Difference between revisions of "Distorted visualization methods for convergent assembly"
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* Video showing a manual multi-scale zoom device [http://www.youtube.com/watch?v=rBffRXfNDW0&t=6m42s] the "zoom-scope" | * Video showing a manual multi-scale zoom device [http://www.youtube.com/watch?v=rBffRXfNDW0&t=6m42s] the "zoom-scope" | ||
* 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] | ||
== 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 11:43, 12 November 2016
To get a complete picture of all the convergent assembly levels of a nanofactory all in one image one needs to project space.
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.
(TODO: add image)
External Links
- python scripts to generate log-polar maps from pixelgraphics [1]
- "Detail-In-Context Visualization for Satellite Imagery" [2]
"Complex Logarithmic Views for Small Details in Large Contexts" [3]
by Joachim Boettinger et. al.
Department of Computer and Information Science, University of Konstanz, Germany - Video showing a manual multi-scale zoom device [4] the "zoom-scope"
- square grid mapped to show details on all scales equally [5]
- More large scale map examples [6]
Keywords
distortion lens view; log-polar map; complex logarithmic map, complex logarithmic view, anamorphic mirror, anamorphosis
