Scilab/C4/Interpolation/English-timed
From Script | Spoken-Tutorial
Revision as of 15:44, 12 March 2014 by PoojaMoolya (Talk | contribs)
| Time | Narration |
| 00.01 | Dear Friends, |
| 00.02 | Welcome to the Spoken Tutorial on “Numerical Interpolation” |
| 00.06 | At the end of this tutorial, you will learn how to: |
| 00.10 | Develop Scilab code for different Numerical Interpolation algorithms |
| 00.16 | Calculate new value of function from given data points |
| 00.21 | To record this tutorial, I am using |
| 00.24 | Ubuntu 12.04 as the operating system
|
| 00.27 | and Scilab 5.3.3 version |
| 00.31 | To practise this tutorial, a learner should have |
| 00.34 | basic knowledge of Scilab |
| 00.36 | and should know Numerical Interpolation |
| 00.40 | To learn Scilab, please refer to the relevant tutorials available on the Spoken Tutorial website. Spoken Tutorial website. |
| 00.47 | Numerical interpolation is a method of |
| 00.51 | constructing new data points |
| 00.53 | within the range of a discrete set of known data points. |
| 00.59 | We can solve interpolation problems using numerical methods. |
| 01.05 | In Lagrange interpolation, |
| 01.07 | We pass a polynomial of degree N – 1 through N points. |
| 01.12 | Then, we find the unique N order polynomial y of xwhich interpolates the data samples.
|
| 01.22 | We are given the natural logarithm values for nine, nine point five and eleven.
|
| 01.29 | We have to find the value of natural logarithm of nine point two.
|
| 01.35 | Let us solve this problem using Lagrange interpolation method.
|
| 01.41 | Let us look at the code for Lagrange interpolation. |
| 01.46 | We define the function Lagrange with arguments x zero, x, f and n. |
| 01.53 | X zero is the unknown interpolation point.
|
| 01.57 | x is the vector containing the data points.
|
| 02.01 | f is the vector containing the values of the function at correspoding data points.
|
| 02.08 | And n is the order of the interpolating polynomial. |
| 02.14
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We use n to initialize m and vector N. |
| 02.19 | The order of the interpolating polynomial determines the number of nodes created. |
| 02.25 | Then, we apply Lagrange interpolation formula
|
| 02.29 | to find the value of the numerator and denominator. |
| 02.35 | Then we divide the numerator and denominator to get the value of L. |
| 02.41 | We use L to find the value of the function y at the given data point. |
| 02.48 | Finally we display the value of L and f of x.
|
| 02.53 | Let us save and execute the file
|
| 02.57 | Switch to Scilab console to solve the example problem.
|
| 03.02 | Let us define the data points vector. |
| 03.05 | On the console type, |
| 03.07 | x equal to open square bracket nine point zero comma nine point five comma eleven point zero close square bracket. |
| 03.18 | Press Enter
|
| 03.21 | Then type f equal to open square bracket two point one nine seven two comma two point two five one three comma two point three nine seven nine close square bracket
|
| 03.39 | Press Enter
|
| 03.41 | Then type x zero equal to nine point two
|
| 03.46 | Press Enter
|
| 03.48 | Let us use a quadratic polynomial interpolating polynomial.
|
| 03.53 | Type n equal to two
|
| 03.58 | Press Enter
|
| 04.00 | To call the function, type
|
| 04.02 | y equal to Lagrange open paranthesis x zero comma x comma f comma n close paranthesis
|
| 04.14 | Press Enter. |
| 04.16 | The value of the function y at x equal to nine point two is displayed. |
| 04.22 | Let us look at Newton's Divided Difference Method.
|
| 04.26 | In this method, Divided Differences recursive method is used. |
| 04.32 | It uses lesser number of computation than Lagrange method. |
| 04.38 | In spite of this, the same interpolating polynomial, as in Lagrange method, is generated.
|
| 04.47 | Let us solve this example using Divided Difference method.
|
| 04.52 | We are given the data points and
|
| 04.54 | the corresponding values of the function at those data points.
|
| 05.00 | We have to find the value of the function at x equal to three. |
| 05.05 | Let us look at the code for Newton Divided Difference method. |
| 05.11 | Open the file Newton underscore Divided dot sci on Scilab Editor.
|
| 05.18 | We define the function Newton underscore Divided with arguments x, f and x zero.
|
| 05.29 | x is a vector containing the data points,
|
| 05.33 | f is the corresponding function value and
|
| 05.36 | x zero is the unknown interpolation point. |
| 05.41 | We find the length of vector and then equate it to n. |
| 05.46 | The first value of vector is equated to a of one. |
| 05.51 | Then we apply divided difference algorithm and compute the divided difference table. |
| 05.57 | Then we find the coefficient list of the Newton polynomial |
| 06.03 | We sum the coefficient list to find the value of the function at given data point.
|
| 06.10 | Save and execute the file Newton underscore Divided dot sci. |
| 06.16 | Switch to Scilab console |
| 06.19 | Clear the screen by typing c l c |
| 06.22 | Press Enter.
|
| 06.24 | Let us enter the data points vector |
| 06.27 | Type x equal to open square bracket two comma two point five comma three point two five comma four close square bracket |
| 06.39 | Press Enter. |
| 06.41 | Then type values of the function |
| 06.44 | f equal to open square bracket zero point five comma zero point four comma zero point three zero seven seven comma zero point two five close square bracket |
| 07.01 | Press Enter. |
| 07.03 | Type x zero equal to three |
| 07.06 | Press Enter. |
| 07.08 | Then call the function by typing |
| 07.11 | i p equal to Newton underscore Divided open parenthesis x comma f comma x zero close parenthesis
|
| 07.23 | Press Enter. |
| 07.25 | The value of y at x equal to three is shown. |
| 07.30 | Let us summarize this tutorial. |
| 07.33 | In this tutorial,
|
| 07.34 | we have learnt to develop Scilab code for interpolation methods.
|
| 07.40 | We have also learnt to find the value of a function at new data point. |
| 07.46 | Solve this problem on your own using Lagrange method and Newton's Divided Difference method.
|
| 07.54 | Watch the video available at the link shown below |
| 07.57 | It summarises the Spoken Tutorial project
|
| 08.00 | If you do not have good bandwidth, you can download and watch it |
| 08.05 | The spoken tutorial project Team |
| 08.07 | Conducts workshops using spoken tutorials
|
| 08.10 | Gives certificates to those who pass an online test
|
| 08.14 | For more details, please write to contact@spoken-tutorial.org
|
| 08.22 | Spoken Tutorial Project is a part of the Talk to a Teacher project
|
| 08.26 | It is supported by the National Mission on Eduction through ICT, MHRD, Government of India. |
| 08.33 | More information on this mission is available at http://spoken-tutorial.org/NMEICT-Intro |
| 08.38 | This is Ashwini Patil signing off. |
| 08.41 | Thank you for joining. |
