limiting factors are important, like in coastal environments.)
• Model:DECAL  + (Aeolian dune landscape model)
• Model:CSt ASMITA  + (Aggregate scale morphodynamic model of integrated coastal systems)
• Model:ALFRESCO  + (Alaskan Frame‐based Ecosystem Code)
• Model:Hilltop flow routing  + (Algorithm for directly measuring hillslope length from high resolution topographic data)
• Model:DrEICH algorithm  + (Algorithm for extracting channel networks from high resolution topographic data)
• Model:Mixed bedrock-alluvial morphodynamic  + (Alluvial morphodynamics of bedrock reaches)
• Model:SiStER  + (An easy-to-use MATLAB code to simulate long-term lithosphere and mantle deformation.)
• Model:SedBerg  + (An iceberg drift and melt model, developed to simulate sedimentation in high-latitude glaciated fjords.)
• Model:TURBINS  + (An immersed boundary, Navier–Stokes code for the simulation of gravity and turbidity currents interacting with complex topographies.)
• Model:IDA  + (An implementation of the Implicit Drainage Area method (regular and hybrid versions) for calculating drainage area from flow directions using parallel iterative solvers.)
• Model:River Erosion Model  + (An intermediate complexity model for simulating stream channel evolution (years to decades) at the watershed scale.)
• Model:SNAC  + (An updated Lagrangian explicit finite difference code for modeling a finitely deforming elasto-visco-plastic solid in 3D.)
• Model:SLEPIAN Delta  + (Analysis of time-variable gravity from the GRACE satellite mission using spherical harmonics and spherical Slepian functions)
• Model:BITM  + (Barrier Island Translation model)
• Model:BarrierBMFT  + (Barrier-Bay-Marsh-Forest Transect Coupled Model Framework)
• Model:Badlands  + (Basin and landscape dynamics)
• Model:Sedflux  + (Basin filling stratigraphic model)
• Model:River Network Bed-Material Sediment  + (Bed-material sediment transport and storage dynamics on river networks.)
• Model:BEDLOAD  + (Bedload transport model)
• Model:BOM  + (Bergen Ocean Model)
• Model:Bio  + (Biogenic mixing of marine sediments)
• Model:BlockLab  + (BlockLab computes landscape evolution in the presence of large blocks of rock on hillslopes and in channels.)
• Model:Terrapin  + (Build and destroy strath and fill terraces)
• Model:CAESAR Lisflood  + (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.)
• Model:ChiFinder  + (Calculate Chi Indices)
• Model:HackCalculator  + (Calculate Hack parameters.)
• Model:FwDET  + (Calculate floodwater depth based on an inundation polygon (e.g. from remote sensing) and a DEM)
• Model:SteepnessFinder  + (Calculate steepness and concavity indices from gridded topography)
• Model:OceanWaves  + (Calculate wave-generated bottom orbital velocities from surface wave parameters)
• Model:PotentialEvapotranspiration  + (Calculates potential evapotranspiration)
• Model:Physprop  + (Calculates the acoustic values based on physical properties)
• Model:CarboCAT  + (Carbonate cellular automatacyclicity)
• Model:Auto marsh  + (Cellula automata model for salt marsh evolution with variable soil resistance under wind waves attack)
• Model:GrainHill  + (Cellular automaton model of hillslope evolution)
• Model:Caesar  + (Cellular landscape evolution model)
• Model:UMCESroms  + (Chesapeake Bay Application, special case of Regional Ocean Modeling System (ROMS))
• Model:ChesROMS  + (Chesapeake Bay ROMS Community Model (ChesROMS), special case of ROMS)
• Model:HydroTrend  + (Climate driven hydrological transport model)
• Model:CellularFanDelta  + (Coarse-grained delta dynamics and stratigraphy)
• Model:ADCIRC  + (Coastal Circulation and Storm Surge Model)
• Model:Barrier Inlet Environment (BRIE) Model  + (Coastal barrier island transgression model)
• Model:Shoreline  + (Coastal evolution model)

• Model:CEM  + (Coastline evolution model)

• Model:Detrital Thermochron  + (Code for estimating long-term exhumation histories and spatial patterns of short-term erosion from the detrital thermochronometric data.)
• Model:Drainage Density  + (Component for calculating drainage density in Landlab given a channel network)
• Model:OverlandFlow  + (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.)
• Model:FlowAccumulator  + (Component to accumulate flow and calculate drainage area.)
• Model:LossyFlowAccumulator  + (Component to calculate drainage area and accumulate flow, while permitting dynamic loss or gain of flow downstream.)
• Model:SLEPIAN Alpha  + (Computation of spherical harmonics, Slepian functions, and transforms)
• Model:SLEPIAN Echo  + (Computation of vectorial spherical harmonics, vectorial Slepian functions, and transforms)
• Model:Radiation  + (Compute 1D and 2D total incident shortwave radiation.)
