File:Elutin1a4tori.jpg: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Dmitrii Kouznetsov
({{Image_Details|user-pd |description = Iterations of the logistic transfer function $f(x)=4x(1\!-\!x)$ (shown qith thick black line) $y=f^c(x)$ for $c=$ 0.2, 0.5, 0.8, 1, 1,5 . Function $f$ is iterated $c$ times; however, the number $c$ of iterations has no need to be integer. This pic was generated with the "universal" algorithm that evaluates the iterations of more general function $f_u(x)=u~x~ (1\!-\!x)$; see <ref name="logistic"> http://www.springerlink.com/content/u712vtp4122544x...)
 
imported>Dmitrii Kouznetsov
Line 1: Line 1:
== Summary ==
== Summary ==
{{Image_Details|user-pd
{{Image_Details|user-pd
|description  = Iterations of the [[logistic transfer function]] $f(x)=4x(1\!-\!x)$ (shown qith thick black line) $y=f^c(x)$ for $c=$ 0.2, 0.5, 0.8, 1, 1,5 .  Function $f$ is iterated $c$ times; however, the number $c$ of iterations has no need to be integer.  This pic was generated with the "universal" algorithm that evaluates the iterations of more general function $f_u(x)=u~x~ (1\!-\!x)$; see <ref name="logistic"> http://www.springerlink.com/content/u712vtp4122544x4/ D.Kouznetsov. Holomorphic extension of the logistic sequence. Moscow University Physics Bulletin, 2010, No.2, p.91-98. </ref>. Namely for $u\!=\!4$, the iterates can be expressed through the elementary function, and such a plot can be generated, for example, in [[Mathematica]] with very simple code:  F[c_, z_] = 1/2 (1 - Cos[2^c ArcCos[1 - 2 z]])  Plot[{F[1.5, x], F[1, x], F[.8, x], F[.5, x], F[.2, x]}, {x, 0, 1}] In order to keep the code short, the colors are not adjusted. The representation above can be obtained from the representation of the [[superfunction]] $F$ and the [[Abel function]] $G$: : $f^c(z)=F(c+G(z))$ at : $F(z)= \frac{1}{2}(1−\cos(2z))$ : $G(z)=F^{-1}(z)=\log_2(\arccos(1\!−\!2z))$
|description  = Iterations of the [[logistic transfer function]] <math>f(x)=4x(1\!-\!x)</math> (shown with thick black line) <math>y=f^c(x)</math> for <math>c=</math> 0.2, 0.5, 0.8, 1, 1,5 .  Function <math>f</math> is iterated <math>c</math> times; however, the number <math>c</math> of iterations has no need to be [[integer]].  This pic was generated with the "universal" algorithm that evaluates the iterations of more general function <math>f_u(x)=u~x~ (1\!-\!x)</math>; see <ref name="logistic"> http://www.springerlink.com/content/u712vtp4122544x4/ D.Kouznetsov. Holomorphic extension of the logistic sequence. Moscow University Physics Bulletin, 2010, No.2, p.91-98. </ref>. Namely for <math>u\!=\!4</math>, the iterates can be expressed through the elementary function, and such a plot can be generated, for example, in [[Mathematica]] with very simple code:
  F[c_, z_] = 1/2 (1 - Cos[2^c ArcCos[1 - 2 z]])  
  Plot[{F[1.5, x], F[1, x], F[.8, x], F[.5, x], F[.2, x]}, {x, 0, 1}]  
In order to keep the code short, the colors are not adjusted. The code above can be obtained from the representation of the [[superfunction]] <math>F</math> and the [[Abel function]] <math>G</math>
<math>f^c(z)=F(c+G(z))</math>
at  
<math>F(z)= \frac{1}{2}(1−\cos(2z))</math>
<math>G(z)=F^{-1}(z)=\log_2(\arccos(1\!−\!2z))</math>
|author      = [[User:Dmitrii Kouznetsov|Dmitrii Kouznetsov]]
|author      = [[User:Dmitrii Kouznetsov|Dmitrii Kouznetsov]]
|date-created = March 2011
|date-created = March 2011
Line 7: Line 14:
|notes        = More superfunctions represented through [[elementary function]]s can be found in
|notes        = More superfunctions represented through [[elementary function]]s can be found in
<ref name="factorial">
<ref name="factorial">
http://www.springerlink.com/content/qt31671237421111/fulltext.pdf?page=1 D.Kouznetsov, H.Trappmann. Superfunctions and square root of factorial. Moscow University Physics Bulletin, 2010, v.65, No.1, p.6-12.
http://www.springerlink.com/content/qt31671237421111/fulltext.pdf?page=1/ D.Kouznetsov, H.Trappmann. Superfunctions and square root of factorial. Moscow University Physics Bulletin, 2010, v.65, No.1, p.6-12.
</ref>.
</ref>. Expressions for the more general case are suggested in the article [[Logistic sequence]].


