Segmentation of Cervical Cell Images Based on Generative Adversarial Networks

Huang, Jinjie; Yang, Guihua; Li, Biao; He, Yongjun; Liang, Yani

doi:10.1109/access.2021.3104609

Cited by 17 publications

(5 citation statements)

References 45 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Li et al [ 43 ] introduced a faster RCNN to identify and classify abnormal cells in cervical smear images scanned at 20 x. In [ 44 ], the authors presented a generative adversarial network (GAN) to successfully segment both overlapping and single-cell images. The proposed GAN used structural information of the whole Image and the probability distribution of morphology of the cell for segmentation.…”

Section: Related Workmentioning

confidence: 99%

Cervical cell’s nucleus segmentation through an improved UNet architecture

Rasheed,

Shirazi,

Umar

et al. 2023

PLoS ONE

View full text Add to dashboard Cite

Precise segmentation of the nucleus is vital for computer-aided diagnosis (CAD) in cervical cytology. Automated delineation of the cervical nucleus has notorious challenges due to clumped cells, color variation, noise, and fuzzy boundaries. Due to its standout performance in medical image analysis, deep learning has gained attention from other techniques. We have proposed a deep learning model, namely C-UNet (Cervical-UNet), to segment cervical nuclei from overlapped, fuzzy, and blurred cervical cell smear images. Cross-scale features integration based on a bi-directional feature pyramid network (BiFPN) and wide context unit are used in the encoder of classic UNet architecture to learn spatial and local features. The decoder of the improved network has two inter-connected decoders that mutually optimize and integrate these features to produce segmentation masks. Each component of the proposed C-UNet is extensively evaluated to judge its effectiveness on a complex cervical cell dataset. Different data augmentation techniques were employed to enhance the proposed model’s training. Experimental results have shown that the proposed model outperformed extant models, i.e., CGAN (Conditional Generative Adversarial Network), DeepLabv3, Mask-RCNN (Region-Based Convolutional Neural Network), and FCN (Fully Connected Network), on the employed dataset used in this study and ISBI-2014 (International Symposium on Biomedical Imaging 2014), ISBI-2015 datasets. The C-UNet achieved an object-level accuracy of 93%, pixel-level accuracy of 92.56%, object-level recall of 95.32%, pixel-level recall of 92.27%, Dice coefficient of 93.12%, and F1-score of 94.96% on complex cervical images dataset.

show abstract

Section: Related Workmentioning

confidence: 99%

Cervical cell’s nucleus segmentation through an improved UNet architecture

Rasheed,

Shirazi,

Umar

et al. 2023

PLoS ONE

View full text Add to dashboard Cite

show abstract

“…For improving the signal-to-noise ratio of the image and also retaining edge detail information, another denoise study proposed with wavelet transform before edge detection [23]. Huang et al propose a segmentation method based on confrontation generation network to simultaneously solve the problems of poor contrast, irregularity and overlap of cell object [24]. This method learns the probability distribution image of cell morphology and annotated single cell image by comparing the differences between the generated single cells.…”

Section: Related Workmentioning

confidence: 99%

Mask Guidance Pyramid Network for Overlapping Cervical Cell Edge Detection

et al. 2023

View full text Add to dashboard Cite

An important indicator of cervical cancer diagnosis is to calculate the proportion of diseased cells and cancer cells, so it is necessary to segment cells and judge the cell status. The existing methods are difficult to deal with the segmentation of overlapping cells. In order to solve this problem, we put forward such a hypothesis by reading a large number of literature, that is, image segmentation and edge measurement tasks have unity in high-level features. To prove this hypothesis, in this paper, we focus on the complementary between overlapping cervical cell edge information and cell object information to get higher accuracy cell edge detection results. Specifically, we present a joint multi-task learning framework for overlapping cell edge detection by the mask guidance pyramid network. The main component of the framework is the Mask Guidance Module (MGM), which integrates two tasks and stores the shared latent semantics to interact in the two tasks. For semantic edge detection, we propose the novel Refinement Aggregated Module (RAM) fusion to promote semantic edges. Finally, to improve the edge pixel accuracy, the edge consistency constraint loss function is introduced to our model training. Our extensive experiments have proved that our method outperforms other edge detection efforts.

show abstract

“…Huang et al [33] develop a generative adversarial network called Cell-GAN for cervical cell segmentation. Firstly, Cell-GAN is trained to get a probability distribution of cell morphology, then a single cell image is generated for each cell.…”

Section: Related Workmentioning

confidence: 99%

A Deep Neural Network for Cervical Cell Classification Based on Cytology Images

et al. 2022

View full text Add to dashboard Cite

Cervical cancer is one of the most common cancers among women. Fortunately, cervical cancer is treatable if it is diagnosed timely and administered appropriately. The death rate of cervical cancer has been greatly reduced since Pap smear test was applied. However, Pap smear test is a time-consuming and error-prone process. Moreover, classifying cervical cells into different categories is clinically meaningful but also challenging in the field of cervical cancer detection. To address these concerns, computer-aided diagnosis systems with deep learning need to be designed to automatically analyze cervical cytology images. In this study, we construct a deep convolutional neural network with feature representations learned via multiple kernels with different sizes to automatically classify cervical cytology images, named DeepCELL. Firstly, we design three different basic modules of DeepCELL to capture feature information via multiple kernels with different sizes. Then, we stack several such basic modules to form the cervical cell classification model. Finally, we perform a series of experiments to evaluate the proposed method on two cervical cytology datasets: Herlev and SIPaKMeD. Our method achieves the accuracy of 95.628%, precision of 95.685%, recall of 95.647% and F-score of 95.636% on SIPaKMeD dataset, which are the highest among all competing methods. Similarly, our method also achieves satisfactory result on Herlev dataset. In summary, extensive experimental results demonstrate that our proposed method has a promising performance in cervical cell image classification.INDEX TERMS Cell image classification, cervical cell detection, deep learning, neural networks.

show abstract

Segmentation of Cervical Cell Images Based on Generative Adversarial Networks

Cited by 17 publications

References 45 publications

Cervical cell’s nucleus segmentation through an improved UNet architecture

Cervical cell’s nucleus segmentation through an improved UNet architecture

Mask Guidance Pyramid Network for Overlapping Cervical Cell Edge Detection

A Deep Neural Network for Cervical Cell Classification Based on Cytology Images

Contact Info

Product

Resources

About