Synopsis:
SIMULINK gives you a powerful interactive workbench to model, analyze, and simulate physical and mathematical systems. An intuitive block-diagram interface lets you easily model simple and complex dynamical systems. Choose from a set of integration methods to simulate your system. Finally, apply the powerful analysis tools in SIMULINK and MATLAB to analyze and improve the simulation.
SIMULINK includes a comprehensive block library, making it easy to model a diverse range of systems. In addition, you can create your own custom blocks.
The Student Edition of SIMULINK is designed for use with the Student Edition of MATLAB, giving you access to the many computation, analysis and visualization tools in the MATLAB technical computing environment.
The Student Edition of SIMULINK supports the MATLAB Notebook for Word, so you can create live documents with MATLAB and SIMULINK commands and graphics. It's ideal for lab notes, electronic texts, homework assignments or any other interactive technical documents.
Thousands of engineers, scientists, and other technical professionals in industry and academia worldwide use SIMULINK, making it the most widely used simulation tool of its type. So learning SIMULINK not only provides value in your courses, but also gives you skill in using a powerful tool that will prove invaluable throughout your education and professional career.
From the Publisher:
The Student Edition of SIMULINK®, in conjunction with the Student Edition of MATLAB®, encourages users to build their own models from scratch or manipulate the existing models to create interactive simulations of real-world dynamic systems, i.e., air resistance, gear slippage, automotive clutch systems, the effects of the monetary supply on the economy, etc. Users do not need a programming background; SIMULINK® provides a graphical user interface (GUI) for building models as block diagrams, using click-and-drag mouse operations. Users define models through SIMULINK®'s comprehensive block library of sinks, sources, linear and nonlinear components, and connectors. They then simulate the models by using one of the methods from SIMULINK®'s pull-down menu or by entering commands in MATLAB®'s command window.
"About this title" may belong to another edition of this title.