<b>Copyleft</b> 2011 by Dmitrii Kouznetsov.
<b>Copyleft</b> 2011 by Dmitrii Kouznetsov.
The free use is allowed.
Previously, this image appeared at http://tori.ils.uec.ac.jp/TORI/index.php/File:Elutin1a4tori.jpg ; the free use is allowed.  


==References==
==References==
Line 18: Line 25:
|versions    = http://tori.ils.uec.ac.jp/TORI/index.php/File:Elutin1a4tori.jpg
|versions    = http://tori.ils.uec.ac.jp/TORI/index.php/File:Elutin1a4tori.jpg
}}
}}
== Licensing ==
== Licensing ==
{{CC|zero|1.0}}
{{CC|zero|1.0}}

Revision as of 00:40, 18 May 2011

Summary

Title / Description


Iterations of the logistic transfer function (shown with thick black line) for 0.2, 0.5, 0.8, 1, 1,5 . Function is iterated times; however, the number of iterations has no need to be integer. This pic was generated with the "universal" algorithm that evaluates the iterations of more general function ; see [1]. Namely for , the iterates can be expressed through the elementary function, and such a plot can be generated, for example, in Mathematica with very simple code:
F[c_, z_] = 1/2 (1 - Cos[2^c ArcCos[1 - 2 z]]) 
Plot[{F[1.5, x], F[1, x], F[.8, x], F[.5, x], F[.2, x]}, {x, 0, 1}] 

In order to keep the code short, the colors are not adjusted. The code above can be obtained from the representation of the superfunction and the Abel function

 

at

Failed to parse (syntax error): {\displaystyle F(z)= \frac{1}{2}(1−\cos(2z))}

Failed to parse (syntax error): {\displaystyle G(z)=F^{-1}(z)=\log_2(\arccos(1\!−\!2z))}

Citizendium author


Dmitrii Kouznetsov
Date created


March 2011
Country of first publication


Japan
Notes


More superfunctions represented through elementary functions can be found in

[2]. Expressions for the more general case are suggested in the article Logistic sequence.

Copyleft 2011 by Dmitrii Kouznetsov. Previously, this image appeared at http://tori.ils.uec.ac.jp/TORI/index.php/File:Elutin1a4tori.jpg ; the free use is allowed.

References

  1. http://www.springerlink.com/content/u712vtp4122544x4/ D.Kouznetsov. Holomorphic extension of the logistic sequence. Moscow University Physics Bulletin, 2010, No.2, p.91-98.
  2. http://www.springerlink.com/content/qt31671237421111/fulltext.pdf?page=1/ D.Kouznetsov, H.Trappmann. Superfunctions and square root of factorial. Moscow University Physics Bulletin, 2010, v.65, No.1, p.6-12.
Other versions


http://tori.ils.uec.ac.jp/TORI/index.php/File:Elutin1a4tori.jpg
Using this image on CZ


Please click here to add the credit line, then copy the code below to add this image to a Citizendium article, changing the size, alignment, and caption as necessary.

{{Image|Elutin1a4tori.jpg|right|350px|Add image caption here.}}

Image issue? Contact us via the email below.

Please send email to manager A T citizendium.org .


Licensing

This media, Elutin1a4tori.jpg, is licenced under the Creative Commons CC0 1.0 Universal License

No copyright: The person who associated a work with this licence waives all rights to the work under copyright law and all related or neighboring legal rights in the work, to the extent allowable by law.
Patent or trademark rights, or rights other persons may have either in the work itself or in how the work is used such as publicity or privacy rights, are not affected.
Read the full licence.

File history

Click on a date/time to view the file as it appeared at that time.

Date/TimeThumbnailDimensionsUserComment
current18:54, 11 March 2022Thumbnail for version as of 18:54, 11 March 2022922 × 914 (62 KB)Maintenance script (talk | contribs)== Summary == Importing file

The following page uses this file:

Metadata