Training - Courses

Objective: Become familiar with the SimMechanics environment by modeling a simple rigid body system.

• Understanding physical modeling with SimMechanics
• Building a SimMechanics model
• Viewing SimMechanics simulations
• Analyzing the 4-cylinder engine model

Objective: Discuss the compenents that make up a mechanical model and how to define them in the SimMechanics environment.

• Learning the language of multibody simulation
• Defining bodies
• Defining location
• Defining orientation
• Choosing joints
• Defining the global reference
• Defining machine-wide settings

Objective: Illustrate the ways that SimMechanics blocks can interact with Simulink blocks.

• Four-stroke cycle engine model
• Measuring angular orientation of crankshaft
• Calculating piston force in Simulink
• Applying piston force using actuation
• Measuring reaction forces

Objective: Create reusable, more robust, and more easily maintained SimMechanics models.

• Parameterizing with MATLAB variables
• Leveraging the MATLAB language
• Defining position relative to another body
• Creating modular components

Objective: Model complex rigid body connections using SimMechanics constraints.

• Creating closed loop systems
• Counting degrees of freedom
• Modeling velocity constraints
• Modeling gear constraints
• Modeling point-curve constraints