Add to ORKGThe microscopic analysis of time dependent 3D live cells provides considerable challenges to visualization. Effective visualization can provide insight into the structure and functioning of living cells. This paper presents a case study in which a number of visualization techniques were applied to analyze a specific problem in cell biology: the condensation and de condensation of chromosomes during cell division. The spatial complexity of the data required sophisticated presentation techniques. The interactive virtual reality enabled visualization system, proteus, specially equipped for time dependent 3D data sets is described. An important feature of proteus is that it is extendible to cope with application specific demands
Time-lapse live cell imaging has been increasingly employed by biological and biomedical researchers...
The study of many biological processes requires the analysis of three-dimensional (3D) structures th...
AbstractIdentification and quantification of the characteristics of stem cell preparations is critic...
Confocal laser scanning microscopes have been widely employed in biology research for many years. Th...
International audienceThe analysis of multidimensional time-varying datasets faces challenges, notab...
International audienceMicroscopy image observation is commonly performed on 2D screens, which limits...
This paper presents an example of how existing visualization methods can be successfully applied - a...
This master thesis is focused on volumetric data rendering and on highlighting and visualization of ...
Recent advances in microscopy technologies such as high-throughput imaging, super-resolution, and 3D...
The advent of light microscope techniques, together with advances in fluorescent labeling technologi...
Confocal microscopy is a powerful tool for measuring 3D cellular structures and behaviors. However, ...
In vivo microscopy generates images that contain complex information on the dynamic behaviour of thr...
Cellular events are accomplished by the coordinated interactions of cellular components within the t...
Fluorescence time-lapse microscopy has become a powerful tool in the study of many biological proces...
Time-lapse live cell imaging has been increasingly employed by biological and biomedical researchers...
The study of many biological processes requires the analysis of three-dimensional (3D) structures th...
AbstractIdentification and quantification of the characteristics of stem cell preparations is critic...
Confocal laser scanning microscopes have been widely employed in biology research for many years. Th...
International audienceThe analysis of multidimensional time-varying datasets faces challenges, notab...
International audienceMicroscopy image observation is commonly performed on 2D screens, which limits...
This paper presents an example of how existing visualization methods can be successfully applied - a...
This master thesis is focused on volumetric data rendering and on highlighting and visualization of ...
Recent advances in microscopy technologies such as high-throughput imaging, super-resolution, and 3D...
The advent of light microscope techniques, together with advances in fluorescent labeling technologi...
Confocal microscopy is a powerful tool for measuring 3D cellular structures and behaviors. However, ...
In vivo microscopy generates images that contain complex information on the dynamic behaviour of thr...
Cellular events are accomplished by the coordinated interactions of cellular components within the t...
Fluorescence time-lapse microscopy has become a powerful tool in the study of many biological proces...
Time-lapse live cell imaging has been increasingly employed by biological and biomedical researchers...
The study of many biological processes requires the analysis of three-dimensional (3D) structures th...
AbstractIdentification and quantification of the characteristics of stem cell preparations is critic...