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Revision as of 15:20, 26 January 2012
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.
Introductory Resources
- The STEM Website
- About STEM
- Whats New in STEM
- STEM Tutorials on YouTubeTM
- Full length video In English
- Full length video In Hebrew
- Full length video In Japanese
- Full length video In Spanish
- 5 min Video (English)
- Scientific Talks Online
- STEM FAQ
- Publications and Presentations on STEM
- How to Join the STEM Community
- The STEM Development Team
- Weekly phone call
STEM Documentation
Getting Started
- Installing the STEM Application
- Installing Additional Features
- Sample Projects Available for Download
- Information for STEM Software Developers
- Setting up a STEM Development Environment
- STEM Design Document
- National Language Support
Tutorials
- Importing and Exporting Projects
- Creating a STEM Scenario
- How scenarios are structured
- Initializing Disease Compartments
- Triggering Interventions
- Using Population Models
- Running Simulations
Advanced Guides
- Building the STEM RCP Application
- Running STEM from the Development Environment
- Composing a Graph
- Creating a Custom Graph
- Visualizing and Editing Graphs with the STEM Graph Editor
- Importing a Graph from a Pajek File
- Creating a New Disease Model Plug-in Using EMF
- Creating a New Disease Label
- Creating a Customized Color Provider
Epidemiological Modeling
- Compartment Models
- Disease and Population Models
- Transportation Models
- Air Travel Model
- Solvers
- Disclaimer
Release Planning
please also see our website
V1.3.0 Revised Date 2/7/2012 Planned and Tentative Features:
- Bug Fixes from 1.2.2
- 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)
- New Differential Equation solver(s) from commons.math library
- Additional NLS + User ability to switch languages
- Logger Framework with new loggers
- New feature: “Population Transformer” - enabling transformation of population members to allow modeling of e.g. food mediated disease transmission
- Improvements to the graphical editor
V1.3.1 Tentative Date 4/15/2012 Tentative Features:
- Bug Fixes to 1.3.0
- Scenario "compile" proof of concept
- STEM EMF update to version 2.7.2
- Shape File Importer: Improvements to GUI
- Population Transformer: “realistic” sample model on food mediated disease transmission
- Pajek-file Importer: Enable integration between user graphs and existing STEM graphs
- Graph Editor: improved zooming, deleting nodes and edges, improved GUI for new population generation
- Ability to Delete Items inside a Graph from Designer Perspective
- STEM -integration inside KNIME: creating a Node within the KNIME, Node-repository that allows STEM headless execution
...future
- Running Distributed STEM
- parameter sensitivity analysis
- mcmc optimizer
- New feature to hide complexity of creating new plugins (for Disease and Population models).
- Pajek-file Importer: enable import of discrete transportation events.