International audienceThe marked point process framework has been successfully developed in the field of image analysis to detect a configuration of predefined objects. The goal of this paper is to show how it can be particularly applied to biological imagery. We present a simple model that shows how some of the challenges specific to biological data are well addressed by the methodology. We further describe an extension to this first model to address other challenges due, for example, to the shape variability in biological material. We finally show results that illustrate the MPP framework using the " simcep " algorithm for simulating populations of cells
Two foundational and long-standing problems in computer vision are to detect and segment objects in ...
This paper introduces a novel approach for assessing multiple patterns in biological imaging dataset...
none5Today, studies on biological systems are often realized acquiring, processing and analyzing 3D-...
International audienceThe marked point process framework has been successfully developed in the fiel...
International audienceIn this chapter, we consider a marked point process framework for analyzing hi...
International audienceIn this paper, we present a method for simultaneously tracking thousands of ta...
Researchers in biology regularly produce large data sets of noisy images and videos that contain hun...
International audienceThe study of cell and pathogen motility in biology requires computerized metho...
© 2018, Springer Science+Business Media, LLC, part of Springer Nature. Due to the increased number o...
International audienceOne essential assumption used in object detection and labeling by imaging is t...
Modern biological research generates large amounts of data, which require automation for efficient a...
Often bioimage informatics solutions are developed on a case-by-case system and, once complete, may ...
Major advances in Cell and Molecular Biology have been associated with the advances in live-cell mic...
In this article, a real-time multistage method for detecting multiple objects moving in real scenes ...
International audienceDynamic processes such as pathogens invasion strategies and immune response to...
Two foundational and long-standing problems in computer vision are to detect and segment objects in ...
This paper introduces a novel approach for assessing multiple patterns in biological imaging dataset...
none5Today, studies on biological systems are often realized acquiring, processing and analyzing 3D-...
International audienceThe marked point process framework has been successfully developed in the fiel...
International audienceIn this chapter, we consider a marked point process framework for analyzing hi...
International audienceIn this paper, we present a method for simultaneously tracking thousands of ta...
Researchers in biology regularly produce large data sets of noisy images and videos that contain hun...
International audienceThe study of cell and pathogen motility in biology requires computerized metho...
© 2018, Springer Science+Business Media, LLC, part of Springer Nature. Due to the increased number o...
International audienceOne essential assumption used in object detection and labeling by imaging is t...
Modern biological research generates large amounts of data, which require automation for efficient a...
Often bioimage informatics solutions are developed on a case-by-case system and, once complete, may ...
Major advances in Cell and Molecular Biology have been associated with the advances in live-cell mic...
In this article, a real-time multistage method for detecting multiple objects moving in real scenes ...
International audienceDynamic processes such as pathogens invasion strategies and immune response to...
Two foundational and long-standing problems in computer vision are to detect and segment objects in ...
This paper introduces a novel approach for assessing multiple patterns in biological imaging dataset...
none5Today, studies on biological systems are often realized acquiring, processing and analyzing 3D-...