Skip to main content

Notice: this Wiki will be going read only early in 2024 and edits will no longer be possible. Please see: https://gitlab.eclipse.org/eclipsefdn/helpdesk/-/wikis/Wiki-shutdown-plan for the plan.

Jump to: navigation, search

Difference between revisions of "STEM"

(Introductory Resources)
(STEM Documentation)
(440 intermediate revisions by 8 users not shown)
Line 1: Line 1:
 
[[Image:STEM TOP BAR.gif|800px]]
 
[[Image:STEM TOP BAR.gif|800px]]
  
The '''Spatio-Temporal Epidemiological Modeler (STEM)''' is a tool designed to help scientists and public health officials create and use models of emerging infectious diseases. STEM uses mathematical models of diseases (based on differential equations) to simulate the development or evolution of a disease in space and time (e.g., avian flu or salmonella). These models could aid in understanding, and potentially preventing, the spread of such diseases. STEM also comes pre-configured with a vast amount of reference or denominator data for the entire world. By using and extending the data and models in STEM it is possible to rapidly prototype and test models for emerging infectious disease. STEM also provides tools to help you compare and validate your models. As an open source project, the ultimate goal of STEM is to support and encourage a community of scientists that not only use STEM as a tool but also contribute back to it. STEM is designed so that models and scenarios can be easily shared, extended, and built upon.
+
{| align="right"
 +
  | __TOC__
 +
  |}
  
 +
== '''STEM Community Phone Call''' ==
  
== STEM Documentation ==
+
The STEM community runs a [[Join the STEM Community|monthly phone call]] anyone is free to join. The agenda for the call is posted on stem-dev.org every month early in the week of the call for you to view.
 +
The special series of [[Community Ebola Modeling Phone Call]]s has been merged back with our regular [[Join the STEM Community|monthly phone call]].
 +
You can still see all the Ebola content [[Join the STEM Community#Ebola Community Efforts|here]]
  
=== Introductory Resources ===
+
== '''STEM Documentation''' ==
  
*Full length STEM Tutorials on YouTube<sup>TM</sup>
+
The '''Spatio-Temporal Epidemiological Modeler (STEM)''' is a tool designed to help scientists and public health officials create and use models of emerging infectious diseases. STEM uses mathematical models of diseases (based on differential equations) to simulate the development or evolution of a disease in space and time (e.g., avian flu or salmonella). These models could aid in understanding, and potentially preventing, the spread of such diseases. STEM also comes pre-configured with a vast amount of reference or denominator data for the entire world. By using and extending the data and models in STEM it is possible to rapidly prototype and test models for emerging infectious disease. STEM also provides tools to help you compare and validate your models. As an open source project, the ultimate goal of STEM is to support and encourage a community of scientists who not only use STEM as a tool but also contribute back to it. STEM is designed so that models and scenarios can be easily shared, extended, and built upon.
#[http://www.youtube.com/watch?v=LfiibQX4IFE In English]
+
#[http://www.youtube.com/watch?v=AFYXvazKkms In Hebrew]
+
#[http://www.youtube.com/watch?v=NM5X8-MaiKo In Japanese]
+
#[http://www.youtube.com/watch?v=3S5DbjCHsx4 In Spanish]
+
  
