how to drive this equations in simulink ? can anyone help me?
1 vue (au cours des 30 derniers jours)
Afficher commentaires plus anciens
Azaz Ali
le 17 Août 2019
Commenté : Azaz Ali
le 20 Août 2019
3 commentaires
Walter Roberson
le 19 Août 2019
Perhaps you could use the "Insert Latex" control to type in representations of your equations.
Réponse acceptée
Sourav Bairagya
le 20 Août 2019
Modifié(e) : Sourav Bairagya
le 20 Août 2019
To model differential equations in Simulink, you should follow these steps:
- First, make a list of all the constant valued variables used in the equations you are trying to model. Then, load these variables with their values in the workspace before starting to prepare the model.
- For example, lets an ODE be:
- To model this ODE, a block should be needed which can integrate x_dot(t) to x(t) . The “Integrator” block from the “Math Operations” library of Simulink can do that. Blocks that contain continuous states, such as “Integrator block”, can accurately model the dynamics described by ODEs because the Simulink solvers can control the integration error of a continuous state. One important point here to note that you should not use the “Derivative block” to model ODEs. “Derivative block” only approximates the rate of change of its input signals but doesn’t contain any continuous state. Hence, this block has no ability on controlling simulation accuracy. Thus, find how many “Integrator blocks” will be required in your case first and avoid using “Derivative block”.
- Start with the Integrator blocks and label their inputs and outputs properly:
- You can model the constant valued variables using “Constant” block from “Math Operations” library.
- To perform addition use “Add” block, for multiplication use “Product” block and for division use “Divide” block from “Math Operations” library.
- To multiply any signal with a constant factor, use “Gain” block from “Math Operations” library.
- Now, construct the equation’s RHS and then connect the returned signal from the equation’s RHS as a source to its left side.
- In this example, the equation can be simplified as follows:
- The Simulink model will now look like this:
- Now, as per above example, you can rewrite your ODEs and follow this step for one ODE at a time to model your system of equations.
- Finally put the initials conditions in the Integrator Block if any.
Plus de réponses (0)
Voir également
Catégories
En savoir plus sur General Applications dans Help Center et File Exchange
Produits
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!