Zhiming Cheng scite author profile

Zhiming Cheng

4Publications

19Citation Statements Received

62Citation Statements Given

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150

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Hangzhou Dianzi University, University of South China

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Contour-aware semantic segmentation network with spatial attention mechanism for medical image

Cheng

2021

Vis Comput

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Medical image segmentation is a critical and important step for developing computer-aided system in clinical situations. It remains a complicated and challenging task due to the large variety of imaging modalities and different cases. Recently, Unet has become one of the most popular deep learning frameworks because of its accurate performance in biomedical image segmentation. In this paper, we propose a contour-aware semantic segmentation network, which is an extension of Unet, for medical image segmentation. The proposed method includes a semantic branch and a detail branch. The semantic branch focuses on extracting the semantic features from shallow and deep layers; the detail branch is used to enhance the contour information implied in the shallow layers. In order to improve the representation capability of the network, a MulBlock module is designed to extract semantic information with different receptive fields. Spatial attention module (CAM) is used to adaptively suppress the redundant features. In comparison with the state-of-the-art methods, our method achieves a remarkable performance on several public medical image segmentation challenges.

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A Fast and Accurate Algorithm for Nuclei Instance Segmentation in Microscopy Images

Cheng

2020

IEEE Access

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Nuclei instance segmentation within microscopy images is a fundamental task in the pathology work-flow, based on that the meaningful nuclear features can be extracted and multiple biological related analysis can be performed. However, this task is still challenging because of the large variability among different types of nuclei. Although deep learning(DL) based methods have achieved state-of-the-art results in nuclei instance segmentation tasks, these methods are usually focus on improving the accuracy and require support of powerful computing resources. In this paper, we joint the detection and segmentation simultaneously, and propose a fast and accurate box-based nuclei instance segmentation method. Mainly, we employ a fusion module based on the feature pyramid network(FPN) to combine the complementary information of the shallow layers with deep layers for detection the nuclear location by bounding boxes. Subsequently, we crop the feature maps according to the bounding boxes and feed the cropped patches into an U-net architecture as a guide to separate clustered nuclei. The experiments show that the proposed approach outperforms prior state-of-the-art methods, not only on accuracy but also on speed. The source code will be released at: https://github.com/QUAPNH/Nucleiseg.

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A region-based convolutional network for nuclei detection and segmentation in microscopy images

Liang

Cheng

Zhong

et al. 2022

Biomedical Signal Processing and Control

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An Integration Convolutional Neural Network for Nuclei Instance Segmentation

Cheng

et al. 2020

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Zhiming Cheng

Contour-aware semantic segmentation network with spatial attention mechanism for medical image

A Fast and Accurate Algorithm for Nuclei Instance Segmentation in Microscopy Images

A region-based convolutional network for nuclei detection and segmentation in microscopy images

An Integration Convolutional Neural Network for Nuclei Instance Segmentation

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