• Model:StreamPowerSmoothThresholdEroder  + (Compute fluvial erosion using stream power theory with a numerically smoothed threshold)
• Model:FastscapeEroder  + (Compute fluvial erosion using stream power theory (“fastscape” algorithm))
• Model:SedDepEroder  + (Compute fluvial erosion using using “tools and cover” theory)
• Model:SoilMoisture  + (Compute the decay of soil moisture saturation at storm-interstorm time period)
• Model:BRaKE  + (Computes evolution of a bedrock river longitudinal profile in the presence of large, hillslope-derived blocks.)
• Model:ZoneController  + (Controls zones and populates them with taxa.)
• Model:CBIRM  + (Coupled Barrier Island-Resort Model)
• Model:GSSHA  + (Coupled distributed engineering hydrology, sediment, contaminant fate/transport)
• Model:MIDAS  + (Coupled flow- heterogeneous sediment routing model)
• Model:CMFT  + (Coupled salt Marsh - tidal Flat Transect model)
• Model:FractureGridGenerator  + (Create a 2D grid with randomly generated fractures.)
• Model:Lithology  + (Create a Lithology object with different properties)
• Model:Cross Shore Sediment Flux  + (Cross-Shore Sediment Flux Equations)
• Model:CryoGrid3  + (CryoGrid 3 is a simple land-surface scheme dedicated to modeling of ground temperatures in permafrost environments.)
• Model:DHSVM  + (DHSVM is a distributed hydrologic model that explicitly represents the effects of topography and vegetation on water fluxes through the landscape.)
• Model:CMIP  + (Data component provides monthly mean temperature for Permafrost Region 1902-2100)
• Model:WINDSEA  + (Deep water significant wave height and period simulator during a hurricane routine)
• Model:Flexure  + (Deform the lithosphere with 1D or 2D flexure.)
• Model:DeltaRCM Vegetation  + (Delta-building model DeltaRCM expanded to include vegetation)
• Model:Demeter  + (Demeter - A Land Use and Land Cover Change Disaggregation Model)
• Model:GeoClaw  + (Depth-averaged fluid dynamics for modeling geophysical flows and wave propagation)
• Model:Diffusion  + (Diffusion of marine sediments due to waves, bioturbation)
• Model:TopoFlow-Channels-Diffusive Wave  + (Diffusive Wave process component for flow routing in a D8-based, spatial hydrologic model)
• Model:DLBRM  + (Distributed Large Basin Runoff Model)
• Model:DR3M  + (Distributed Routing Rainfall-Runoff Model--version II)
• Model:GEOtop  + (Distributed hydrological model, water and energy budgets)
• Model:TopoFlow-Diversions  + (Diversions component for a D8-based, spatial hydrologic model.)
• Model:DynEarthSol3D  + (DynEarthSol3D is a finite element solver that models the momentum balance and the heat transfer of elasto-visco-plastic material in the Lagrangian form.)
• Model:TopoFlow-Channels-Dynamic Wave  + (Dynamic Wave process component for flow routing in a D8-based, spatial hydrologic model)
• Model:LONGPRO  + (Dynamic evolution of longitudinal profiles)
• Model:Glimmer-CISM  + (Dynamic thermo-mechanical ice sheet model)
• Model:AgDegNormalGravMixHyd  + (E-book: A module that calculates the evolution of a gravel bed river under an imposed cycled hydrograph.)
• Model:AgDegBW  + (E-book: Calculator for aggradation and degradation of a river reach using a backwater formulation.)
• Model:RiverWFRisingBaseLevelNormal  + (E-book: Calculator for disequilibrium aggradation of a sand-bed river in response to rising base level.)
• Model:DeltaNorm  + (E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using the normal flow approximation.)
• Model:GravelSandTransition  + (E-book: Calculator for evolution of long profile of river with a migrating gravel-sand transition and subject to subsidence or base level rise.)
• Model:DeltaBW  + (E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using a backwater formulation.)
• Model:GSDCalculator  + (E-book: Calculator for statistical characteristics of grain size distributions.)
• Model:AgDegNormalFault  + (E-book: Illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation; with an extension for calculation of the response to a sudden fault along the reach.)
• Model:DepDistTotLoadCalc  + (E-book: Illustration of calculation of depth-discharge relation, bed load transport, suspended load transport and total bed material load for a large, low-slope sand-bed river.)
• Model:WPHydResAMBL  + (E-book: Implementation of the Wright-Parker (2004) formulation for hydraulic resistance combined with the Ashida-Michiue (1972) bedload formulation.)
• Model:SuspSedDensityStrat  + (E-book: Module for calculating the effect of density stratification on the vertical profiles of velocity and suspended sediment.)