Jyh-Ying Peng scite author profile

Jyh-Ying Peng

5Publications

55Citation Statements Received

121Citation Statements Given

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119

Affiliations

Taipei City Hospital, Institute of Information Science, Academia Sinica

Publications

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PombeX: Robust Cell Segmentation for Fission Yeast Transillumination Images

Peng

Chen²,

Green

et al. 2013

PLoS ONE

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Schizosaccharomyces pombe shares many genes and proteins with humans and is a good model for chromosome behavior and DNA dynamics, which can be analyzed by visualizing the behavior of fluorescently tagged proteins in vivo. Performing a genome-wide screen for changes in such proteins requires developing methods that automate analysis of a large amount of images, the first step of which requires robust segmentation of the cell. We developed a segmentation system, PombeX, that can segment cells from transmitted illumination images with focus gradient and varying contrast. Corrections for focus gradient are applied to the image to aid in accurate detection of cell membrane and cytoplasm pixels, which is used to generate initial contours for cells. Gradient vector flow snake evolution is used to obtain the final cell contours. Finally, a machine learning-based validation of cell contours removes most incorrect or spurious contours. Quantitative evaluations show overall good segmentation performance on a large set of images, regardless of differences in image quality, lighting condition, focus condition and phenotypic profile. Comparisons with recent related methods for yeast cells show that PombeX outperforms current methods, both in terms of segmentation accuracy and computational speed.

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Implied distributions in multiple change point problems

2011

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ABSTRACT. A method for efficiently calculating exact marginal, conditional and joint distributions for change points defined by general finite state Hidden Markov Models is proposed.The distributions are not subject to any approximation or sampling error once parameters of the model have been estimated. It is shown that, in contrast to sampling methods, very little computation is needed. The method provides probabilities associated with change points within an interval, as well as at specific points.

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Dynamic Positron Emission Tomography Data-Driven Analysis Using Sparse Bayesian Learning

Peng¹,

Aston²,

Gunn³

et al. 2008

IEEE Trans. Med. Imaging

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Abstract-A method is presented for the analysis of dynamic positron emission tomography (PET) data using sparse Bayesian learning. Parameters are estimated in a compartmental framework using an over-complete exponential basis set and sparse Bayesian learning. The technique is applicable to analyses requiring either a plasma or reference tissue input function and produces estimates of the system's macro-parameters and model order. In addition, the Bayesian approach returns the posterior distribution which allows for some characterisation of the error component. The method is applied to the estimation of parametric images of neuroreceptor radioligand studies.

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Adaptive Image Enhancement for Fluorescence Microscopy

Peng

Lin

Hsu³

2010

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Robust cell segmentation for schizosaccharomyces pombe images with focus gradient

Peng¹,

Chen

Green

et al. 2013

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Jyh-Ying Peng

PombeX: Robust Cell Segmentation for Fission Yeast Transillumination Images

Implied distributions in multiple change point problems

Dynamic Positron Emission Tomography Data-Driven Analysis Using Sparse Bayesian Learning

Adaptive Image Enhancement for Fluorescence Microscopy

Robust cell segmentation for schizosaccharomyces pombe images with focus gradient

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