Max-tree (or component-tree) is a hierarchical representation which associates to a scalar image a descriptive data structure induced by the inclusion relation between the binary components obtained at successive level-sets. Various attributes related to these binary components can be computed and stored into the tree. Max-trees have been involved in many applications, enabling to perform attribute filtering in an efficient algorithmic way. Since the resulting images do not contain any new contour, these kind of filters are called "connected operators". In this article, we propose to rely on max-trees and attribute filters to enrich the input of a convolutional neural network (CNN) to improve a task of segmentation. More precisely, two approaches are considered: a first approach in which images are preprocessed using attribute filters and a second approach in which maps of attributes relying on max-trees are computed. Based on these two different approaches, the resulting maps are used as additional input in a standard CNN in a context of semantic segmentation. We propose to compare different attributes and nodes selection strategies and to experiment their usage on a practical problem: the segmentation of the mitochondria and endoplasmic-reticulum in Focused Ion Beam milling combined with Scanning Electron Microscopy (FIB-SEM) images. We provide original images, annotations, source code and a documentation to reproduce the experimentation results.
C. Meyer , E. Baudrier , P. Schultz , B. Naegel
Discrete Geometry and Mathematical Morphology (DGMM) Reproducible Research in Pattern Recognition (RRPR) , page 77-90 - 2022
International conference with proceedings
Combining max-tree and CNN for segmentation of cellular FIB-SEM images, Discrete Geometry and Mathematical Morphology (DGMM) Reproducible Research in Pattern Recognition (RRPR), Strasbourg, France, pages 77-90, Springer, Cham, octobre 2022, doi:10.1007/978-3-031-40773-4_7
Research team : IMAGeS
Powered by Papr@Inproceedings{4-MBSN22,
author = {Meyer, C. and Baudrier, E. and Schultz, P. and Naegel, B.},
title = {Combining max-tree and CNN for segmentation of cellular FIB-SEM images},
booktitle = {Discrete Geometry and Mathematical Morphology (DGMM) Reproducible Research in Pattern Recognition (RRPR)},
pages = {77-90},
month = {Oct},
year = {2022},
publisher = {Springer, Cham},
organization = {IAPR},
doi = {10.1007/978-3-031-40773-4_7},
x-international-audience = {Yes},
x-language = {EN},
url = {http://publis.icube.unistra.fr/4-MBSN22}
}