*[http://www.youtube.com/watch?v=OoiFLemepw4 5 min Video (English)]
+
{| style="width: 90%" border="1" cellpadding="5" cellspacing="0" align="center"
*[http://www.eclipse.org/stem/talksOnline.php Scientific Talks Online]
+
|+ 
*[http://www.eclipse.org/stem/ STEM Website]
+
|-
*[[Whats New in STEM]]
+
! style="width: 45%; background: #cceeff;" |
*[[STEM FAQ|STEM FAQ]]
+
=== Introductory Resources  ===
*[[Join the STEM Community]]
+
! colspan="2" style="width: 45%; background: #cceeff;" |
 +
=== Tutorials ===
 +
|-
 +
|
 +
<!-- upper left (INTRODUCTORY RESOURCES GO HERE) -->
 +
*[[Installation Guide]]
 +
*[http://www.eclipse.org/stem/ The STEM Website]
 +
*[[About STEM]]
 +
*[[Whats New in STEM|What's New in STEM]]
 +
*STEM Tutorials on YouTube<sup>TM</sup>
 +
#[http://www.youtube.com/watch?v=MtQlS7g7Qnw STEM Model Generator (new!!)] ''requires STEM V2.0 milestone''
 +
#Full length video [http://www.youtube.com/watch?v=LfiibQX4IFE In English]
 +
#Full length video [http://www.youtube.com/watch?v=AFYXvazKkms In Hebrew]  
 +
#Full length video [http://www.youtube.com/watch?v=NM5X8-MaiKo In Japanese]  
 +
#Full length video [http://www.youtube.com/watch?v=3S5DbjCHsx4 In Spanish]  
 +
#[http://www.youtube.com/watch?v=OoiFLemepw4 5 min Video (English)]
 +
#Avian Influenza
 +
##Only [https://youtu.be/tI0Ogy-8O10 Poultry-Human Transmission]  
 +
##Including  [https://youtu.be/0YJ6FxdhFm8 Human-Human Transmission]  
  
=== Getting Started ===
+
*[http://www.eclipse.org/stem/talksOnline.php Scientific Talks Online] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
 +
*[[STEM FAQ|STEM FAQ]]
 +
*[[Publications and Presentations on STEM]]
 +
*[[Citing STEM]]
 +
*[[Join the STEM Community|How to Join the STEM Community]]
 +
*[[The STEM Development Team]]
 +
*[[Join the STEM Community|Weekly phone call]]
 +
|
 +
<!-- upper right (TUTORIALS) -->
 +
*'''[[Creating a STEM Scenario]]''' '''step by step'''
 +
*'''[[How_scenarios_are_structured| Scenario Structure: Tutorial with Templates]]'''
 +
#[[How_scenarios_are_structured#Template_for_a_Basic_Scenario_with_a_Human_Disease|Model with Human-Human Transmission]]
 +
#[[How_scenarios_are_structured#Template_for_a_Food_Borne_Disease_Scenario|Model of Food Borne disease]]
 +
*'''[[Initializing Disease Compartments|Initializing Diseases ''(Infectors, Inoculators, and Initializers)'']]'''
 +
*'''[[STEM Import Discrete Transportation Events|Import Discrete Transportation Events]]'''
 +
*'''[[Triggering interventions|Triggering Interventions]]'''
 +
#[[Triggering interventions#Social Distancing Example|Social Distancing Example]]
 +
#[[Triggering interventions#Vaccination Example|Vaccination Example]]
 +
#[[Triggering interventions#Evacuation Example|Evacuation Example]]
 +
#[[Triggering interventions#Air Transportation Example|Air Transportation Example]]
  
 +
*'''Using Population Models'''
 +
# [[Initializing a Population]]
 +
#[[Using Structured Populations in STEM|Using Structured Populations in STEM]]
 +
#[[Using Aging Populations in STEM|Using Aging Populations in STEM]]
 +
 +
*'''Running Simulations'''
 +
#[[STEM_Map_View|The STEM Map View]]
 +
#[[Batch Mode (Running Experiments)|Running Experiments in Batch Mode]]
 +
#[[Running an Automated Experiment]]
 +
#[[STEM Headless|Running STEM Headless]] ''(STEM on Server)''
 +
#[[Importing Data from Files]]
 +
#[[STEM Loggers|Simulation Data Logging]]
 +
#[[Visualizing STEM Simulations with Google Earth]]
 +
 +
*'''''(new)'' Automated Model Creation'''
 +
#[[STEM Model Creator]] for users (''beta'')
 +
|-
 +
! style="background: #cceeff;" |
 +
=== Advanced Guides ===
 +
! colspan="2" style="background: #cceeff;" |
 +
=== Epidemiological Modeling ===
 +
|-
 +
|
 +
<!-- middle left (ADVANCED GUIDES GOES HERE) -->
 
*[[Welcome STEM Developers]]
 
*[[Welcome STEM Developers]]
*[[STEM Installation Guide|Installing the STEM Application]]
 
*[[STEM Addons|Installing Additional Features]]
 
 
*[[STEM Eclipse Setup|Setting up a STEM Development Environment]]
 
