Difference between revisions of "Distorted visualization methods for convergent assembly"

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* square grid mapped to show details on all scales equally [https://www.flickr.com/photos/65091269@N08/21137194509/sizes/l]
 
* square grid mapped to show details on all scales equally [https://www.flickr.com/photos/65091269@N08/21137194509/sizes/l]
 
* More large scale map examples [http://dmishin.blogspot.co.at/2013/12/log-polar-coordinate-system-applied-to.html]
 
* More large scale map examples [http://dmishin.blogspot.co.at/2013/12/log-polar-coordinate-system-applied-to.html]
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* [http://dmishin.blogspot.co.at/2014/09/logarithmic-zoom-at-palace-square-saint.html Images from Dmitry Shintyakov]
  
 
== Keywords ==
 
== Keywords ==
  
 
distortion lens view; log-polar map; complex logarithmic map, complex logarithmic view, anamorphic mirror, anamorphosis
 
distortion lens view; log-polar map; complex logarithmic map, complex logarithmic view, anamorphic mirror, anamorphosis

Revision as of 20:29, 17 November 2016

This article is a stub. It needs to be expanded.

To get a complete picture of the physical layout of all the assembly levels of the convergent assembly in a nanofactory (which might be organized in a stack of coplanar layers) and see all of this in one single image at one glance one needs to project space in a nonlinear way.
Normal perspective (a linear projection) is unsuitable since it compresses most details towards the horizon. Instead a nonlinear polar logarithmic mapping is the best fit.

An additional difficulty is that a nanofactory as opposed to a map is inherently three dimensional so some cross cut has to be chosen. Whether that cross cut can be simply planar or not depends on the exact design choices taken in a concrete nanofactories design.


(TODO: add image [1] -- license?)

Related

External Links

  • python scripts to generate log-polar maps from pixelgraphics [2]
  • "Detail-In-Context Visualization for Satellite Imagery" [3]
    "Complex Logarithmic Views for Small Details in Large Contexts" [4]
    by Joachim Boettinger et. al.
    Department of Computer and Information Science, University of Konstanz, Germany
  • Video showing a manual multi-scale zoom device [5] the "zoom-scope"
  • square grid mapped to show details on all scales equally [6]
  • More large scale map examples [7]

Keywords

distortion lens view; log-polar map; complex logarithmic map, complex logarithmic view, anamorphic mirror, anamorphosis