simscape.multibody.Multibody Class

By default, a newly created simscape.multibody.Multibody object is empty and has zero connectors. To construct a multibody system, use the addComponent method to add objects to the Multibody object, then connect the objects using the connect or connectVia method. Each object represents a part or a subsystem of the multibody system.

To manage the complexity of a large multibody system, you can use several Multibody objects to model the subsystems of a system. The image shows an example of a large multibody system, Robot.

Note that you must completely construct a Multibody object before adding it to a system. For example, in this example, you need to add the connectors hand and body to the Left_Arm object before adding it to the Robot object. To add the connectors, use the addConnector method.

To establish mechanical relationships between the three subsystems in the Robot system, connect the Body, Left_Arm, Right_Arm objects, as shown in the image, by using the connect or connectVia method.

To analyze a multibody system, you need to successfully compile the simscape.multibody.Multibody object of the system by using the compile method. The compilation performs a thorough error checking for a Multibody object. If any error occurs, the compile method shows the problem. For example, if a Multibody object contains joint objects or simscape.multibody.RigidTransform objects that do not connect to the main structure of the Multibody object, the compilation fails. See compile and simscape.multibody.CompiledMultibody for more information about compilation and analysis methods.

To use the capabilities in Simscape Multibody that you cannot do programmatically, such as simulating a multibody system, create a Simulink model from a simscape.multibody.Multibody object by using the makeBlockDiagram method.

When you construct a multibody system programmatically, Simscape Multibody has a different approach to specify the state of the joint primitives in the system. Instead of specifying the state through joint targets in joint blocks, the programmatic way uses the simscape.op.OperatingPoint object to specify state targets for joint primitives. Therefore, when you create a Simulink model from a Multibody object, the makeBlockDiagram method must have both the OperatingPoint object that specifies the joint states of the system and the Multibody object that defines the structure of the system. The makeBlockDiagram method uses the data in the OperatingPoint object to populate the joint target parameters for the joint blocks of the created Simulink model. Note that if the OperatingPoint object targets some joint primitives that do not exist in the Multibody object, those targets are ignored.

After you create the Simulink model from a Multibody object, the model can be modified just like general Simulink models. However, a best practice is to avoid making changes in the Simulink model that you can make in the Multibody object. Make the changes in the code that generates the Multibody object, re-generate the object, and then re-create the Simulink model. This process allows you to keep the code as the main source for the model. However, some capabilities are not supported in the programmatic way, and so must be done in Simulink model. For example, you can specify input signals only in the Simulink model.