*[[STEM Eclipse Setup|Setting up a STEM Development Environment]]
*[[STEM Design Document]]
+
*[[STEM Design Document]] ''(updated 4/29/2016)''
*[[Sample Projects available for Download|Sample Projects Available for Download]]
+
 
*[[STEM National Language Support | National Language Support]]
 
*[[STEM National Language Support | National Language Support]]
 
+
*[http://www.eclipse.org/projects/project.php?id=technology.stem Project Stats]
=== Available Models ===
+
*[[Building the STEM RCP Application|Building the STEM RCP Application]]
 
+
*[[STEM Create EMF Project|Example: Create a STEM JSON Logger (a new EMF Project)]]
*[[Introduction to Compartment Models|Compartment Models]]  
+
*[[Running STEM from the Development Environment]]
*[[Available Models|Disease and Population Models]]
+
*[[STEM Headless|Running STEM Headless]] ''(STEM on Server)''
 +
*[[Creating a Customized Color Provider|Customizing Colors]]
 +
*[[STEM Performance Tips |General tips when writing performance critical code]]
 +
*Working with Graphs
 +
#[[Composing a Graph]]
 +
#[[Creating a new Graph|Creating a Custom Graph]] (''new'') ''seasonal migration''
 +
#[[Visualizing and Editing Graphs]] ''with the STEM Graph Editor  ''&nbsp;&nbsp;
 +
#[[Importing a Pajek Graph|Importing a Graph from a Pajek File]]
 +
#[[Importing an Esri Shapefile|Importing a Graph from an Esri Shapefile]]
 +
*[[STEM_Solvers|Available STEM Solvers]]
 +
**STEM Native Solvers
 +
**Apache Common Math Solvers
 +
**Stochastic Solver
 +
|
 +
<!-- middle right (EPIDEMIOLOGICAL MODELING GOES HERE)-->
 +
*[[Sample Projects available for Download|Sample Projects (Downloadable Scenarios)]]
 +
* ''(new!!)'' [[Epidemiological Parameters]]
 +
*[[Introduction to Compartment Models|Intro to Compartment Models]]  
 +
*[[STEM Disease Models|Disease Models (basic to advanced)]]
 +
*[[STEM Population Models|Population Models]]
 +
#[[STEM_Population_Models#Standard_Population_Model|Standard Populations]]
 +
#[[STEM_Population_Models#Advanced_Models|Insect Vectors]]
 +
#[[STEM_Population_Models#Seasonal_Migratory_Population_Model|Migratory Birds]]
 +
#[[STEM_Population_Models#Multipopulation_Models|Demographic Models (and Aging)]]
 +
*[[STEM Food and Food Borne Disease|Food Borne Disease Models]]
 +
#[[Sample_Projects_available_for_Download#1._Beef_Production|Beef Production Example]]
 +
#[[Sample_Projects_available_for_Download#2._A_scenario_for_modelling_the_transmission_of_Salmonella_to_pigs.2C_pork_and_humans|Salmonella in Pork Example]]
 +
#[[How_scenarios_are_structured#Template_for_a_Food_Borne_Disease_Scenario|How to Structure a Food Borne Disease Scenario]]
 
*[[Transportation Models|Transportation Models]]
 
*[[Transportation Models|Transportation Models]]
 
*[[Air Travel Model|Air Travel Model]]
 
*[[Air Travel Model|Air Travel Model]]
*[[STEM_Solvers|Solvers]]
+
*'''Modeling New Diseases'''
*[[Disclaimer]]
+
#[[STEM Model Creator|Using the '''''New!!''''' STEM Model Creator tool]] (''beta'')
 +
#[[STEM Model Generator]] tool (for Developers)
 +
#[[STEM_Model_Generator/Install|Model Generator Installation]]
 +
#[[Creating a new Disease Model Plug-in|Manual Model Plug-in generation]]
 +
#[[Creating a new disease label|Manual Disease Label creation]]
  
=== Tutorials ===
+
|-
 +
! style="background: #ffdead;" |
 +
=== Release Planning ===
 +
! colspan="2" style="background: #ffdead;" |
 +
=== Disclaimer ===
 +
|-
 +
|
 +
<!-- bottom left (RELEASE PLANNING GOES HERE) -->
 +
''Please also see our [http://www.eclipse.org/stem website]'' and [[Whats New in STEM|What's New in STEM]]
 +
* V3.0.0 Milestone 1 is now Available
 +
* Based on and compatible with Eclipse 4.5.1 (Mars)
 +
* STEM V3.0.0M1 supports (J2SE) 8.0 JVM. ''In fact - it's required''
  
