Main Page: Difference between revisions
| Line 16: | Line 16: | ||
|} | |} | ||
<br> | <br> | ||
[[Software#Quantitative understanding of growing shapes: GFtbox|<span style="color:Green;">'''MORE'''</span>]]<br> | ===s[[Software#Quantitative understanding of growing shapes: GFtbox|<span style="color:Green;">'''MORE'''</span>]]===<br> | ||
==<span style="color:DarkGreen;">'''Viewing''' three dimensional volume (microscopy) images== | ==<span style="color:DarkGreen;">'''Viewing''' three dimensional volume (microscopy) images== | ||
Revision as of 11:11, 14 April 2014
Bangham at UEA
Computational biology
Growing complex biological shapes from patterns of gene expression
|
|
===sMORE===
Viewing three dimensional volume (microscopy) images
|
|
Analysing shapes: faces, leaves and flowers
<imagemap>
Image:PortraitsMEANSsmaller.jpg|
rect Software#Analysing shapes in 2D and 3D: AAMToolbox
desc bottom-left
</imagemap>
MORE
Seen the origional paintings? Do they exist?.
Algorithms
Vision: MSER's, extrema, Connected-set filters, Sieves and Scale-space
|
|
Sieves and the art of light and shade
|
|
These images were produced from photographs using ArtMaster (formally known as PhotoArtMaster). The software received many favourable reviews when it was released (e.g. "This software can give you a lot of satisfaction from your everyday photos", [1]
The final (so far unpublished) version of ArtMaster including code is downloadable from here. I cannot provide support but quite of lot of documentation is available within 'this document
Reaction-diffusion and morphogenesis - the growth of shapes
|
|
This image forms part of a 'journey' in the Science Museum of London's 'Journeys of Invention' iPad app.
MORE