Difference between revisions of "Scilab/C4/Optimization-Using-Karmarkar-Functions/English-timed"

Revision as of 15:29, 2 March 2015

Time	Narration
00:01	Dear Friends,
00:02	Welcome to the spoken tutorial on Optimization of Linear Functions with Linear Constraints Using Scilab
00:10	In this tutorial, We will learn
00:12	what is meant by Optimization?
00:15	and How to use Scilab function karmarkar for optimization.
00:20	Optimization means
00:22	minimize or maximize a given objective function
00:26	which is also called as Cost function sometimes,
00:30	by varying the decision variables.
00:33	The decision variables are varied subject to the predefined constraints.
00:38	These constraints are also in the form of some functions of the variables.
00:44	Optimization is extensively used in majority of the engineering as well as non-engineering fields like:
00:52	Economics
00:54	Control Theory and
00:56	Operations & Research.
00:58	The Scilab function Karmarkar is used for
01:01	optimizing the linear objective function,
01:05	subject to linear constraints
01:07	on the decision variables.
01:10	We will solve the following example using Karmarkar function:
01:14	Minimize minus three 'x' one minus 'x' two minus three 'x' three
01:19	for two 'x' one plus 'x' two plus 'x' three less than or equal to two.
01:26	'x' one plus two 'x' two plus three 'x' three less than or equal to five.
01:32	two 'x' one plus two 'x' two plus 'x' three less than or equal to six.
01:36	where 'x' one 'x' two 'x' three are all greater than or equal to zero
01:42	Note that all the functions objective functions as well as constraints are linear.
01:49	Before we solve the given problem go to scilab console and type:
01:54	help karmarkar
01:57	and press Enter.
01:59	You can see the calling sequence of the argument.
02:03	The argument explanation, description and some examples in the help browser.
02:12	Close the Help Browser .
02:14	We will summarize the input and output arguments here.
02:19	Out put arguments are 'x' opt, 'f' opt, exitflag, iter, 'y' opt
02:25	'x' opt: is the optimum solution .
02:28	'f' opt: is the objective function value at optimum solution
02:33	'exitflag' : is the status of execution, it helps in identifying if the algorithm is converging or not.
02:41	'iter' : Is the number of iterations required to reach 'x' opt.
02:46	'y' opt : is the structure containing the dual solution.
02:49	This gives the Lagrange multipliers.
02:53	Input arguments are 'Aeq' 'beq' 'c' 'x' zero 'rtolf 'gam' 'maxiter' 'outfun' 'A' 'b' 'lb' and 'ub'
03:09	'Aeq' : is the Matrix in the linear equality constraints.
03:12	'beq' :is the right hand side of the linear equality constraints.
03:17	'c' : is the Linear objective function co-efficients of 'x'.
03:21	'x' zero : is the Initial guess .
03:25	rtolf : is Relative tolerance on 'f' of 'x' is equals to 'c' transpose multiplied by 'x'.
03:34	'gam' : is the Scaling factor.
03:36	'maxiter' : is the Maximum number of iterations after which the output is returned.
03:43	'outfun' : is the additional user-defined output functions .
03:47	'A' : is the Matrix of linear inequality constraints
03:51	'b' : is the right hand side of the linear inequality constraints.
03:55	'lb' : is the lowerbound of 'x'.
03:58	'ub' are the Upper bounds of 'x'.
04:02	Now, we can now solve the given example in Scilab using karmarkar function.
04:07	Go to the scilab console and type:
04:11	'A' is equals to open square bracket, two <space> one <space> one <semicolon> one <space> two <space> three <semicolon> two <space> two <space> one, close the square bracket.
04:26	And press Enter.
04:28	similarly type, small 'b' equals to open square bracket, two <semicolon>five <semicolon> six, close the square bracket.
04:38	And press Enter.
04:41	Type 'c' equals to open square bracket, minus three <semicolon> minus one <semicolon> minus three, close the square bracket.
04:53	And press Enter.
04:55	Type 'lb' equals to open square bracket, zero <semicolon> zero <semicolon> zero, close the square bracket.
05:05	And press Enter.
05:07	Now clear the Scilab console using clc command.
05:12	Type open square bracket, 'x' opt <comma> 'f' opt <comma> 'exitflag' <comma> iter, close the square bracket equals to karmarkar open parenthesis, open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> 'c' <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> capital 'A' <comma> 'small b' <comma> 'lb', close the round bracket.
06:09	And Press Enter.
06:11	Press Enter to continue the Display.
06:14	This will give the output as shown on the screen
06:18	where xopt is the optimal solution to the problem,
06:23	fopt is the value of the objective function calculated at optimum solution x is equal to xopt
06:32	and number of iteration required to reach the optimum solution xopt is 70.
06:39	Please note that: it is mandatory to specify the input arguments in the same order
06:46	in which they have been listed above, while calling the function.
06:51	In this tutorial, we learned:
06:53	What is Optimization?
06:55	Use of Scilab function Karmarkar in optimization to solve linear problems.
07:01	To contact the scilab team, please write to contact@scilab.in
07:08	Watch the video available at the following link.
07:10	It summarises the Spoken Tutorial project.
07:14	If you do not have good bandwidth, you can download and watch it
07:18	The spoken tutorial project Team:
07:20	Conducts workshops using spoken tutorials
07:23	Gives certificates to those who pass an online test.
07:27	For more details, please write to contact@spoken-tutorial.org.
07:34	Spoken Tutorial Project is a part of the Talk to a Teacher project.
07:37	It is supported by the National Mission on Eduction through ICT, MHRD, Government of India.
07:44	More information on this mission is available at spoken-tutorial.org/NMEICT-Intro.
07:53	This is Anuradha Amrutkar from IIT Bombay, signing off.
07:57	Thank you for joining. Good Bye.

