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SIMULINK interface

Simulink is a user-friendly simulation tool with an icon-driven graphics interface that runs within MATLAB. The introduction here is more conceptual than functional for two reasons. One, the Simulink interface design is very intuitive and you may not need help at all ... [Pg.239]

The CAMPG interface to SIMULINK follows the same format as the one for MATLAB. The user enters a bond graph model utilizing the menu as for the other simulation programs then SIMULINK interface is chosen under the ENTERFACE menu. [Pg.417]

CAMPG generates the following files for the SIMULINK interface ... [Pg.417]

Once the bond graph has been entered, selection of the SIMULINK interface will generate a SIMULINK S-function campgsfn.m and an initialization file campginum where the parameters numerical values need to be entered. The files generated by CAMPG contain a set of question marks that point to the variables that need to be... [Pg.422]

SIMULINK Workstations, Mac and PC Based on MATLAB but with improved integration routines, model building blocks and graphical interface. [Pg.9]

The control toolbox supports an extremely nice root locus design graphics design tool that is ideal for experimentation. The interface is even more intuitive and self-explanatory than that of Simulink. We take the same approach as our introduction to Simulink and have moved the not so necessary and print-intensive window display and instructions to our Web Support. A very brief conceptual introduction is provided in this section. [Pg.246]

A convenient way of creating and organizing functional-level models is to use signal flow simulators with graphical user interfaces, such as MATLAB Simulink [http //www.mathworks.com]. Signal flow simulators offer the user a simple way to express physical behavior in diagrams of directed and nonfeedback building... [Pg.59]

CAMPG interfaces automatically with a simulation language (MATLAB, SIMULINK, SYSQUAKE, EASY5, ACSL, SIMULINK) or the user s own simulation program... [Pg.391]

The simulation was compared to that in [19], which was developed by an entirely different method. Using the physical parameter values, the simulation was verified. Using the S-function created by interfacing CAMPG with SIMULINK, the following plots are created. [Pg.423]

The mathematical transfer function already considers inputs and outputs. Therefore, interfaces are already available here. Also in modeling tools like Matlab-Simulink-Model the input and ouqiut relations are foundations for the interfaces of the architecture. [Pg.72]

In this section, we introduce the z-transform in order to analyze discrete-time systems. Once a continuous system is interfaced with a discrete system, such as shown in Fig. 17.3, it is necessary to analyze the behavior of the closed-loop system in discrete time. It is possible to simulate the discrete and continuous elements of the closed-loop control system using software such as Simulink ... [Pg.323]

The FDA has developed a Matlab Simulink/Stateflow model of the Generic PCA (GPCA) pump that captures the core functionalities of PCA pumps in general. The GPCA model has a layered architecture (see Figure 1(a)). The top layer is the user interface, which presents the state of the infusion pump and allows users to program infusion parameters. The software controller is the middle layer in the architecture, and includes two components a state controller and alarm detection component. The state controller drives the drug administration process and... [Pg.230]


See other pages where SIMULINK interface is mentioned: [Pg.417]    [Pg.417]    [Pg.419]    [Pg.417]    [Pg.417]    [Pg.419]    [Pg.5]    [Pg.864]    [Pg.276]    [Pg.239]    [Pg.277]    [Pg.383]    [Pg.422]    [Pg.430]    [Pg.332]    [Pg.308]    [Pg.313]    [Pg.174]    [Pg.119]    [Pg.580]   
See also in sourсe #XX -- [ Pg.417 ]




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