*[[Importing and Exporting Projects]]
+
* V2.0.3 Now Available (Feb. 2015)
*[[Creating a STEM Scenario]]
+
** Bug Fixes
*[[How scenarios are structured]]
+
** Updated Admin 0 borders added
*[[Initializing a Population]]
+
** New models
*[[Initializing Disease Compartments]]
+
** Updated Google Earth(tm) Interface
*[[Using Structured Populations in STEM|Using Structured Populations in STEM]]
+
*[[Using Aging Populations in STEM|Using Aging Populations in STEM]]
+
*[[Batch Mode (Running Experiments)|Running Experiments in Batch Mode]]
+
*[[Running an Automated Experiment]]
+
*[[STEM Headless|Running STEM Headless]]
+
*[[Triggering interventions|Triggering Interventions]]
+
*[[Map|The STEM Map View]]
+
*[[Importing Data from Files]]
+
*[[Logging Data to Files]]
+
*[[Analysis|Analysis: Four Tools]]
+
*[[Context-Sensitive Help]]
+
  
=== Advanced Guides ===
+
* Release Engineering
 +
** STEM releases are created by the team of STEM committers and uploaded to Eclipse on a regular basis.
 +
** Documentation for the process may be found on the [[STEM Releng]] page.
 +
|
 +
<!-- bottom right (DISCLAIMER GOES HERE) -->
  
*[[Building the STEM RCP Application|Building the STEM RCP Application]]
 
*[[Running STEM from the Development Environment]]
 
*[[Composing a Graph]]
 
*[[Creating a new Graph|Creating a Custom Graph]]
 
*[[Visualizing and Editing Graphs]] with the STEM Graph Editor
 
*[[Importing a Pajek Graph|Importing a Graph from a Pajek File]]
 
*[[Creating a new Disease Model Plug-in|Creating a New Disease Model Plug-in Using EMF]]
 
*[[Creating a new disease label|Creating a New Disease Label]]
 
*[[Creating a Customized Color Provider]]
 
 
== What's New ==
 
 
Please see the page [[Whats New in STEM]] to see a list of new features, features coming soon, and a historical list of some major STEM features.
 
 
== About STEM ==
 
 
[[Image:GlobalH1N1As.jpg|frame|right|600px|A Global H1N1 Simulation.]]
 
What is the '''Spatiotemporal Epidemiological Modeler''' ('''STEM''')?
 
The Spatiotemporal Epidemiological Modeler (STEM) tool is designed to help scientists and public health officials create and use spatial and temporal models of emerging infectious diseases. These models can aid in understanding and potentially preventing the spread of such diseases.
 
 
Policymakers responsible for strategies to contain disease and prevent epidemics need an accurate understanding of disease dynamics and the likely outcomes of preventive actions. In an increasingly connected world with extremely efficient global transportation links, the vectors of infection can be quite complex. STEM facilitates the development of advanced mathematical models, the creation of flexible models involving multiple populations (species) and interactions between diseases, and a better understanding of epidemiology.
 
 
'''How does it work?''' The STEM application has built in Geographical Information System (GIS) data for almost every country in the world. It comes with data about country borders, populations, shared borders (neighbors), interstate highways, state highways, and airports. This data comes from various public sources.
 
 
STEM is designed to make it easy for developers and researchers to plug in their choice of models. It comes with spatiotemporal Susceptible/Infectious/Recovered (SIR) and Susceptible/Exposed/Infectious/Recovered (SEIR) models pre-coded with both deterministic and stochastic engines.
 
 
The parameters in any model are specified in XML configuration files. Users can easily change the weight or significance of various disease vectors (such as highways, shared borders, airports, etc). Users can also create their own unique vectors for disease. Further details are available in the user manual and design documentation.
 
 
The original version of [http://www.alphaworks.ibm.com/tech/stem STEM] was available for downloading on IBM's Alphaworks. It contained easy to follow instructions and many examples (various diseases and maps of the world).
 
