Main Page: Difference between revisions

From MiToBo
Jump to navigationJump to search
No edit summary
Line 39: Line 39:
<div style="padding: 0.3em 1em 0.7em 1em;">
<div style="padding: 0.3em 1em 0.7em 1em;">
'''How to get it?'''<br>
'''How to get it?'''<br>
You can download MiToBo version 1.5 [[Downloads | here]]. <br />
* ImageJ-Users:<br> download the [https://moon.informatik.uni-halle.de/archiva/repository/releases/de/unihalle/informatik/MiToBo/mitobo-plugins/1.5/mitobo-plugins-1.5-bin.zip MiToBo-Plugins package] and follow the installations instructions to be found on the [[Installation | here]].
You can find the API documentation for this release [http://www.informatik.uni-halle.de/mitobo/api/index.html here].<br/>
* Fiji-Users:<br> simply add MiToBo's update site [http://sites.imagej.net/MiToBo http://sites.imagej.net/MiToBo] into your Fiji installation
* general: you can download MiToBo version 1.5 [[Downloads | here]]. <br/>  
 
You can find the API documentation for this release [http://www.informatik.uni-halle.de/mitobo/api/index.html here].<br/>  
Furthermore MiToBo offers you a user and programmer guide<br> which you can download [http://www.informatik.uni-halle.de/mitobo/downloads/manual/MiToBoManual.pdf here].
Furthermore MiToBo offers you a user and programmer guide<br> which you can download [http://www.informatik.uni-halle.de/mitobo/downloads/manual/MiToBoManual.pdf here].
</div>
</div>

Revision as of 10:21, 18 June 2015

MiToBo - A microscope image analysis toolbox

What is MiToBo?
The Microscope Image Analysis Toolbox MiToBo is an extension for the widely used image processing application ImageJ and its new release ImageJ 2.0.
MiToBo ships with a set of operators ready to be used as plugins in ImageJ. They focus on the analysis of biomedical images acquired by various types of microscopes.
Some of MiToBo's operators are for example these ones:

  • ActinAnalyzer for the quantification of actin filament structures in microscopy images
  • Cell Migration Analyzer for analyzing single cell migration from time lapse image sequences
  • Neuron Analyzer for the segmentation of neurons in microscope images
  • Scratch Assay Analyzer for analyzing microscope images from collective cell migration experiments
  • Snake Optimizer for performing image segmentation based on explicit active contours

Furthermore, MiToBo offers a user- and programmer friendly framework for developing algorithms that have properties not available in ImageJ,
however, still provides full compatibility to all ImageJ features.

MiToBo completely separates the implementation of image processing algorithms from potential user interfaces.
Moreover, MiToBo builds on top of Alida which is a library for easing the development of data analysis algorithms and tools.
The main concept of Alida are operators as the core units for implementing data analysis algorithms.
Alida defines unified interfaces and execution procedures for operators which yield the fundament for its nice features like

  • automatic documentation of complete analysis processes, e.g., leading from an input image to analysis results, in terms of processing graphs
  • automatic generation of commandline and graphical user interfaces
  • a graphical programming editor named Grappa automatically considering all implemented operators as potential processing nodes

MiToBo takes full advantage of Alida's features, hence, provides a framework for implementing image analysis algorithms allowing for automatic documentation and automatic user interface generation, and includes the graphical programming editor Grappa for user-friendly design of more complex processing pipelines.

How to get it?

You can find the API documentation for this release here.
Furthermore MiToBo offers you a user and programmer guide
which you can download here.


Latest News

  • 06/2015: Version 1.5 of MiToBo has been released
    This release ships with the new MTB Cell Counter plugin for semi-automatic segmentation and annotation of cell images. Details about the plugin (derived from the CellCounter plugin written by Kurt de Vos) can be found on the MTB Cell Counter wikipage and in the corresponding paper of Franke et al., "The 'MTB Cell Counter' a versatile tool for the semi-automated quantification of sub-cellular phenotypes in fluorescence microscopy images. A case study on plastids, nuclei and peroxisomes.", which just appeared in the Journal of Endocytobiosis and Cell Research, (26) 31-42, 2015, to be found here.

The news archive can be found here.


Licensing information
MiToBo is free software: you can redistribute it and/or modify under the terms of the GNU General Public License version 3 or (at your option) any later version as published by the Free Software Foundation.


Bug reports & Feature requests
Bug reports and feature requests can be submitted via the MiToBo bugtracking system or by mail to mitobo@informatik.uni-halle.de.

Before reporting a new bug, please check if that bug has already been submitted in the report list.