International audience<p>We propose, under the form of a short overview, to stress the interest of graph to encode the "topological" structure of networks hidden in images especially when applied in life sciences. We point toward existing computer science tools to extract such structural graph from images. We then illustrate different applications, such as segmentation, denoising, and simulation on practical examples of various bioimaging domains including vascular networks observed with fluorescent microscopy in 2D imaging, macroscopic root systems observed in 2D optical intensity imaging, and 3D porosity networks of seed observed in absorption X-ray microtomography.</p
Much of the data generated and analyzed in the life sciences can be interpreted and represented by n...
In this article we deal with problems that involve the analysis of topology in graphs modeling biolo...
We use graph theory in conjunction with automated vessel data extraction software to identify and qu...
We propose, under the form of a short overview, to stress the interest of graph to encode the "topol...
International audienceIn this letter, we consider scenes constituted by underlying structural networ...
Understanding complex systems often requires a bottom-up analysis towards a systems biology approach...
One of the major goals in biomedical image processing is accurate segmentation of networks embedded ...
We will consider the three phases of the procedure and approach the methodological issues of interes...
With the ever-increasing quality and quantity of imaging data in biomedical research comes the deman...
One of the major goals in biomedical image processing is accurate segmentation of networks embedded ...
There are many real-world systems consisting of interacting entities that can be modeled by the powe...
Abstract—The recent explosion in biological and other real-world network data has created the need f...
In this paper we introduce the concept of segmentation based on mathematical approach using graph th...
Abstract — The aim of this study is about tracing filamentary structures in both neuronal and retina...
Background: The analysis of complex networks both in general and in particular as pertaining to real...
Much of the data generated and analyzed in the life sciences can be interpreted and represented by n...
In this article we deal with problems that involve the analysis of topology in graphs modeling biolo...
We use graph theory in conjunction with automated vessel data extraction software to identify and qu...
We propose, under the form of a short overview, to stress the interest of graph to encode the "topol...
International audienceIn this letter, we consider scenes constituted by underlying structural networ...
Understanding complex systems often requires a bottom-up analysis towards a systems biology approach...
One of the major goals in biomedical image processing is accurate segmentation of networks embedded ...
We will consider the three phases of the procedure and approach the methodological issues of interes...
With the ever-increasing quality and quantity of imaging data in biomedical research comes the deman...
One of the major goals in biomedical image processing is accurate segmentation of networks embedded ...
There are many real-world systems consisting of interacting entities that can be modeled by the powe...
Abstract—The recent explosion in biological and other real-world network data has created the need f...
In this paper we introduce the concept of segmentation based on mathematical approach using graph th...
Abstract — The aim of this study is about tracing filamentary structures in both neuronal and retina...
Background: The analysis of complex networks both in general and in particular as pertaining to real...
Much of the data generated and analyzed in the life sciences can be interpreted and represented by n...
In this article we deal with problems that involve the analysis of topology in graphs modeling biolo...
We use graph theory in conjunction with automated vessel data extraction software to identify and qu...