 
New developers who want to work on STEM can find useful tools, conventions, and design information in the [[Welcome STEM Developers]] article.
 
 
The STEM code repository is hosted on the Eclipse Technology code repository.
 
 
 
 
== More About STEM ==
 
 
=== STEM Plugins ===
 
 
STEM takes advantage of Equinox (the Eclipse implementation of OSGI) to make all of its components available as Eclipse Plugins. This means that both the models and data that come with STEM are reusable, exchangeable, extendable, and - if you don't like them - they are replaceable. The Disease Models in STEM are based on standards compartment models at the level of Anderson and May. Today we have both stochastic and deterministic implementations of SI, SIR, and SEIR models. We are also developing models for specific diseases including a global model for seasonal influenza. Any model in STEM requires a solver to integrate the differential equations. Today we have both Finite Difference and Runge Kutta mathematical solvers for every model. The solvers themselves are provided as plugins.
 
 
=== Data ===
 
 
Regardless of the computational approach used to predict the future state of a disease, any simulation or model requires "denominator" data. The numerator data usually comes from public health data on specific reportable conditions. You can think of numerator data as an “initial condition” or input into a model. Historic (numerator) data can be used to validate a model. However, for every model there is a need for a large variety of denominator data. This includes information on the population itself as well as information on the vectors of disease transmission. Depending on the disease of interest, these vectors might include a transportation model or even a model of a migrating wild animal population. The Eclipse Framework gives users a simple “plug and play” software architecture with a drag and drop interface so when composing a new model or scenario users can drag specific data of interest into their model and literally "compose" a new scenario. The data sets distributed with STEM include geography, transportation systems (e.g., roads, air travel), and population for the 244 countries and dependent areas defined by International Standards Organizations. We make no guarantees about the accuracy of the data provided, and users may certainly chose to plug in their own data replacing what comes with STEM. The data provided comes from open public sources including
 
 
* [https://cia.gov/cia/publications/factbook/geos/aa.html The CIA Fact Book]
 
* [http://www.grid.unep.ch/data.php?category=human_related United Nations Environment Programme (UNEP)]
 
* [http://www.census.gov/geo/www/tiger/ The U.S. Census Bureau Tiger files]
 
* National Population Census Facts can also be found through http://www.census.gov/aboutus/stat_int.html
 
 
====Population====
 
[[Image:WorldPopulationDensityS.jpg|frame|left|600px|World Population Density.]]
 
The population in STEM is based on census data for the administrative divisions that correspond to the polygons visible on the STEM maps. Where possible, administrative data was included down to [http://www.iso.org/iso/english_country_names_and_code_elements ISO-3166] administrative level 2 (equivalent of counties in the U.S.). In some cases we were only able to obtain data at administrative level 0 (country level data). For those instances where we do have admin 2 data, the relative population distributions between subdivisions within the countries were validated against The [http://www.ornl.gov/sci/landscan/ ORNL LandScan 2007(TM)/UT-Battelle, LLC]  data set. ''The LandScan 2007™ High Resolution Global Population Data Set copyrighted by UT-Battelle, LLC, operator of Oak Ridge National Laboratory under Contract No. DE-AC05-00OR22725 with the United States Department of Energy. The United States Government has certain rights in this Data Set. NEITHER UT-BATTELLE, LLC NOR THE UNITED STATES DEPARTMENT OF ENERGY, NOR ANY OF THEIR EMPLOYEES, MAKES ANY WARRANTY, EXPRESS OR IMPLIED, OR ASSUMES ANY LEGAL LIABILITY OR RESPONSIBILITY FOR THE ACCURACY, COMPLETENESS, OR USEFULNESS OF THE DATA SET.''
 
 
STEM itself '''''does not''''' include the LandScan(TM) data. In fact, ''in all cases'' the total population at the national level is based on national census facts by country ''and not based on LandScan(TM)''. Almost all the census Facts are referenced to (or scaled to) year 2006. For users interested in creating, on their own, a new STEM population set referenced to LandScan(TM) itself, LandScan(TM) Dataset licenses are available free of charge for U.S. Federal Government, for United Nations Humanitarian efforts, and educational research use. A user defined data set could, if desired, also replace the administrative divisions in STEM with a user defined grid of arbitrary resolution.
 
