Your search keyword '"Ayala, Guillermo"' showing total 3 results

1. Measuring Spatiotemporal Dependencies in Bivariate Temporal Random Sets with Applications to Cell Biology.

Author

Díaz, Ester, Sebastian, Rafael, Ayala, Guillermo, Díaz, María Elena, Zoncu, Roberto, Toomre, Derek, and Gasman, Stéphane

Subjects

SET theory, BIOMOLECULES, CELLS, REGRESSION analysis, PROBABILITY theory, PROTEINS, MICROSCOPY, TOPOLOGY, MEDICAL imaging systems, IMAGING systems in biology, THREE-dimensional imaging in biology

Abstract

Analyzing spatiotemporal dependencies between different types of events is highly relevant to many biological phenomena (e.g., signaling and trafficking), especially as advances in probes and microscopy have facilitated the imaging of dynamic processes in living cells. For many types of events, the segmented areas can overlap spatially and temporally, forming random clumps. In this paper, we model the binary image sequences of two different event types as a realization of a bivariate temporal random set and propose a nonparametric approach to quantify spatial and spatiotemporal interrelations using the pair correlation, cross-covariance, and the Ripley IK functions. Based on these summary statistics, we propose a randomization procedure to test independence between event types by applying random toroidal shifts and Monte Carlo tests. A simulation study assessed the performance of the proposed estimators and showed that these statistics capture the spatiotemporal dependencies accurately. The estimation of the spatiotemporal interval of interactions was also obtained. The method was successfully applied to analyze the interdependencies of several endocytic proteins using image sequences of living cells and validated the procedure as a new way to automatically quantify dependencies between proteins in a formal and robust manner. [ABSTRACT FROM AUTHOR]

Published

2008

2. Analysis of Spatially and Temporally Overlapping Events with Application to Image Sequences.

Author

Ayala, Guillermo, Sebastian, Rafael, Diaz, Maria Elena, Diaz, Ester, Zoncu, Roberto, and Toomre, Derek

Subjects

*PHOTOGRAPHS, *MATHEMATICAL sequences, *GEOMETRIC shapes, *DATA analysis, *ESTIMATION theory, *ENDOCYTOSIS, *FLUORESCENCE microscopy

Abstract

Counting spatially and temporally overlapping events in image sequences and estimating their shape-size and duration features are important issues in some applications. We propose a stochastic model, a particular case of the nonisotropic 3D Boolean model, for performing this analysis: the temporal Boolean model. Some probabilistic properties are derived and a methodology for parameter estimation from time-lapse image sequences is proposed using an explicit treatment of the temporal dimension. We estimate the mean number of germs per unit area and time, the mean grain size and the duration distribution. A wide simulation study in order to assess the proposed estimators showed promising results. The model was applied on biological image sequences of in- vivo cells in order to estimate new parameters such as the mean number and duration distribution of endocytic events. Our results show that the proposed temporal Boolean model is effective for obtaining information about dynamic processes which exhibit short-lived, but spatially and temporally overlapping events. [ABSTRACT FROM AUTHOR]

Published

2006

3. Spatial Size Distributions: Applications to Shape and Texture Analysis.

Author

Ayala, Guillermo and Domingo, Juan

Subjects

*IMAGE processing, *SPATIAL systems

Abstract

Deals with a study which proposed descriptors for binary and gray-scale images based on defined spatial size distributions. Granulometry and granulometric size distribution; Discussion on spatial size distributions; Conclusions.

Published

2001