Difference between revisions of "Public data sets"

(Add link to sample OME-TIFF data on ome-xml.org.)
(Added migrating macrophages data set)
Line 13: Line 13:
 
[[File:tubhiswt4D.png|thumb]]
 
[[File:tubhiswt4D.png|thumb]]
 
:The dataset consists of tubulin histone GFP coexpressing ''C. elegans'' embryos. All image planes were collected at 512x512 resolution in 8-bit grayscale.  
 
:The dataset consists of tubulin histone GFP coexpressing ''C. elegans'' embryos. All image planes were collected at 512x512 resolution in 8-bit grayscale.  
 +
 +
* [http://pacific.mpi-cbg.de/datasets/migrating-macrophages.tif.tar.bz2 Migrating macrophages] in response to stimuli.
 +
:4D data set, kindly provided by Dirk Sieger and [http://www.embl.de/research/units/dev_biology/peri/ Francesca Peri], EMBL.[[File:Migrating-macrophages.gif|thumb]]
 +
:'''The challenge''': trace the macrophages in 4D, and measure their shape volumes, surfaces, positions and pixel value intensities.
 +
:The file is a tif hyperstack that can be loaded directly into the [[3D Viewer]].
  
 
[[Category:Data]]
 
[[Category:Data]]
 
[[Category:Segmentation]]
 
[[Category:Segmentation]]

Revision as of 07:49, 6 April 2010

Do you need image data to try your algorithms on? Do you lack expert ground truth to test your methods? No problem! Here you have a list of available public data sets from the Fiji community and other sources:

TrakEM2-tree-datastructure.png
TrakEM2-display-s.jpg
30 sections from a serial section Transmission Electron Microscopy (ssTEM) data set of the Drosophila first instar larva ventral nerve cord (VNC). The microcube measures 2 x 2 x 1.5 microns approx., with a resolution of 4x4x50 nm/pixel.
The challenge: use this data set to train machine learning software for the purpose of automatic segmentation of neural structures in ssTEM.
The images are representative of actual images in the real-world: there is a bit of noise; there are image registration errors; there is even a small stitching error in one section. None of these led to any difficulties in the manual labeling of each element in the image stack by an expert human neuroanatomist. A software application that aims at removing or reducing human operation must be able to cope with all these issues.
Tubhiswt4D.png
The dataset consists of tubulin histone GFP coexpressing C. elegans embryos. All image planes were collected at 512x512 resolution in 8-bit grayscale.
4D data set, kindly provided by Dirk Sieger and Francesca Peri, EMBL.
Migrating-macrophages.gif
The challenge: trace the macrophages in 4D, and measure their shape volumes, surfaces, positions and pixel value intensities.
The file is a tif hyperstack that can be loaded directly into the 3D Viewer.