![]() We then saved these slides as images to be used in the model. We created slides of as-is and to-be scenarios, each containing only the essential sub-processes. We again used this logic to hide and unhide in creating a high-level overview of the overall process. E.g., When the model starts, one will see the toggle button image in the off state, but when you click on the image, the off-state image is set to invisible, and the on-state image will become visible and vice versa. We used programming to hide and unhide the images. ![]() Instead, we used images of the two states of a toggle button, i.e., on and off. While creating the switch, we didn’t use a button control as it looked very basic. At this juncture, the work we did to make the switch to toggle between as-is and to-be scenarios and view areas, that I learned in the AnyLogic in 3 days book, was to become the base of our presentation layer. Please be encouraged to write me if there are any topics on which you feel additional tutorials would be useful.We took a step back and decided to create a separate presentation layer over what we had built. models) that may be of interest, and could allow for exchange of ideas and suggestions on improving the material. Among other benefits, sending along your address will allow me to notify you of significant updates, of supplemental artifacts (e.g. I am especially interested in staying in touch with other educators who adopt components of the class material above for use in their own courses. ![]() If you are seeking to reuse this material, just drop me a brief email notification (osgood 'at' cs.usask.ca) to let me know of your planned use, and I request the courtesy of a citation with the repost indicating the original source of materials. I grant rights of non-commercial reuse (including reposting) of the material I have created for educational purposes, as long as it doesn't conflict with the rights of any other individuals. Users are welcome to distribute links to this page without restriction. I have placed this information online in hopes that it will be of useful to a broader set of people. Material from other lectures and tutorials outside of the scope of this course can be accessed here. Screencast: Basics of capturing stochastic transitions in Vensim. Screencast: Representing elementary health economics structures in Vensim ![]() Subscripting in Vensim 2 - Introducing, Progressing between, Mapping and Creating Subranges of Subscriptsĭimensional Reasoning and Dimensional Homogeneity Testing Note that this is a screencast no slides are available. Screencast: Hands on introduction to using Vensim to build up a small model Tutorials Tutorial Title & Link to Slides Introduction, Individual Based Modeling, Tools & Tradeoffs An associated videocast is also available. From another version of the course that discusses both SD and ABM methods.Īlso of particular interest are the the lectures Calibration 1 ( Slides, Screencast) and Calibration 2 ( Slides, Screencast) from another version of the course that discusses both SD and ABM methods.Ī brief primer on combining decision analysis (including decision trees) with simulation models. Infectious Disease Models 5, intervention impact on an open populationĪ related screencast is also available. Screencasts of much of this material can be found in lecture 10 and lecture 11 of another version of the course that discusses both SD and ABM methods. This introductory screencast may also be of potential interestĪn Example Model and its Underlying Process The tables below give links to the slides from the class. Please note that this site also features a single-lecture introduction giving motivations for and demonstrating Vensim software use for System Dynamics Modeling, a 4 hour introduction to System Dynamics, as well as a full-semester MIT course on Agent-Based Modeling for health policy using AnyLogic (also providing a lecture on discrete event modelin & tutorials on important elements of Java). This class was designed to be suitable for those from health science background, and includes a number of additional tutorials. This course focused on System Dynamics modeling, but included a bit of instruction related to integration of System Dynamics and decision analysis, and some comments on distinctions between aggregate and individual-level modeling. This page gives links to slides and video and audio recordings offered as part of a full-semester University of Saskatchewan course on health modeling using System Dynamics, held January-April 2010. Semester-Length course on Health Modeling Using AnyLogic Semester-Length course on Health Modeling Using System Dynamics
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