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5,427 results on '"ZHANG, HONGYAN"'

1. Efficient One-Step Diffusion Refinement for Snapshot Compressive Imaging

Author

Wang, Yunzhen, Zeng, Haijin, Huang, Shaoguang, Chen, Hongyu, and Zhang, Hongyan

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Coded Aperture Snapshot Spectral Imaging (CASSI) is a crucial technique for capturing three-dimensional multispectral images (MSIs) through the complex inverse task of reconstructing these images from coded two-dimensional measurements. Current state-of-the-art methods, predominantly end-to-end, face limitations in reconstructing high-frequency details and often rely on constrained datasets like KAIST and CAVE, resulting in models with poor generalizability. In response to these challenges, this paper introduces a novel one-step Diffusion Probabilistic Model within a self-supervised adaptation framework for Snapshot Compressive Imaging (SCI). Our approach leverages a pretrained SCI reconstruction network to generate initial predictions from two-dimensional measurements. Subsequently, a one-step diffusion model produces high-frequency residuals to enhance these initial predictions. Additionally, acknowledging the high costs associated with collecting MSIs, we develop a self-supervised paradigm based on the Equivariant Imaging (EI) framework. Experimental results validate the superiority of our model compared to previous methods, showcasing its simplicity and adaptability to various end-to-end or unfolding techniques.

Published
2024

2. Identifying every building's function in large-scale urban areas with multi-modality remote-sensing data

Author

Li, Zhuohong, He, Wei, Li, Jiepan, and Zhang, Hongyan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Buildings, as fundamental man-made structures in urban environments, serve as crucial indicators for understanding various city function zones. Rapid urbanization has raised an urgent need for efficiently surveying building footprints and functions. In this study, we proposed a semi-supervised framework to identify every building's function in large-scale urban areas with multi-modality remote-sensing data. In detail, optical images, building height, and nighttime-light data are collected to describe the morphological attributes of buildings. Then, the area of interest (AOI) and building masks from the volunteered geographic information (VGI) data are collected to form sparsely labeled samples. Furthermore, the multi-modality data and weak labels are utilized to train a segmentation model with a semi-supervised strategy. Finally, results are evaluated by 20,000 validation points and statistical survey reports from the government. The evaluations reveal that the produced function maps achieve an OA of 82% and Kappa of 71% among 1,616,796 buildings in Shanghai, China. This study has the potential to support large-scale urban management and sustainable urban development. All collected data and produced maps are open access at https://github.com/LiZhuoHong/BuildingMap., Comment: 5 pages, 7 figures, accepted by IGARSS 2024

Published
2024

3. Generalized Few-Shot Meets Remote Sensing: Discovering Novel Classes in Land Cover Mapping via Hybrid Semantic Segmentation Framework

Author

Li, Zhuohong, Lu, Fangxiao, Zou, Jiaqi, Hu, Lei, and Zhang, Hongyan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Land-cover mapping is one of the vital applications in Earth observation, aiming at classifying each pixel's land-cover type of remote-sensing images. As natural and human activities change the landscape, the land-cover map needs to be rapidly updated. However, discovering newly appeared land-cover types in existing classification systems is still a non-trivial task hindered by various scales of complex land objects and insufficient labeled data over a wide-span geographic area. In this paper, we propose a generalized few-shot segmentation-based framework, named SegLand, to update novel classes in high-resolution land-cover mapping. Specifically, the proposed framework is designed in three parts: (a) Data pre-processing: the base training set and the few-shot support sets of novel classes are analyzed and augmented; (b) Hybrid segmentation structure; Multiple base learners and a modified Projection onto Orthogonal Prototypes (POP) network are combined to enhance the base-class recognition and to dig novel classes from insufficient labels data; (c) Ultimate fusion: the semantic segmentation results of the base learners and POP network are reasonably fused. The proposed framework has won first place in the leaderboard of the OpenEarthMap Land Cover Mapping Few-Shot Challenge. Experiments demonstrate the superiority of the framework for automatically updating novel land-cover classes with limited labeled data., Comment: 11 pages, 11 figures, accepted by CVPR 2024 L3D-IVU Workshop

Published
2024

4. Learning without Exact Guidance: Updating Large-scale High-resolution Land Cover Maps from Low-resolution Historical Labels

Author

Li, Zhuohong, He, Wei, Li, Jiepan, Lu, Fangxiao, and Zhang, Hongyan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Large-scale high-resolution (HR) land-cover mapping is a vital task to survey the Earth's surface and resolve many challenges facing humanity. However, it is still a non-trivial task hindered by complex ground details, various landforms, and the scarcity of accurate training labels over a wide-span geographic area. In this paper, we propose an efficient, weakly supervised framework (Paraformer) to guide large-scale HR land-cover mapping with easy-access historical land-cover data of low resolution (LR). Specifically, existing land-cover mapping approaches reveal the dominance of CNNs in preserving local ground details but still suffer from insufficient global modeling in various landforms. Therefore, we design a parallel CNN-Transformer feature extractor in Paraformer, consisting of a downsampling-free CNN branch and a Transformer branch, to jointly capture local and global contextual information. Besides, facing the spatial mismatch of training data, a pseudo-label-assisted training (PLAT) module is adopted to reasonably refine LR labels for weakly supervised semantic segmentation of HR images. Experiments on two large-scale datasets demonstrate the superiority of Paraformer over other state-of-the-art methods for automatically updating HR land-cover maps from LR historical labels., Comment: 11 pages, 9 figures, accepted by CVPR 2024