Contributors and Content Editors

Gaurav, PoojaMoolya, Sandhya.np14

Difference between revisions of "Scilab/C4/Optimization-Using-Karmarkar-Functions/English-timed"

Revision as of 15:29, 2 March 2015

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@@ Line 12: / Line 12: @@
 | 00:02
 | Welcome to the spoken tutorial on '''Optimization of Linear Functions with Linear Constraints Using Scilab'''
 |-
@@ Line 20: / Line 19: @@
 |-
 |00:12
-|What is meant by '''Optimization?'''
+|what is meant by '''Optimization?'''
 |-
 |00:15
-|And How to use Scilab function karmarkar for optimization.
+|and How to use Scilab function '''karmarkar''' for optimization.
 |-
@@ Line 34: / Line 31: @@
 |-
 |00:22
-|Minimize or maximize a given '''objective function.'''
+|minimize or maximize a given '''objective function'''
 |-
 | 00:26
-|Which is also called as '''Cost function''' sometimes.
+|which is also called as '''Cost function''' sometimes,
 |-
 | 00:30
-| By varying the decision variables
+| by varying the decision variables.
 |-
 |00:33
-|The decision variables are varied subject to the pre-defined constraints.
+|The decision variables are varied subject to the predefined constraints.
 |-
@@ Line 55: / Line 51: @@
 |-
 | 00:44
-| '''Optimization''' is extensively used in majority of the engineering as well as non-engineering fields like
+| '''Optimization''' is extensively used in majority of the engineering as well as non-engineering fields like:
 |-
@@ Line 73: / Line 69: @@
 |00:58
-|The Scilab function Karmarkar is used for
+|The Scilab function '''Karmarkar''' is used for
 |-
 |01:01
-|Optimizing the linear objective function
+|optimizing the linear objective function,
 |-
@@ Line 86: / Line 81: @@
 |subject to linear constraints
 |-
 | 01:07
-||on the decision variables
+||on the decision variables.
 |-
@@ Line 97: / Line 91: @@
 |01:10
-|| We will solve the following example using ''' karmarkar'''  function:
+|| We will solve the following example using '''Karmarkar'''  function:
 |-
@@ Line 106: / Line 98: @@
 | Minimize '''minus three 'x' one minus 'x' two minus three 'x' three'''
 |-
@@ Line 117: / Line 108: @@
 |''' 'x' one plus two 'x' two plus three 'x' three  less than or equal to five.'''
 |-
@@ Line 124: / Line 114: @@
 ||'''two 'x' one plus two 'x' two plus 'x' three  less than or equal to six.'''
 |-
 |01:36
 |where ''' 'x' one 'x' two 'x' three''' are all '''greater than''' or '''equal to zero'''
 |-
 | 01:42
-|Note that all the functions objective functions as well as constraints are linear
+|Note that all the functions objective functions as well as constraints are linear.
 |-
@@ Line 141: / Line 128: @@
 |01:49
-||Before we solve the given problem go to '''scilab console''' and type
+||Before we solve the given problem go to '''scilab console''' and type:
 |-
@@ Line 159: / Line 146: @@
 ||You can see the calling sequence of the argument.
 |-
 | 02:03
-|The argument explaination, description and some examples in the '''help browser.'''
+|The argument explanation, description and some examples in the '''help browser.'''
 |-
 |02:12
