Scilab---FOSSEE-Optimisation-Toolbox/C2/Unconstrained-Optimization-using-FOT/English
Title of the script: Unconstrained Optimisation using FOT
Author: Siddharth Agarwal, Anandajith TS
Keywords: FOSSEE Optimization Toolbox, Integer Unconstrained Optimisation, Unconstrained Optimisation, fminunc, intfminunc.
Visual Cue | Narration |
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Show Slide 1 Title Slide |
Welcome to the spoken tutorial on Unconstrained Optimisation using FOT. |
Show Slide 2 Learning Objectives |
In this tutorial, we will learn how to:
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Show Slide 3 System Requirements |
To record this tutorial, I am using
The process demonstrated in this tutorial is identical in Linux OS also |
Only narration | Annotations will be added to the tutorial if there are any differences. |
Show Slide 4 Pre-requisites |
To follow this tutorial, you should
If not, for relevant tutorials please visit this site. |
Show slide Code Files |
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Slide 5 What is the Unconstrained Optimisation problem? |
A function is nonlinear if it has a degree of two or more.
An Unconstrained Optimisation Problem is a mathematical optimization model with:
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Show Slide 6 Mathematical Formulation |
A general form of the unconstrained optimization problem is as shown. |
Show Slide 7 Example |
We will now solve this example to illustrate the use of fot_fminunc In this example, we will learn how to:
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We will use the toolbox to solve this example.
Make sure that the toolbox is already installed on Scilab. | |
Cursor on the Scilab console. | Now open the Scilab console. |
Type editor >> press Enter. |
In the Scilab console type editor and press Enter. Editor window opens. |
Click on Open button. Go to the Downloads folder. Locate the file opt_fminunc.sce. Click the Open button. Point to the file. |
Click on Open button on the toolbar. Go to the Downloads folder. Locate the file opt_fminunc.sce. Then click the Open button. opt_fminunc.sce file opens in the editor. |
Show opt_fminunc.sce in scilab editor. | Now we will see the input arguments for fot_fminunc. |
Highlight ‘f’ | f is an objective function |
Highlight ‘x0’ | x0 is a vector containing the starting values of the decision variables. |
Highlight ‘xopt, fopt, exitflag, output, gradient, hessian’ |
Now we will see the output arguments. Output arguments are xopt, fopt, exitflag, output, gradient, hessian. |
Highlight ‘xopt’ | xopt is the optimal value of x. |
Highlight ‘fopt’ | fopt is the optimal objective function value. |
Highlight ‘exitflag’ | exitflag is the status of execution. |
Highlight ‘Output’ | Output is structure containing detailed information about the optimization. |
Highlight ‘Gradient’ | Gradient is a vector containing the objective's gradient of the solution. |
Highlight ‘Hessian’ | Hessian is a matrix containing the Lagrangian's hessian of the solution. |
Highlight [xopt,fopt,exitflag,output,gradient,hessian]=fot_fminunc(f,x0) |
Here we see the Scilab code to define and solve the example.
We call the fot_fminunc function to solve the given problem. |
Press CTRL + s Click on execute button on scilab. |
Save the file by pressing Control and S keys simultaneously. To run the file, click on the Execute menu. Click on File with Echo from the drop-down menu. |
Change the window to Scilab console. |
Switch to the Scilab console to see the output. We see that it prints the
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Show Slide Integer Nonlinear Programming |
We will now look at integer nonlinear programming problems. These are problems where some decision variables are constrained to be integers. |
Show Slide 6 Mathematical Formulation |
A general form of the unconstrained integer programming problem is as shown. |
Show Slide Example |
We will now solve this example to illustrate the use of fot_intfminunc. In this example, we will learn how to:
Some of the decision variables are integers. |
Show opt_intfminunc.sce in scilab editor. |
We will use the toolbox to solve this example. Open the Scilab console. Type editor on the Scilab console and press Enter. Open opt_intfminunc.sce in the Scilab editor. |
Highlight ‘f’ | f is the objective function. |
Highlight ‘x0’ | x0 is a vector containing the starting values of the decision variables. |
Highlight ‘intcon’ | intcon is a vector of the indices of the integer variables. |
Highlight ‘xopt, fopt, exitflag, output, gradient, hessian’ |
Now we will see the output arguments. Output arguments are xopt, fopt, exitflag, output, gradient, hessian |
Highlight ‘xopt’ | xopt is the optimal value of x. |
Highlight ‘fopt’ | fopt is the optimal objective function value. |
Highlight ‘exitflag’ | exitflag is the status of execution. |
Highlight ‘Gradient’ | Gradient is a vector containing the objective's gradient of the solution |
Highlight ‘Hessian’ | Hessian is a matrix containing the Lagrangian's hessian of the solution. |
Press CTRL + s Click on execute button on scilab. |
Save the file by pressing Control and S keys simultaneously. To run the file, click on the Execute menu. Click on File with Echo from the drop-down. |
Change the window to Scilab console. |
Switch to the Scilab console to see the output. We see that it prints the
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Show Slide Summary |
This brings us to the end of this tutorial. Let us summarise. In this tutorial, we have learnt to:
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Show Slide Assignment |
As an assignment, please do the following:
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Show Slide Assignment |
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Show Slide: About Spoken Tutorial Project |
The video at the following link summarises the Spoken Tutorial project. Please download and watch it. |
Show Slide: Spoken Tutorial Workshops |
The Spoken Tutorial Project Team conducts workshops and gives certificates. For more details, please write to us |
Show Slide: Answers for THIS Spoken Tutorial |
Please post your timed queries in this forum. |
Show Slide: FOSSEE Forum | Please post your general and technical queries on Scilab in this forum. |
Show Slide: Textbook Companion project |
The FOSSEE team coordinates the Textbook Companion project. We give Certificates and Honorarium to the contributors. For more details, please visit this site. |
Show Slide: Lab Migration |
The FOSSEE team coordinates the Lab Migration project. For more details, please visit this site. |
Show Slide: Acknowledgement |
Spoken Tutorial and FOSSEE projects are funded by MoE, Government of India. |
Show Slide : Thank you |
This is Anandajith TS, FOSSEE intern 2021, IIT Bombay signing off.
Thanks for joining. |