AAMToolbox Details: Difference between revisions
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[[Software#AAMToolbox|Back to Software]] | [[Software#AAMToolbox|Back to Software]] | ||
==What is the ''AAMToolbox''?== | ==<span style="color:Navy;">What is the ''AAMToolbox and why''?</span>== | ||
{| border="0" cellpadding="5" cellspacing="3" | {| border="0" cellpadding="5" cellspacing="3" | ||
|- valign="top" | |- valign="top" | ||
|width="300pt"|'''We wish to understand''' how the biological organs grow to particular shapes. For this we need a tool to help us think through what we expect to see, i.e. model growth ([[Software#AAMToolbox|''GFtbox'']]), and we need to make measurements of real biological organs to test our expectations (hypotheses). | |width="300pt"|'''We wish to understand''' how the biological organs grow to particular shapes. For this we need a tool to help us think through what we expect to see, i.e. model growth ([[Software#AAMToolbox|''GFtbox'']]), and we need to '''make measurements''' of real biological organs to test our expectations (hypotheses). | ||
However, the shapes of biological organs rarely make measurement simple - how do you measure the three dimensional (3D) shape of an ear, leaf or Snapdragon flower? The''' ''AAMToolbox'' is designed to measure the shapes of organs''' relative to each other. | However, the shapes of biological organs rarely make measurement simple - how do you measure the two or three dimensional (2 or 3D) shape of an ear, leaf or Snapdragon flower? The''' ''AAMToolbox'' is designed to measure the shapes of organs''' relative to each other. | ||
<br> | <br> | ||
|[[Image:Various_shapes.png|thumb|left|400px]] | |[[Image:Various_shapes.png|thumb|left|400px]]<br> | ||
Some shapes of mouths, leaves, petals and portraits | |||
|} | |} | ||
==<span style="color:Navy;">How does is measure shapes?</span>== | |||
==<span style="color:Navy;">Limitations?</span>== | |||
Revision as of 18:19, 13 February 2012
What is the AAMToolbox and why?
| We wish to understand how the biological organs grow to particular shapes. For this we need a tool to help us think through what we expect to see, i.e. model growth (GFtbox), and we need to make measurements of real biological organs to test our expectations (hypotheses).
However, the shapes of biological organs rarely make measurement simple - how do you measure the two or three dimensional (2 or 3D) shape of an ear, leaf or Snapdragon flower? The AAMToolbox is designed to measure the shapes of organs relative to each other.
|
Some shapes of mouths, leaves, petals and portraits |
