Modeling software: Difference between revisions
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=== Mathematical systems simulation === | === Mathematical systems simulation === | ||
* [[System dynamics]] software | |||
* [[System dynamics]] software | |||
* Mathematica-like systems | * Mathematica-like systems | ||
* Spreadsheets | |||
=== Special simulation software === | === Special simulation software === | ||
Latest revision as of 19:10, 6 March 2019
Definition
Modeling software (or modelling software in UK English) is a computer program to build simulations or other models.
Modeling software relies on a modeling language, that “is any artificial language that can be used to express information or knowledge or systems in a structure that is defined by a consistent set of rules. The rules are used for interpretation of the meaning of components in the structure. A modeling language can be graphical or textual.” [1]
Modeling languages can be used by instructional designers/technologists or even teachers to produce teaching materials (e.g. simulations). Learners also can be engaged into modeling activities.
Types of modeling software
This an incomplete inventory for now. See Wikipedia:Model for an overview of what a model could be and follow links ...
Microworlds
- Most microworlds allow both teachers and students to build models. See microworlds and Programming microworld.
Mathematical systems simulation
- System dynamics software
- Mathematica-like systems
- Spreadsheets
Special simulation software
E.g.
- Network configuration
- molecular modeling (HyperChem, Spartan, CAChe, PC Model, etc.)
- Mechanical dynamics
- Climate modeling, e.g. EdGCM
- Business processes
- Production chain modeling.
3D Modeling
- All sorts of 3D CAD programs (Solidworks, Rhinoceros, Autodesk AutoCAD, 123D, TinkerCad, etc.)
- General purpose 3D modeling software
- 3D programs specialized to build models for 3D environments (virtual reality, computer games, etc.