OpenModelica/C2/Control-flow-and-Event-handling/English
Visual Cue | Narration |
Slide Number 1
Title Slide |
Welcome to the spoken tutorial on Control flow and Event handling. |
Slide:
Learning Objectives |
In this tutorial, we are going to learn:
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Slide:
System Requirements |
To record this tutorial, I am using
But, this process is identical in Windows, Mac OS X or FOSSEE OS on ARM. |
Slide:
Pre-requisites |
To understand and practice this tutorial, you need to know the following:
Pre-requisite tutorials are mentioned on Spoken Tutorial website. Please go through them. |
Slide:
Problem Statement |
freeFall class was already discussed in previous tutorials.
Now, let us add a constraint to it.
Free fall under gravity starts at time t = 0.5 seconds.
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Point to timeEventExample file. | timeEventExample file is available in Code Files link on spoken tutorial website.
Please download and save all the files in Code Files link.
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Now let me go to OMEdit.
I have already launched it on my system. | |
Click on Dash Home | To open OMEdit on Ubuntu Operating System, click on Dash Home icon at the top left. |
Type OMEdit in the Search bar, click on OMEdit icon. | Type OMEdit in the Search bar and click on OMEdit icon. Let me go back. |
Note: Windows users may similarly search for OMEdit in Start menu and open it. | |
Click on Open Model/Library File in tool bar. | To open timeEventExample file, click on the tool named Open Model/Library File. |
Click on Open. | Locate timeEventExample file in your system and click on Open. |
You may alternatively use the File menu to open this file.
Note that timeEventExample has appeared in Libraries browser. | |
Right-click >> select View class | Right-click on this icon and select View class.
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Click on Text View | Click on third button which is the Text View.
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/* timeEventExample */
model timeEventExample |
The name of this model is timeEventExample. |
Time event demonstration | Comments such as this, may be written on the first line of a model or class. |
Real h(unit = “m”), "Height of ball";
Real v(unit = “m/s”) “Velocity of ball”; parameter Real g(unit = “m/s2”) = -9.81 “Acceleration due to gravity”; |
h, v and g represent the same quantities as in freeFall class. |
initial equation | initial equation section contains initial conditions. |
h = 30; | Value of h at time t = 0 is 30m. |
v = 0; | Value of v at time t = 0 is 0. |
Equation signifies the beginning of equation section of this model. | |
Now, let us see how to insert the constraint explained in slides. | |
Note that there is an if-else block in equation section as shown.
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if time >= 0.5 then | if statement places a constraint on time variable.
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der(h) = v;
der(v) = g; |
The ball experiences free fall after time 0.5 seconds.
Hence, these two equations represent the same equations as those in freeFall class. |
else | else branch contains equations which are executed when time is less than 0.5 seconds. |
der(h) = v;
der(v) = 0; |
The ball is at rest when time is less than 0.5 seconds.
Hence, these two equations hold good in that case. |
end if; | end if signifies the end of if-else block. |
Click on simulate button | The model is now complete.
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/* Plotting perspective */ | Plotting perspective has now opened.
Select h in the Variables browser. |
This generates h versus time plot.
Since the ball is at rest until time t=0.5 seconds, height remains the same. | |
Right-click on timeEventExample >> select Delete Result | To delete the result, right click on timeEventExample in Variables browser and select Delete Result. |
Click on Modeling perspective button. | To go back to Modeling perspective, click on Modeling button at bottom right. |
/* timeEventExample */
else der(h) = v; Delete // der(v) = 0; end if; |
Now, let me delete the second equation in else branch.
Click on Save button in the toolbar, to save this model. |
Click on Simulate. | Click on Simulate. |
The simulation has failed. | |
Hover the mouse over 'Messages browser. | Go to the Messages browser and scroll up to see the error message.
The error message says that the number of equations in each branch should be the same. Therefore, the number of equations in if and else branches should each be equal to the number of variables. |
Let me insert the equation back in its place and click on Save button. | |
Note that der(h) = v is an equation which is common to both if and else branches.
Hence, the if-else block can be replaced by two statements. | |
Delete the if-else block | Let me show you how it is done.
Delete the if-else block first. |
The equations to be typed here have been provided in a file named if else-statement.txt. | |
These file is also available in Code Files link. | |
Since it is a text file, I have used gedit to open it. | |
/* gedit */ | Let me go to gedit.
Windows users may open this file using Notepad or any other text editor. |
der(h) = v;
der(v) = if time >= 0.5 then g else 0; |
Copy the two equations. |
/* timeEventExample */ | Go back to OMEdit.
Do a right-click and select Paste |
Click on Save button in the toolbar. | Click on Save button in the toolbar once again. |
Click on simulate button | Click on Simulate.
