STEM Model Creator/Tutorials
- 1 Tutorials
- 1.1 Create a SEIR model by extending SIR
- 1.1.1 Create Model Project and Initial Disease Model
- 1.1.2 Add New Compartment
- 1.1.3 Add New Model Parameter
- 1.1.4 Regenerate the Model Project
- 1.1.5 Create Transitions and Expressions
- 1.1.6 Save your Model
- 1.1.7 Imported Demo Scenario, Create Disease and Add to Scenario
- 1.1.8 Summary
- 1.1.9 Run in STEM
- 1.2 Add seasonal modulation to the SEIR model
- 1.1 Create a SEIR model by extending SIR
Create a SEIR model by extending SIR
This tutorial shows how to create a new SEIR Disease Model by extending the existing SIR Disease Model. STEM already has a built-in SEIR model, so this tutorial is more a simple how-to.
Create Model Project and Initial Disease Model
- Launch the STEM application
- Open the Designer perspective
- From the New menu, select Model Generator Project
- Choose Create and configure a new STEM Model Package
- Click Next
- On the Model Package page, enter the following values:
- Package Name: Demo
- Package Prefix: com.example.diseasemodels
- Click Add Model to add the disease model
- On the Model Properties page, enter these values:
- Model Name: MySEIR
- Model Type: Disease Model
- Parent Model: Select SIR from the list
- [ Model Properties image]
- Click Finish
- At this point, your package properties should look like this:
- package properties image
- Click Finish to run the Model Generator and create your model project
- This step may take 1-2 minutes to complete
- After the Model Generator finishes, the Visual Editor should automatically open
- Initial layout picture
Add New Compartment
Now that your model project is created, it's time to add new parameters and compartments. First, lets create a new compartment.
We're creating an S-E-I-R model, which is made up of compartments S, E, I, and R. Since we extended the built-in S-I-R model, we need to add a new E compartment.
- In the Visual Editor, click the Add Compartment button.
- Add Compartment Button
- In the Add Compartment dialog, enter the following values
- Name: e (make sure this is lower case)
- Compartment Type: Standard
- Data Type: double
- Click Finish
- A new e box now appears in the diagram.
- You may want to rearrange the shapes so that the S, E, I, and R boxes are in order (easier when connecting the compartments)
- To rearrange, select a compartment and drag it to a new location.
- [ layout picture ]
That's it. You've added a new compartment to your model. This is now a S-E-I-R model.
Add New Model Parameter
In addition to inheriting compartments from the parent SIR model, the new model also inherits the model (or rate) parameters from SIR. Inherited parameters include Transmission Rate (transmissionRate), Recovery Rate (recoveryRate), Immunity Loss Rate, etc.
We already added the new Exposed state to the disease model. In the textbook SEIR example, the movement from the E to I compartments is called the Incubation Rate. The next step is to add the incubationRate model parameter to the MySEIR model.
- In the Visual Editor, click the Edit Model button.
- [ Edit Model Button ]
- In the Edit Model dialog, click the Add Parameter button
- In the Edit Parameter dialog, enter the following values:
- Name: incubationRate
- Display Name: Incubation Rate
- Data Type: double (default)
- Default Value: 0.0 (default)
- Optionally, add a minValue constraint of 0.0
- Click OK to add the parameter
- Click OK again to apply the changes
Regenerate the Model Project
Changing a model's parameters or compartments requires a Model Regeneration. This operations rebuilds several of the key Java files that make up the structure of your model project. For more information, see the section on Model Regeneration.
To run the Model Generator:
- In the Visual Editor , save the metamodel file
- Click the Model Generator button in the Visual Editor Toolbar
- [ Model Generator button ]
- If prompted, save the metamodel file
- In the Model Generator wizard, immediately click Finish
- Wait while the model is regenerated
- This may take up to a minute to complete
After the Model Generator wizard closes, you're ready to implement the model's transitions and expressions.
Create Transitions and Expressions
You're now ready to move on to the fun part - creating the transitions that describe the movement of a population between various states in the disease model.
Transitions have three key pieces;
- The Source Compartment
- The Target Compartment
- The equation that describes the flow rate out of the source compartment and into the target compartment per time step
With the STEM Visual Editor, you can easily draw the transitions as graph edges between a source and target compartment then use the STEM Expression Editor to enter the rate equation.
For this SEIR Model, we will create transitions between these compartments
- S → E
- E → I
- I → R
- I → diseaseDeaths
- R → S
To draw transitions:
- In the Visual Editor, select the Draw Transition Tool button.
