We present Gaussian mixture and Markov modelling methods for the computerized classification of cell nuclei in different mitotic phases. The methods were tested with the data set containing 379519 cells in 892 cell sequences for 5 phases extracted from real image sequences recorded at every fifteen minutes with a time-lapse fluorescence microscopy. The experimental results have shown that the proposed methods are effective and have potential for higher performance with better cellular feature extraction strategy
In this report, we present implementation and validation of machine-learning classifiers for disting...
Bioimaging at molecular and cellular levels requires specific image analysis methods to help life sc...
The life cell microscopic imaging is a standard approach for studying of cancer cell morphology and ...
Studies of drug effects on cancer cells are performed through measuring cell cycle progression such ...
This paper proposes a classification method of cell nuclei in different mitotic phases using a combi...
Fuzzy Gaussian mixture modeling method is proposed in this paper for the computerized classification...
Advances in fluorescent probing and microscopic imaging technology provide important tools for biolo...
Studies of drug effects on cancer cells are performed through measuring cell cycle progression such ...
Advances in fluorescent probing and microscopic imaging\ud technology provide important tools for bi...
Advances in fluorescent probing and microscopic imaging technology provide important tools for biome...
Computerized high-throughput screening of cells using fluorescent microscopic imaging technology wil...
With the widespread use of time-lapse data to understand cellular function, there is a need for tool...
Cellular imaging is an exciting area of research in computational life sciences, which provides an e...
The lacking of automatic screen systems that can deal with large volume of time-lapse optical micros...
The lacking of automatic screen systems that can deal with large volume of time-lapse optical micros...
In this report, we present implementation and validation of machine-learning classifiers for disting...
Bioimaging at molecular and cellular levels requires specific image analysis methods to help life sc...
The life cell microscopic imaging is a standard approach for studying of cancer cell morphology and ...
Studies of drug effects on cancer cells are performed through measuring cell cycle progression such ...
This paper proposes a classification method of cell nuclei in different mitotic phases using a combi...
Fuzzy Gaussian mixture modeling method is proposed in this paper for the computerized classification...
Advances in fluorescent probing and microscopic imaging technology provide important tools for biolo...
Studies of drug effects on cancer cells are performed through measuring cell cycle progression such ...
Advances in fluorescent probing and microscopic imaging\ud technology provide important tools for bi...
Advances in fluorescent probing and microscopic imaging technology provide important tools for biome...
Computerized high-throughput screening of cells using fluorescent microscopic imaging technology wil...
With the widespread use of time-lapse data to understand cellular function, there is a need for tool...
Cellular imaging is an exciting area of research in computational life sciences, which provides an e...
The lacking of automatic screen systems that can deal with large volume of time-lapse optical micros...
The lacking of automatic screen systems that can deal with large volume of time-lapse optical micros...
In this report, we present implementation and validation of machine-learning classifiers for disting...
Bioimaging at molecular and cellular levels requires specific image analysis methods to help life sc...
The life cell microscopic imaging is a standard approach for studying of cancer cell morphology and ...