Yuguang Yan scite author profile

Learning structural information is critical for producing an ideal result in retinal image segmentation. Recently, convolutional neural networks have shown a powerful ability to extract effective representations. However, convolutional and pooling operations filter out some useful structural information. In this paper, we propose an Attention Guided Network (AG-Net) to preserve the structural information and guide the expanding operation. In our AG-Net, the guided filter is exploited as a structure sensitive expanding path to transfer structural information from previous feature maps, and an attention block is introduced to exclude the noise and reduce the negative influence of background further. The extensive experiments on two retinal image segmentation tasks (i.e., blood vessel segmentation, optic disc and cup segmentation) demonstrate the effectiveness of our proposed method.This work was done when S. Zhang is intern at CVTE Research. M. Tan (mingkui-tan@scut.edu.cn) and Y. Xu (ywxu@ieee.org) are the corresponding authors.

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Semi-Supervised Optimal Transport for Heterogeneous Domain Adaptation

Yan

Wen

et al. 2018

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Heterogeneous domain adaptation (HDA) aims to exploit knowledge from a heterogeneous source domain to improve the learning performance in a target domain. Since the feature spaces of the source and target domains are different, the transferring of knowledge is extremely difficult. In this paper, we propose a novel semi-supervised algorithm for HDA by exploiting the theory of optimal transport (OT), a powerful tool originally designed for aligning two different distributions. To match the samples between heterogeneous domains, we propose to preserve the semantic consistency between heterogeneous domains by incorporating label information into the entropic Gromov-Wasserstein discrepancy, which is a metric in OT for different metric spaces, resulting in a new semi-supervised scheme. Via the new scheme, the target and transported source samples with the same label are enforced to follow similar distributions. Lastly, based on the Kullback-Leibler metric, we develop an efficient algorithm to optimize the resultant problem. Comprehensive experiments on both synthetic and real-world datasets demonstrate the effectiveness of our proposed method.

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Online Transfer Learning with Multiple Homogeneous or Heterogeneous Sources

Zhou

et al. 2017

IEEE Trans. Knowl. Data Eng.

105

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Online transfer learning by leveraging multiple source domains

Zhou

Yan

et al. 2017

Knowl Inf Syst

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Online Heterogeneous Transfer by Hedge Ensemble of Offline and Online Decisions

Yan

Tan

et al. 2017

IEEE Trans. Neural Netw. Learning Syst.

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In this paper, we study the online heterogeneous transfer (OHT) learning problem, where the target data of interest arrive in an online manner, while the source data and auxiliary co-occurrence data are from offline sources and can be easily annotated. OHT is very challenging, since the feature spaces of the source and target domains are different. To address this, we propose a novel technique called OHT by hedge ensemble by exploiting both offline knowledge and online knowledge of different domains. To this end, we build an offline decision function based on a heterogeneous similarity that is constructed using labeled source data and unlabeled auxiliary co-occurrence data. After that, an online decision function is learned from the target data. Last, we employ a hedge weighting strategy to combine the offline and online decision functions to exploit knowledge from the source and target domains of different feature spaces. We also provide a theoretical analysis regarding the mistake bounds of the proposed approach. Comprehensive experiments on three real-world data sets demonstrate the effectiveness of the proposed technique.

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Yuguang Yan

Attention Guided Network for Retinal Image Segmentation

Semi-Supervised Optimal Transport for Heterogeneous Domain Adaptation

Online Transfer Learning with Multiple Homogeneous or Heterogeneous Sources

Online transfer learning by leveraging multiple source domains

Online Heterogeneous Transfer by Hedge Ensemble of Offline and Online Decisions

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