Harmony, Complexity, and Chaos in a image

  • 3 Replies
  • 298 Views
*

keghn

  • Trusty Member
  • ********
  • Replicant
  • *
  • 730
Harmony, Complexity, and Chaos in a image
« on: December 16, 2017, 05:56:46 pm »
   A edge detector algorithm based on chaos, complexity, and harmony.
But fist detecting complexity and chaos.
A image is divided up into squares.
One square is selected, and the average value is found. That square is divided
into two. One of those half's is is selected. The average value is found.
I there is not difference in average values at each level then there is no complexity
in this square. And need to check the other half too.

Taking the original image that is broken into squares. A complexity value is given
to each square. A pair of squares that have different complexity numbers between
them means a edge is there.


*

keghn

  • Trusty Member
  • ********
  • Replicant
  • *
  • 730
Re: Harmony, Complexity, and Chaos in a image
« Reply #1 on: December 17, 2017, 05:00:18 pm »

 The Complexity Number

 Complexity number could be in a range of only 1 to 256.
 A value of 1 means fraction of a fraction of a second to figure out what its. And the most minimal a mount of cpu power.
 A value of 128 would mean beyond the life time of the universe. And great strain on cpu and gpu power. 

 Life and AGI need a fast way to deal with the easy stuff first, before wasting too much time on the too complex.


*

ivan.moony

  • Trusty Member
  • *********
  • Terminator
  • *
  • 835
  • Smile, it's another day!
    • Structured Type System
Re: Harmony, Complexity, and Chaos in a image
« Reply #2 on: December 17, 2017, 05:20:38 pm »
Could values between 128 and 256 mean negative time, a time before the Universe existed?

I'm playing these days with complementary values. I find binary encoding of negative values fascinating.
Did you notice that today is the first day of the rest of your life?

*

ranch vermin

  • Not much time left.
  • Replicant
  • ********
  • 542
  • Its nearly time!
Re: Harmony, Complexity, and Chaos in a image
« Reply #3 on: December 18, 2017, 04:51:17 am »
2^(2^1024.)

something even quantum computers cant solve.   you only get one log,  and that only removes one 2.   u need 2 quantum computer tricks at once to get that number.

 


AiDL language draft
by Zero (General Project Discussion)
Today at 11:18:52 am
lines 2 filled graphics converter
by LOCKSUIT (General AI Discussion)
January 21, 2018, 09:15:15 pm
Hello peeps and evil robots
by 8pla.net (New Users Please Post Here)
January 21, 2018, 03:51:17 pm
What's everyone up to ?
by ivan.moony (General Chat)
January 21, 2018, 03:32:41 pm
What is Reality?
by Art (General Chat)
January 21, 2018, 03:20:37 pm
My question
by Art (General Chat)
January 21, 2018, 03:04:14 pm
Who are you, what do you do & what do you want to do ?
by Art (New Users Please Post Here)
January 21, 2018, 02:59:49 pm
B-Bot
by korrelan (General Project Discussion)
January 21, 2018, 12:16:44 pm

Users Online

28 Guests, 0 Users

Most Online Today: 62. Most Online Ever: 208 (August 27, 2008, 09:36:30 am)

Articles