Friday, March 1, 2013

RTE.3.1 Viscosity, nShapes, Emergent patterns

If you are interested in the Theory of Nemetics refer to 

Nemetical approach to Complex Adaptive Systems –
 interactions of Red, Green, Blue Waves
 http://rgbwaves.wordpress.com/ by +Dibyendu De 


Figure 1
Patterns at Frequencies as above


Figure 2
Medium lines drawn on Figure 1



Figure 3
X iterations of figure 2.




Thursday, February 28, 2013

RTE.2.28.1 Strange Attractors and/or nemiStrings



If you are interested in the Theory of Nemetics refer to 

Nemetical approach to Complex Adaptive Systems –
 interactions of Red, Green, Blue Waves
 http://rgbwaves.wordpress.com/ by +Dibyendu De 


The following snapshots were taken at equal settings of B and R wave frequencies. Each state started from a blank canvas, although in the real world changes in frequencies occur when patterns are already extant.

Even with that it's interesting to note the differences in patterns based solely on difference in frequencies. Please note taking the snapshot at even very closely spaced times results in seeing different shapes. When the ripple tank is live patterns can be seen as as vibrating patterns.

Figure 1.
R and B wave frequencies set to high.

Figure 1 Adjusted
Same as figure 1 with color adjustment to see patterns more easily.


Figure 2.
B and Rwave set to medium

Figure 2 Color adjusted



Figure 3
B and Rwaves set to Low


Figure 3 Color Adjusted

RTE.2.28 Vibrating Convergence

The following snapshots were taken about .1 seconds from each other. Figures 1A and 2A are adjustments ( by color correction) of Figure 1 and Figure 2.

Much thanks to +Dibyendu De for his continuing insights.


Figure 1

Figure 1A

Figure 2

Figure 2A



Wednesday, February 27, 2013

RTE.2.27.1 The problem with snapshots


If you are interested in the nemetic framework refer to 

Nemetical approach to Complex Adaptive Systems –
 interactions of Red, Green, Blue Waves
 http://rgbwaves.wordpress.com/ by +Dibyendu De 


The following snapshots are all slices taken within 5 seconds. The image is sensitively dependent on the precise instant of click. 
  











RTE.2.27 Emergence


If you are interested in the nemetic framework refer to   

Nemetical approach to Complex Adaptive Systems – interactions of Red, Green, Blue Waves http://rgbwaves.wordpress.com/ by +Dibyendu De 


The following are snapshots as the Ripple Tank iterates over time.
Note "add border" is clicked.
Keep in mind these are snapshots which can only capture a slice at a particular instant.

Figure 1 Time X

Figure 2 Time X+a

Figure 3 X + a + b

Figure 4 Time X + a + b + c

Figure 5
Time X + a + b + c + d 

Figure 6a
Snapshot 1
Time X + a + b + c + d + e

Figure 6b
Snapshot 2
Time X + a + b + c + d + e 


Tuesday, February 26, 2013

RTE.2.26 Looking for Gwaves Number 4

If you are interested in the nemetic framework refer to   

Nemetical approach to Complex Adaptive Systems – interactions of Red, Green, Blue Waves http://rgbwaves.wordpress.com/ by +Dibyendu De 



Figure 1
 B Frequency High
R Frequency High
Figure 1 Bwaves

Figure 2
 B Frequency = Medium
R Frequency = High
Figure 2 Bwaves


Figure 3
B Frequency  = Low
 R Frequency = High
Figure 3 Bwaves


Figure 4
B Frequency = Low
R Frequency = Medium 
Figure 4 Bwaves


Figure 5
B Frequency = Low
R Frequency = Low
Figure 5 Bwaves


Sunday, February 24, 2013

RTE.2.24.3 Looking for Gwaves 3

A thank you to +Dibyendu De for his insight on RGBwaves as a different way to clarify complexity.  His blog is the best place to get the nemetical context of RTE ( Ripple Tank Experiments.)




Figure 1. Setup
Blue line indicates bounded nShape 



Figure 2

Bwave

Gwave

Rwave

The point is it seems that in the context of a high viscosity boundary, R, G and Bwaves have very similar shapes. My conjecture is this emulates a situation when thoughts, behavior and events tend to be aligned. My further conjecture is the changes in viscosity of boundaries take us another step closer to defining Authentic Constraints...

Any thoughts out there?

RTE.2.24.1 Looking for the Gwave 2

A thank you to +Dibyendu De for his insight on RGBwaves as a different way to clarify complexity.  His blog is the best place to get the nemetical context of RTE ( Ripple Tank Experiments.)




Figure 1. High Frequency
Rwave = Bwave

Bwave detail

Gwave detail

Rwave detail



Figure 2.
Low frequency

Bwave detail

Gwave detail

Rwave detail