The quantitative analysis of cellular membranes helps understanding developmental processes at the cellular level. Particularly 3D microscopic image data offers valuable insights into cell dynamics, but error-free automatic segmentation remains challenging due to the huge amount of data generated and strong variations in image intensities. In this paper, we propose a new 3D segmentation approach that combines the discriminative power of convolutional neural networks (CNNs) for preprocessing and investigates the performance of three watershed-based postprocessing strategies (WS), which are well suited to segment object shapes, even when supplied with vague seed and boundary constraints. To leverage the full potential of the watershed algorit...
Fluorescence microscopy is an essential tool for imaging subcellular structures in tissue. Two-photo...
Image segmentation is an important process that separates objects from the background and also from ...
Mechanical cues such as stresses and strains are now recognized as essential regulators in many biol...
We consider the problem of accurately identifying cell boundaries and labeling individual cells in c...
Segmenting three-dimensional (3D) microscopy images is essential for understanding phenomena like mo...
International audienceSegmenting three-dimensional (3D) microscopy images is essential for understan...
Automated segmentation approaches are crucial to quantitatively analyze large-scale 3D microscopy im...
Volumetric cell segmentation in fluorescence microscopy images is important to study a wide variety ...
The identification of cell borders ('segmentation') in microscopy images constitutes a bottleneck fo...
Motivation: Single-cell time-lapse microscopy is a ubiquitous tool for studying the dynamics of comp...
Image object segmentation allows localising the region of interest in the image (ROI) and separating...
Quantitative analysis of plant and animal morphogenesis requires accurate segmentation of individual...
Abstract Accurate detection and segmentation of single cells in three-dimensional (3D) fluorescence ...
Motivation: Developing cells change their gene expression profiles dynamically upon induction by pro...
This work introduces methods for single-cell segmentation of microscopy images. The developed method...
Fluorescence microscopy is an essential tool for imaging subcellular structures in tissue. Two-photo...
Image segmentation is an important process that separates objects from the background and also from ...
Mechanical cues such as stresses and strains are now recognized as essential regulators in many biol...
We consider the problem of accurately identifying cell boundaries and labeling individual cells in c...
Segmenting three-dimensional (3D) microscopy images is essential for understanding phenomena like mo...
International audienceSegmenting three-dimensional (3D) microscopy images is essential for understan...
Automated segmentation approaches are crucial to quantitatively analyze large-scale 3D microscopy im...
Volumetric cell segmentation in fluorescence microscopy images is important to study a wide variety ...
The identification of cell borders ('segmentation') in microscopy images constitutes a bottleneck fo...
Motivation: Single-cell time-lapse microscopy is a ubiquitous tool for studying the dynamics of comp...
Image object segmentation allows localising the region of interest in the image (ROI) and separating...
Quantitative analysis of plant and animal morphogenesis requires accurate segmentation of individual...
Abstract Accurate detection and segmentation of single cells in three-dimensional (3D) fluorescence ...
Motivation: Developing cells change their gene expression profiles dynamically upon induction by pro...
This work introduces methods for single-cell segmentation of microscopy images. The developed method...
Fluorescence microscopy is an essential tool for imaging subcellular structures in tissue. Two-photo...
Image segmentation is an important process that separates objects from the background and also from ...
Mechanical cues such as stresses and strains are now recognized as essential regulators in many biol...