Samuel Austin's Profile
Number of items: 28
Date joined: Aug 23 2016
Samuel Austin's Work
#1
Drought Management Test Model
A model simulating drought management response.
sim
⋮ 82 runs
#2
Hydrologic Geometry At-A-Station Relations
An example of hydrologic geometry at-a-station relations.
sim
⋮ 35 runs
Hydrology
#3
Probabilistic Sampling of Instantaneous Flows
An example of probabilistic sampling of instantaneous flows.
sim
⋮ 52 runs
hydrology
#4
New England MLLR Example 2
An example summer month hydrological drought probability estimate based on winter month streamflows.
sim
⋮ 25 runs
hydrology
probability
drought
#5
test flow estimates in a hypothetical river basin
sim
⋮ 26 runs
hydrology
#6
New England MLLR Example 3
An example summer month hydrological drought probability estimate based on winter month streamflows.
sim
⋮ 42 runs
hydrology
probability
drought
#7
Water Quality Monitoring Example River
A water quality modeling demonstration model
sim
⋮ 27 runs
hydrology
#8
BMP Implementation Simulator
Simulate fictional BMP implementation endogenous feedback.
sim
⋮ 129 runs
Hydrology
#9
Sediment Motion and Streambed Simulation Test
Demonstrating sediment motion and streambed simulation
sim
⋮ 43 runs
Hydrology
#10
simulating flood response with probablity and PID control
sim
⋮ 46 runs
hydrology
#11
Peak-Flow Regional Regression Calculator Demonstration 2
A demonstration of peak-flow regional regression calculations in Virginia
sim
⋮ 76 runs
streamflow
hydrology
flood
peakflow
#12
SNR simulator
An illustration of sampling influences of noise and sampling frequency.
sim
⋮ 19 runs
Hydrology
Statistics
#13
Testing Flow Estimates Within a Hypothetical River Basin
A model testing flow estimates within a hypothetical river basin.
sim
⋮ 40 runs
Environment
hydrology
water
#14
New England MLLR Example 1
An example summer month hydrological drought probability estimate based on winter month streamflows.
sim
⋮ 31 runs
hydrology
probability
drought
#15
Chesapeake Bay Estimated Streamflow Test Model
A beta test interface depicting streamflow entering the Chesapeake Bay.
sim
⋮ 363 runs
Environment
Biology
Science
Ecology
hydrology
#16
Instantaneous Flow Hydrologic Envelope Profile
Example of an instantaneous flow hydrologic envelope profile.
sim
⋮ 15 runs
hydrology
#17
Sediment Motion In Streams And Rivers
An illustration of bed sediment motion in streams and rivers using equations developed by Shields an
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An illustration of bed sediment motion in streams and rivers using equations developed by Shields and Strickler.
sim
⋮ 158 runs
Shields sediment motion
fluvial geomorphology
sediment transport
hydraulic geometry
hydrology
#18
Nottoway River Flow Random Sampling Tool
This interface provides sampling of, and access to, Nottoway River flow data.
sim
⋮ 55 runs
hydrology
water
#19
Estimating Fluid Flow Using Darcys Law
A simple model using Darcy's law to estimate fluid flow through porous material over a fixed distanc
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A simple model using Darcy's law to estimate fluid flow through porous material over a fixed distance.
sim
⋮ 113 runs
Darcy’s Law
hydrology
groundwater
laminar flow
fluid mechanics
#20
Instantaneous Flow Values From Probability Density Functions
An example of instantaneous flow values from probability density functions.
sim
⋮ 20 runs
hydrology
#21
Nottoway River at Seabrell Threshold Flow Probability and Time Under Load v1
A beta test model describing threshold flow probability and time under load, Nottoway River near Sea
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A beta test model describing threshold flow probability and time under load, Nottoway River near Seabrell, Virginia. All data are experimental, provisional, subject to revision, and will change
sim
⋮ 15 runs
Environment
Ecology
hydrology
water
#22
Peak-Flow Regional Regression Calculator Demonstration
Demonstration of a tool for calculating peak-streamflows.
sim
⋮ 159 runs
peak-flow
streamflow
#23
Urban Stream Rainfall
A simple example of streamflow response to rainfall and basin percent urban area.
sim
⋮ 590 runs
rainfall-runoff
modeling
simulation
urban peak-flow
streamflow
Uploading a Bundle from Zip
Instead of creating bundles, categories, and assemblies one by one, you can upload a single zip file that contains all of your bundle's content. To create your zipped bundle, make a folder with your bundle's name and add subfolders with your categories' names. The folder tree should have the same structure that you want the categories to have in your bundle. Place your assembly .stmx files in the appropriate category folders, then zip your bundle folder and upload it using the Upload Bundle from Zip link above.
Assemblies, Bundles, and Categories
Assemblies are self contained models that demonstrate common ways to connect together building blocks and that can be used as parts of other models. This is analogous to using prefabricated wall and roof pieces to construct a house.
Bundles are groups of assemblies with a common use or theme. For example, a Health Care bundle might contain a variety of assemblies that aid in creating health care models. When you download assemblies from the isee Exchange™, you download an entire bundle, rather than individual assemblies.
Categories are subgroups of assemblies within a bundle. For example, a Health Care bundle might contain a Funding category for assemblies related to the management of hospital funds. All assemblies must be assigned to a category—they cannot be assigned to the root of a bundle.
Assemblies, bundles, and categories can be created and uploaded to the isee Exchange™ via the options on the Manage My Assemblies page. To learn more, visit our help pages, or take our assemblies tutorial.
Sim App (Sim)
An interface that allows users to interact with a model.
Sim apps allow users to interact with a model using buttons, sliders, knobs, tables, graphs, and storytelling. These interactions help users understand how parts of a system interact.
Interfaces are created by model authors in the Stella desktop software and can be uploaded to the isee Exchange™.
Model
A diagram that represents how elements in a system influence one another.
Models are mathematical representations of how elements in a system are connected and interact (e.g., ecosystems, organizations, supply chains). When running models on the isee Exchange™, results can be viewed in output devices like graphs and tables.
Models appear in the isee Exchange™ directory when authors upload them from the Stella® desktop software or create them with Stella Online™.
Causal Loop Diagram (CLD)
A map that represents the feedback structure of a system.
CLDs are high-level maps that represents the feedback structure of a system and easily communicate the essence of a model. They appear in the isee Exchange™ when authors upload them from the Stella desktop software or create them with Stella Online™.