-| Close the '''help browser '''
+| Close the '''Help Browser '''.
 |-
 |02:14
-| We will summarize the input and output arguments here
+| We will summarize the input and output arguments here.
 |-
 | 02:19
 |Out put arguments are ''' 'x' opt, 'f' opt, exitflag, iter, 'y' opt '''
 |-
 | 02:25
 |''' 'x' opt:''' is the optimum solution .
 |-
 | 02:28
-|''''f' opt:'''  is the objective function value at '''optimum solution'''
+|''' 'f' opt:'''  is the objective function value at '''optimum solution'''
 |-
@@ Line 201: / Line 181: @@
 |-
 |02:46
-|''' 'y' opt''' : is the structure containing the dual solution
+|''' 'y' opt''' : is the structure containing the dual solution.
 |-
@@ Line 209: / Line 188: @@
 |This gives the Lagrange multipliers.
 |-
 | 02:53
-||Input arguments are ''' 'Aeq' 'beq '    'c' 'x' zero 'rtolf 'gam' 'maxiter' 'outfun' 'A' 'b' 'lb' and 'ub' '''
+||Input arguments are ''' 'Aeq' 'beq' 'c' 'x' zero 'rtolf 'gam' 'maxiter' 'outfun' 'A' 'b' 'lb' and 'ub' '''
-'
 |-
@@ Line 225: / Line 199: @@
 || ''' 'Aeq' ''' : is the Matrix in the linear equality constraints.
 |-
@@ Line 231: / Line 204: @@
 | 03:12
 | ''' 'beq' '''  :is the right hand side of the linear '''equality''' constraints.
 |-
@@ Line 239: / Line 210: @@
 |''' 'c' ''' : is the '''Linear objective function''' co-efficients of  ''' 'x'. '''
 |-
@@ Line 252: / Line 222: @@
 ||''' rtolf ''': is Relative tolerance on ''' 'f' of 'x' is  equals to 'c' transpose multiplied by 'x'. '''
 |-
@@ Line 265: / Line 234: @@
 |''' 'maxiter' ''' : is the ''' Maximum''' number of iterations after which the output is returned.
 |-
@@ Line 274: / Line 240: @@
 |''' 'outfun' ''' : is the additional user-defined output functions .
 |-
@@ Line 293: / Line 258: @@
 ||''' 'lb' ''': is the ''' lowerbound''' of ''' 'x'.'''
 |-
@@ Line 311: / Line 275: @@
 | 04:07
-|Go to the ''' scilab console and type'''
+|Go to the ''' scilab console''' and type:
 |-
@@ Line 320: / Line 282: @@
 |'A' is equals to open square bracket, two <space> one <space> one <semicolon> one <space> two <space> three <semicolon> two <space> two <space> one, close the square bracket.
 |-
@@ Line 326: / Line 287: @@
 |04:26
-|And press Enter
+|And press Enter.
 |-
@@ Line 335: / Line 294: @@
 |similarly type, small 'b' equals to open square bracket, two <semicolon>five <semicolon> six, close the square bracket.
 |-
@@ Line 341: / Line 299: @@
 | 04:38
-| And press '''Enter'''
+| And press '''Enter'''.
 |-
@@ Line 353: / Line 311: @@
 | 04:53
-|And press ''' Enter'''
+|And press ''' Enter'''.
 |-
@@ Line 362: / Line 319: @@
 |-
 | 05:05
-|And press '''Enter'''
+|And press '''Enter'''.
 |-
@@ Line 368: / Line 325: @@
 | 05:07
-|Now clear the '''Scilab console using  clc command.'''
+|Now clear the '''Scilab console''' using  '''clc''' command.
 |-
@@ Line 376: / Line 332: @@
 | Type ''' open square bracket, 'x' opt <comma> 'f' opt <comma> 'exitflag' <comma> iter, close the square bracket equals to karmarkar open parenthesis, open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> 'c' <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> open square bracket, close the square bracket <comma> capital 'A' <comma> 'small b' <comma> 'lb', close the round bracket. '''