- [ Draw Transition toolbar image ]
- To create the S → E transition:
- Select the S compartment as the source. Click once on the s compartment box
- Select the E compartment as the target. Move the mouse to and click once on the e compartment box
- You should now see a directed connector between the s and e compartment boxes
- [ First Image ]
- Repeat for the other transitions listed above
- After you create all five transitions, your diagram should look like this:
- [ Final image ]
Enter Rate Equations
For our SEIR model, the next step is to enter the equations for the five transitions we created in the previous step.
Using the Expression Editor , you can easily enter the equations that represent the state changes in your model as STEM Expressions. For more information, please read about the STEM Expression Language and the Expression Editor.
- In the Visual Editor, select the Chooser tool in the toolbar
- [ Chooser Tool Icon ]
- Select connector edge between the s and e compartment boxes
- In the Expression Editor , enter the equation expression
- Note: The final statement starts with the word delta and end with a semicolon ( ; )
- For S → E, enter:
- Tip You can use auto-completing expression assistance as you enter your expression. Just type Control - S as you type for the assistance dialog!
- For S → E, select the box next to incidence under For Incidence
- This tells the STEM simulation engine to count this transition as part of the disease incidence
- [ Expression Editor picture ]
- Repeat these steps for the other transitions in the model, entering these expressions for the transition:
Transition Expression Incidences to select S → E
incidence E → I
none I → R
none I → diseaseDeaths
none R → S
Save your Model
That's it! You've now created a simple, textbook S-E-I-R disease model. Before you continue, be sure to Save the model. This will tell STEM to generate the Java code that will back your disease model and install it into the STEM application.
To save the open model in the Visual Editor, either do Control - S ( Command - S on Mac OS X) or open the File menu and select Save.
Imported Demo Scenario, Create Disease and Add to Scenario
You're now ready to try the new SEIR disease model in STEM. At this point, it's helpful to understand how STEM scenarios, models, and simulations work. Please read this guide before continuing.
Download and Import Demo Project & Scenario
As part of this tutorial, we created a simple demo scenario with pre-built scenarios, geographic models, infectors, innoculators, and sequencers. To complete this demo scenario, we'll create a new disease using our MySEIR disease model.
- Download the Visual Editor Demo project zip file
- In the STEM application, open the File menu and select Import
- In the Import Wizard, under General, select Existing projects into Workspace
- Click Next
- Click the radio button next to Select Archive File
- Click Browse and navigate to the location you downloaded ZIP file
- Select VisualEditorDemo.zip and click Open
- Verify VisualEditorDemo is listed under Projects
- Click Finish
- The VisualEditorDemo project should now apear in the Project Explorer
Create MySEIR Disease
Next, we want to create an instance of our new MySEIR disease model.
- In STEM, open the New menu and select Disease
- You can also choose the New Disease icon in the toolbar
- In the New Disease wizard, make sure VisualEditorDemo is the selected project
- For Name, enter SeasonalFlu
- From the Disease Model drop-down, choose MySEIR (probably at the bottom of the list)
- For Disease Name, enter flu (lower case)
- Enter appropriate rate parameter values. For this demo, here are some suggestions:
- Transmission Rate: 1.2
- Infectious Recovery Rate: 0.3
- Immunity Loss Rate: 0.05
- Incubation Rate: 0.5
- All others: defaults
- Click Finish to create the new disease
Add Disease to Geographic Model and Run Simulation
Next, we'll add the new Disease to the pre-built geographic model and run a scenario.
- In the STEM Project Explorer, expand the VisualEditorDemo project
- Expand the Models folder. Double-click on CubaDisease.model
- The CubaDisease.model editor should open
- In Project Explorer, expand the Decorators folder
- Select My SEIR flu and drag and drop into the CubaDisease.model editor root.
- Save and Close the CubaDisease.model editor
- In Project Explorer, expand the Scenarios folder
- Right Click on CubaDisease.scenario and select Step
- This will launch a simulation and open the Simulation perspective
- Under the Graph Map, double click on the Cuba polygon to open a Time Series tracker
- Under Simulation, click the Run Button [ green arrow image ] to start the simulation
- Wait while the simulation runs, watching the Time Series view of the epidemic curve
- Your epidemic curve should look like this:
- [ epi curve ]
- When the simulation finishes, you can click the Stop [stop button image] button
You're finished! You've successfully authored a simple, textbook SEIR disease model, created a disease instance in STEM, and run a simple spatiotemporal simulation. Obviously this is not a real-world example, but it's a good introduction into using the STEM Model Creator, Visual Editor, and Expression Language to easily author compartmental models of disease.
See the next tutorial for creating more complicated disease models