Close the pop up window. |
/* Plotting perspective */
Select h in the Variables browser |
Select h in the Variables browser once again.
Note that the h versus time plot is the same as in previous case which indicates that both models are the same. |
To delete the result, right-click on timeEventExample and select Delete Result. | |
/* Switch to Modeling perspective */ | Click on Modeling button at bottom right. |
der(v) = if time >= 0.5 then g else 0; | This is an if-else statement which indicates that if time >= 0.5 dv/dt = g otherwise dv/dt = 0. |
Now let me go back to the slides. | |
Slide:
Caution |
Please note that the number of equations in if branch should be equal to the number of equations in else branch.
And both of them should be equal to the number of variables in the class or model. |
Slide:
Event |
Event is an abrupt change in behavior of a system.
Events may be categorized into time events and state events. In a time event, the time at which event occurs is precisely known. timeEventExample handles a time event at t = 0.5 seconds state event occurs when a system variable cross a certain value. |
Slide:
Problem Statement |
Let us try to understand state events using an example.
A ball under free fall, faces a state event on touching the ground. The following behavior is observed when it hits the ground.
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I have created a model named bouncingBall to simulate this behavior.
This file is available on Spoken Tutorial Website. | |
/* Switch to OMEdit */ | To view this model and simulate it, let me go back to OMEdit. |
Click on bouncingBall tab at the top of modeling area | Click on OpenModel/LIbrary File tool.
Locate bouncingBall file in your system and click on Open. |
Right-click on bouncingBall | Right-click on bouncingBall icon in Libraries browser and select View Class.
If the model does not open in Text View, go to the top of modeling area and click on Text View button. |
/* bouncingBall */
parameter Real e = 0.8 "Coefficient of restitution"; |
e is coefficient of restitution for inelastic collision of ball with Earth.
It is a parameter and its value remains constant at 0.8 throughout the simulation run. |
parameter Real radius = 0.001 "Radius of the ball in "m"; | radius represents the radius of ball in m. |
Real h(unit = “m”);
Real v(unit = “m”); parameter Real g(unit = “m/s2”) = -9.81; |
h, v and g represent the same quantities as in timeEventExample. |
der(h) = v;
der(v) = g; |
These two equations of motions have already been discussed in freeFall class. |
when h <= radius then | when statement is used to signal an event.
It is used to specify the action to be taken when an event occurs. h <= radius holds true when the ball is in contact with ground. This statement is executed whenever the event occurs. |
reinit(v, -e * pre(v)); | reinit() function is used to re-initialize a variable. |
reinit(v, -e * pre(v)); | Here, it re-initializes velocity of ball with the negative product of e and velocity of ball before touching the ground. |
/* Simulation Options */
Click on Simulation Options icon |
To simulate this model
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/* Plotting perspective */
Select h in Variables browser |
Select h in Variables browser.
Note that h drops below zero, which is unacceptable.
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This faulty behavior is due to numerical errors.
A discussion of numerical errors is beyond the scope of this tutorial. Please refer to Zeno behavior of bouncing ball for a better understanding. | |
Let me de-select h | |
Let us go back to the slides | |
Slide:
Event-related operators |
when statement is used to signal an event.
reinit(a,b) assigns value of b to variable a and resumes simulation. pre(a) returns the value of variable a before event.
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Slide:
Assignment |
bouncingBallWithHysteresis model is available on spoken tutorial website.
Simulate bouncingBallWithHysteresis and generate h versus time plot. Notice the difference between bouncingBall and bouncingBallWithHysteresis |
This brings us to the end of this tutorial. | |
Slide:
About the Spoken Tutorial Project |
Watch the video available at following link.
http://spoken-tutorial.org/ http://spoken-tutorial.org] /What\_is\_a\_Spoken\_Tutorial It summarises the Spoken Tutorial project |
Slide:
Spoken Tutorial Workshops |
We conduct workshops using spoken tutorials
Give certificates Please contact us. |
Slide:
Forum |
If you have any questions related to this spoken tutorial, please visit the following website. |
Slide:
Textbook Companion Project |
Under Textbook Companion Project we coordinate coding of solved examples of popular books.
We give honorarium and certificates to those who do this. For more details please visit the following website. |
Slide:
Lab Migration Project |
Under Lab Migration Project we help migrate commercial simulator labs to OpenModelica.
For more information please visit the website. |
Slide:
Acknowledgements |
Spoken Tutorial Project is supported by NMEICT, MHRD, Government of India. |
Slide:
Thanks |
We thank the development team of OpenModelica for their support. |
Thank you for joining me in this tutorial. Goodbye. |