This software package implements the method described in:
"Crisp Boundary Detection Using Pointwise Mutual Information" Phillip Isola, Daniel Zoran, Dilip Krishnan, and Edward H. Adelson ECCV, 2014
The code takes an image as input and will attempt to find object boundaries in that image. The code can also be used to segment an image into coherent regions. For more details, please visit the project page here: http://web.mit.edu/phillipi/crisp_boundaries
To use this software, you first need to compile it. To do so, run:
$ cd /path/to/crisp-boundaries
$ matlab
>> compile
If you run into trouble compiling, please see ./installation_issues.text.
To detect boundaries in an image, use the "findBoundaries()" function:
>> I = imread('/path/to/image');
>> E = findBoundaries(I);
>> imshow(1-mat2gray(E));
These commands should take around 1 minute or less for a medium sized image (400x400 pixels) on a typical machine (circa 2014).
More examples are given in demo.m. Please see that file to learn how to adjust parameters, segment an image, etc.
This package includes code from a few other libraries in the "toolboxes" folder. These are:
- The Kernel Density Estimation Toolbox of Ihler and Mandel (http://www.ics.uci.edu/ihler/code/kde.html)
- The Multigrid Multiscale spectral clustering algorithm of Maire and Yu (https://github.com/mmaire/ae-multigrid)
- The DNcuts algorithm from Arbelaez et al. (http://www.eecs.berkeley.edu/Research/Projects/CS/vision/grouping/mcg/) -- this wasn't used in the paper, but speeds up spectral clustering quite a lot without sacrificing much accuracy
- Selected files from the Berkeley Segmentation code base (http://www.eecs.berkeley.edu/Research/Projects/CS/vision/grouping/resources.html)
Some of these files were modified for crisp boundaries. Please see notes in the Readme files under each toolbox subdirectory. Further code credit is given at the top of each source file.
If you have any feedback, please write to Phillip Isola at [email protected].