 
Development of STEM is supported, in part by the U.S. Air Force Surgeon General’s Office (USAF/SG) and administered by the Air Force District of Washington (AFDW) under Contract Number FA7014-07-C-0004. Neither Eclipse, the United States Airforce, IBM, nor any of their employees, nor any contributors to STEM, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of the stem data sets. The Air Force has not accepted the products depicted and issuance of a contract does not constitute Federal endorsement of the IBM Almaden Research Center.
 
 
====Population Models====
 
Even though the population data is based on a particular set of facts derived or interpolated from a census in some year, you may want to do a simulation in a different year. Even if you replace the data included in STEM with your own data set, you may want to study years other than the year in which that data set was "considered valid." For this reason, population in STEM is not represented as a static label value. Population is, instead, represented by a '''population model'''. The purpose of a population model is to handle general effects on a population that are not caused by a specific disease outbreak. Right now, there is only one Population Model available that allows you to define a background birth and death rate for your scenario. Some things to note:
 
 
1. Background birth rate and death rate are no longer available within the standard disease models. They have been moved to the Population Model. So for old scenarios where you had your birth/death rate defined you need to create a new population model, specify your birth/death rate and drag it into your scenario.
 
 
2. To create a population model, go to the menu (New -> Population Model).
 
 
3. A population model is just like a disease model (it ends up under decorators in the project explorer) and it will store its own log files under its name in the log folder
 
 
4. Disease models and population models should work well together and synchronize up background birth/deaths and disease deaths among each other each iteration. If you don't have a population model in your scenario, the background birth/death rate is 0. When two or more diseases are running simultaneously, they will incorporate each other's disease deaths into their calculations.
 
 
For more information on several of the available population models please see [[Available Models#Models of Population]]
 
 
===Scenarios===
 
User designed scenarios include selected denominator data, initial conditions, geographic data (a region of the world or the entire world), mathematical disease models, a solver, start and stop dates, etc. These scenarios themselves are represented in the Eclipse framework so they too can be build upon and exchanged. So STEM is intended to provide a common collaborative platform that enables sharing; the import and export of models that they can be easily exchanged among researchers. A researcher who has developed a detailed country model that includes population demographics can import a component with specialized disease mathematics from another researcher and combine the two. The new combination can then be re-exported (with descriptive metadata) for others to use.  The design goal of STEM is for the country sub-model to be a standardized community resource maintained and refined by many different contributors. Over time, the country model will become more accurate, detailed, and valuable. With data available as plug-ins, researchers will be free to contribute data in their field of expertise. Thanks to Eclipse, researchers will find it easier to compare and share different models because their underlying components will be the same. On the [http://www.eclipse.org/stem/ STEM homepage] you can find links to some scenarios that you can import, run, and modify in this way.
 
 
== [[Join the STEM Community]] ==
 
Click on [[Join the STEM Community]] to learn more about the STEM Community.
 
 
== Eclipse Project Mentors ==
 
 
Our Eclipse Project Mentors are:
 
Ed Merks  mailto:ed.merks@gmail.com
 
and
 
Chris Aniszczyk  mailto:zx@eclipsesource.com
 
  
 +
<br>
 +
Click on the header for this section to view the [[Disclaimer]].
 +
|-
 +
| colspan="3" align="center" |
 +
|}
  
 
[[Category:Eclipse Technology Project]]
 
[[Category:Eclipse Technology Project]]
 
== [[Publications and Presentations on STEM]]  ==
 
Click on [[Publications and Presentations on STEM]] to see a list of recent scientific publications and presentations describing research done with STEM.
 
