textabstractAdvances in fluorescent probing and microscopic imaging technology have revolutionized biology in the past decade and have opened the door for studying subcellular dynamical processes. However, accurate and reproducible methods for processing and analyzing the images acquired for such studies are still lacking. Since manual image analysis is time consuming, potentially inaccurate, and poorly reproducible, many biologically highly relevant questions are either left unaddressed, or are answered with great uncertainty. The subject of this thesis is particle filtering methods and their application for multiple object tracking in different biological imaging applications. Particle filtering is a technique for implementing recursiv...
AbstractSingle-particle tracking (SPT) is a range of powerful analysis techniques that measure parti...
International audienceIn this paper, we present a method for simultaneously tracking thousands of ta...
AbstractQuantitative tracking of particle motion using live-cell imaging is a powerful approach to u...
Time-lapse fluorescence microscopy imaging has rapidly evolved in the past decade and has opened new...
Quantitative analysis of dynamic processes in living cells by means of fluorescence microscopy imagi...
Quantitative analysis of microscopy images is ideally suited for understanding the functional biolog...
Quantitative analysis of dynamical processes in living cells by means of fluorescence microscopy ima...
Analysing migrating cells in microscopy time-lapse images has already helped the understanding of ma...
Abstract—Studying intracellular dynamics is of fundamental importance for understanding healthy life...
Fluorescence microscopy is a technique which allows the imaging of cellular and intracellular dynami...
Motion analysis plays an important role in studing activities or behaviors of live objects in medici...
textabstractFluorescence microscopy is a technique which allows the imaging of cellular and intracel...
International audienceThe characterization of molecule dynamics in living cells is of paramount inte...
Automated analysis of fluorescence microscopy data relies on robust segmentation and tracking algori...
Particle tracking is an essential tool for the study of dynamics of biological processes. The dynami...
AbstractSingle-particle tracking (SPT) is a range of powerful analysis techniques that measure parti...
International audienceIn this paper, we present a method for simultaneously tracking thousands of ta...
AbstractQuantitative tracking of particle motion using live-cell imaging is a powerful approach to u...
Time-lapse fluorescence microscopy imaging has rapidly evolved in the past decade and has opened new...
Quantitative analysis of dynamic processes in living cells by means of fluorescence microscopy imagi...
Quantitative analysis of microscopy images is ideally suited for understanding the functional biolog...
Quantitative analysis of dynamical processes in living cells by means of fluorescence microscopy ima...
Analysing migrating cells in microscopy time-lapse images has already helped the understanding of ma...
Abstract—Studying intracellular dynamics is of fundamental importance for understanding healthy life...
Fluorescence microscopy is a technique which allows the imaging of cellular and intracellular dynami...
Motion analysis plays an important role in studing activities or behaviors of live objects in medici...
textabstractFluorescence microscopy is a technique which allows the imaging of cellular and intracel...
International audienceThe characterization of molecule dynamics in living cells is of paramount inte...
Automated analysis of fluorescence microscopy data relies on robust segmentation and tracking algori...
Particle tracking is an essential tool for the study of dynamics of biological processes. The dynami...
AbstractSingle-particle tracking (SPT) is a range of powerful analysis techniques that measure parti...
International audienceIn this paper, we present a method for simultaneously tracking thousands of ta...
AbstractQuantitative tracking of particle motion using live-cell imaging is a powerful approach to u...