 |-
@@ Line 382: / Line 337: @@
 | 06:09
-| And Press '''enter'''
+| And Press '''Enter'''.
 |-
@@ Line 388: / Line 343: @@
 | 06:11
-| Press Enter to continue the Display
+| Press Enter to continue the Display.
 |-
@@ Line 396: / Line 349: @@
 | 06:14
-| This will give the output as shown on the screen.
+| This will give the output as shown on the screen
 |-
@@ Line 402: / Line 355: @@
 | 06:18
-| Where '''xopt'''  is the ''' optimal solution''' to the problem
+| where '''xopt'''  is the ''' optimal solution''' to the problem,
 |-
@@ Line 414: / Line 367: @@
 | 06:32
-|and number of iteration required to reach the optimum solution ''' xopt is 70'''
+|and number of iteration required to reach the optimum solution ''' xopt is 70'''.
 |-
@@ Line 420: / Line 373: @@
 | 06:39
-|Please note that: it is mandatory to specify the input arguments in the same order.
+|Please note that: it is mandatory to specify the input arguments in the same order
 |-
@@ Line 426: / Line 379: @@
 | 06:46
-|In which they have been listed above, while calling the function
+|in which they have been listed above, while calling the function.
 |-
@@ Line 432: / Line 385: @@
 | 06:51
-|In this tutorial, we learned
+|In this tutorial, we learned:
 |-
@@ Line 444: / Line 397: @@
 | 06:55
-|Use of Scilab function karmarkar in optimization to solve linear problems.
+|Use of Scilab function '''Karmarkar''' in optimization to solve linear problems.
 |-
 | 07:01
-|To contact the scilab team, please write to ''' contact@scilab.in '''
+|To contact the scilab team, please write to '''contact@scilab.in'''
 |-
 |07:08
-| Watch the video available at the following link
+| Watch the video available at the following link.
 |-
@@ Line 461: / Line 412: @@
 | 07:10
-| It summarises the Spoken Tutorial project
+| It summarises the Spoken Tutorial project.
 |-
@@ Line 475: / Line 424: @@
 |07:18
-||The spoken tutorial project Team
+||The spoken tutorial project Team:
 |-
@@ Line 482: / Line 431: @@
 ||Conducts workshops using spoken tutorials
 |-
@@ Line 488: / Line 436: @@
 |07:23
-||Gives certificates to those who pass an online test
+||Gives certificates to those who pass an online test.
 |-
@@ Line 495: / Line 442: @@
 |07:27
-||For more details, please write to contact@spoken-tutorial.org
+||For more details, please write to contact@spoken-tutorial.org.
 |-
@@ Line 502: / Line 448: @@
 |07:34
-|Spoken Tutorial Project is a part of the Talk to a Teacher project
+|Spoken Tutorial Project is a part of the Talk to a Teacher project.
 |-
@@ Line 515: / Line 459: @@
 | 07:44
-|More information on this mission is available at spoken-tutorial.org/NMEICT-Intro
+|More information on this mission is available at spoken-tutorial.org/NMEICT-Intro.
 |-
@@ Line 521: / Line 465: @@
 | 07:53
-|This is Anuradha Amrutkar from IIT Bombay signing off.
+|This is Anuradha Amrutkar from IIT Bombay, signing off.
 |-
@@ Line 527: / Line 471: @@
 |07:57
-| Thank you for joining Good Bye.
+| Thank you for joining. Good Bye.