 
== Future STEM Releases (Planned)  ==
 
 
'''V1.3.0'''
 
Planned Date 1/29/2012
 
Planned and Tentative Features:
 
 
* Ten years of Earth Science Data (2000-2010) available as STEM '''Features'''
 
* Malaria Disease Model (''Anopheles'' calibrated)
 
* Dengue Fever Disease Model (''Aedes'' not yet calibrated)
 
* Additional NLS + User ability to switch languages
 
* Logger Framework with new loggers
 
* Shape File Import Utility (Dependency on Open Map CQ)
 
* Integrating external models for study of food based transmission
 
* New Differential Equation solver(s) from commons.math library
 
* Bug Fixes from 1.2.2
 
 
 
 
 
'''V1.3.1'''
 
Tentative Date 1/15/2012
 
Tentative Features:
 
* Bug Fixes to 1.3.0
 
* auto-documenting run parameters
 
* parameter sensitivity analysis
 
 
'''...future'''
 
* Running Distributed STEM
 
 
 
{| align="right"
 
  | __TOC__
 
  |}
 

Revision as of 21:28, 29 April 2016

STEM TOP BAR.gif

STEM Community Phone Call

The STEM community runs a monthly phone call anyone is free to join. The agenda for the call is posted on stem-dev.org every month early in the week of the call for you to view. 
The special series of Community Ebola Modeling Phone Calls has been merged back with our regular monthly phone call.
You can still see all the Ebola content here

STEM Documentation

The Spatio-Temporal Epidemiological Modeler (STEM) is a tool designed to help scientists and public health officials create and use models of emerging infectious diseases. STEM uses mathematical models of diseases (based on differential equations) to simulate the development or evolution of a disease in space and time (e.g., avian flu or salmonella). These models could aid in understanding, and potentially preventing, the spread of such diseases. STEM also comes pre-configured with a vast amount of reference or denominator data for the entire world. By using and extending the data and models in STEM it is possible to rapidly prototype and test models for emerging infectious disease. STEM also provides tools to help you compare and validate your models. As an open source project, the ultimate goal of STEM is to support and encourage a community of scientists who not only use STEM as a tool but also contribute back to it. STEM is designed so that models and scenarios can be easily shared, extended, and built upon.

Introductory Resources

Tutorials

  1. STEM Model Generator (new!!) requires STEM V2.0 milestone
  2. Full length video In English
  3. Full length video In Hebrew
  4. Full length video In Japanese
  5. Full length video In Spanish
  6. 5 min Video (English)
  7. Avian Influenza
    1. Only Poultry-Human Transmission
    2. Including Human-Human Transmission
  1. Model with Human-Human Transmission
  2. Model of Food Borne disease
  1. Social Distancing Example
  2. Vaccination Example
  3. Evacuation Example
  4. Air Transportation Example
  • Using Population Models
  1. Initializing a Population
  2. Using Structured Populations in STEM
  3. Using Aging Populations in STEM
  • Running Simulations
  1. The STEM Map View
  2. Running Experiments in Batch Mode
  3. Running an Automated Experiment
  4. Running STEM Headless (STEM on Server)
  5. Importing Data from Files
  6. Simulation Data Logging
  7. Visualizing STEM Simulations with Google Earth
  • (new) Automated Model Creation
  1. STEM Model Creator for users (beta)

Advanced Guides

Epidemiological Modeling

  1. Composing a Graph
  2. Creating a Custom Graph (new) seasonal migration
  3. Visualizing and Editing Graphs with the STEM Graph Editor   
  4. Importing a Graph from a Pajek File
  5. Importing a Graph from an Esri Shapefile
  1. Standard Populations
  2. Insect Vectors
  3. Migratory Birds
  4. Demographic Models (and Aging)
  1. Beef Production Example
  2. Salmonella in Pork Example
  3. How to Structure a Food Borne Disease Scenario
  1. Using the New!! STEM Model Creator tool (beta)
  2. STEM Model Generator tool (for Developers)
  3. Model Generator Installation
  4. Manual Model Plug-in generation
  5. Manual Disease Label creation

Release Planning

Disclaimer

Please also see our website and What's New in STEM

  • V3.0.0 Milestone 1 is now Available
  • Based on and compatible with Eclipse 4.5.1 (Mars)
  • STEM V3.0.0M1 supports (J2SE) 8.0 JVM. In fact - it's required
  • V2.0.3 Now Available (Feb. 2015)
    • Bug Fixes
    • Updated Admin 0 borders added
    • New models
    • Updated Google Earth(tm) Interface
  • Release Engineering
    • STEM releases are created by the team of STEM committers and uploaded to Eclipse on a regular basis.
    • Documentation for the process may be found on the STEM Releng page.



Click on the header for this section to view the Disclaimer.

Back to the top