Published
2024

12. Cross-level Attention with Overlapped Windows for Camouflaged Object Detection

Author

Li, Jiepan, Lu, Fangxiao, Xue, Nan, Li, Zhuohong, Zhang, Hongyan, and He, Wei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Camouflaged objects adaptively fit their color and texture with the environment, which makes them indistinguishable from the surroundings. Current methods revealed that high-level semantic features can highlight the differences between camouflaged objects and the backgrounds. Consequently, they integrate high-level semantic features with low-level detailed features for accurate camouflaged object detection (COD). Unlike previous designs for multi-level feature fusion, we state that enhancing low-level features is more impending for COD. In this paper, we propose an overlapped window cross-level attention (OWinCA) to achieve the low-level feature enhancement guided by the highest-level features. By sliding an aligned window pair on both the highest- and low-level feature maps, the high-level semantics are explicitly integrated into the low-level details via cross-level attention. Additionally, it employs an overlapped window partition strategy to alleviate the incoherence among windows, which prevents the loss of global information. These adoptions enable the proposed OWinCA to enhance low-level features by promoting the separability of camouflaged objects. The associated proposed OWinCANet fuses these enhanced multi-level features by simple convolution operation to achieve the final COD. Experiments conducted on three large-scale COD datasets demonstrate that our OWinCANet significantly surpasses the current state-of-the-art COD methods., Comment: I am withdrawing this submission as I have developed a significantly expanded and improved version of this work. The new research incorporates substantial advancements, which extend beyond the scope of the original paper. To avoid redundancy and ensure the highest quality of contribution, I will submit the enhanced version in a future manuscript.

Published
2023

13. Alleviating Effect of Akkermansia muciniphila ONE on Hypercholesterolemia in Mice

Author

LI Yue, ZHANG Hongyan, MA Xin, YU Xueping, REN Dayong

Subjects
akkermansia muciniphila one, hypercholesterolemia, intestinal flora, short-chain fatty acid, bile acid, Food processing and manufacture, TP368-456
Abstract

The purpose of this study was to investigate the alleviating effect of Akkermansia muciniphila ONE (AKK ONE) on high-cholesterol diet-induced hypercholesterolemia in mice. Four-week gavage of AKK ONE was found to improve blood lipid levels in hypercholesterolemic mice. Specifically, it significantly reduced the contents of total cholesterol (TC) and low-density lipoprotein cholesterol (LDL-C) in serum and liver, increased the content of high-density lipoprotein cholesterol (HDL-C), alleviated liver damage, reduced the levels of serum alanine aminotransferase (ALT), aspartate aminotransferase (AST) and total bile acid (TBA), and improved fasting blood glucose levels and glucose tolerance. Further analysis of intestinal flora and metabolites showed that AKK ONE significantly increased the abundance of Faecalibaculum, Oscillospira, Bacteroides and Akkermansia in the intestine of mice, increased the contents of short-chain fatty acids (SCFAs) including acetic acid, isobutyric acid and valeric acid, and regulated the composition of intestinal bile acids (BAs) especially secondary BAs. In summary, AKK ONE improved high cholesterol diet-induced hypercholesterolemia by regulating the abundance of intestinal flora, especially increasing the abundance of SCFAs-producing bacteria, thereby increasing the contents of fecal SCFAs and enhancing the transformation of cholesterol into BAs. This study provides a new insight into the relationship between next-generation probiotics and intestinal flora and metabolites, which will serve as the basis for the potential application of AKK ONE in alleviating hypercholesterolemia.

Published
2024
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14. Building Extraction from Remote Sensing Images via an Uncertainty-Aware Network

Author

He, Wei, Li, Jiepan, Cao, Weinan, Zhang, Liangpei, and Zhang, Hongyan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Building extraction aims to segment building pixels from remote sensing images and plays an essential role in many applications, such as city planning and urban dynamic monitoring. Over the past few years, deep learning methods with encoder-decoder architectures have achieved remarkable performance due to their powerful feature representation capability. Nevertheless, due to the varying scales and styles of buildings, conventional deep learning models always suffer from uncertain predictions and cannot accurately distinguish the complete footprints of the building from the complex distribution of ground objects, leading to a large degree of omission and commission. In this paper, we realize the importance of uncertain prediction and propose a novel and straightforward Uncertainty-Aware Network (UANet) to alleviate this problem. To verify the performance of our proposed UANet, we conduct extensive experiments on three public building datasets, including the WHU building dataset, the Massachusetts building dataset, and the Inria aerial image dataset. Results demonstrate that the proposed UANet outperforms other state-of-the-art algorithms by a large margin.

Published
2023

26. Degradation-Noise-Aware Deep Unfolding Transformer for Hyperspectral Image Denoising

Author

Zeng, Haijin, Cao, Jiezhang, Feng, Kai, Huang, Shaoguang, Zhang, Hongyan, Luong, Hiep, and Philips, Wilfried

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Hyperspectral imaging (HI) has emerged as a powerful tool in diverse fields such as medical diagnosis, industrial inspection, and agriculture, owing to its ability to detect subtle differences in physical properties through high spectral resolution. However, hyperspectral images (HSIs) are often quite noisy because of narrow band spectral filtering. To reduce the noise in HSI data cubes, both model-driven and learning-based denoising algorithms have been proposed. However, model-based approaches rely on hand-crafted priors and hyperparameters, while learning-based methods are incapable of estimating the inherent degradation patterns and noise distributions in the imaging procedure, which could inform supervised learning. Secondly, learning-based algorithms predominantly rely on CNN and fail to capture long-range dependencies, resulting in limited interpretability. This paper proposes a Degradation-Noise-Aware Unfolding Network (DNA-Net) that addresses these issues. Firstly, DNA-Net models sparse noise, Gaussian noise, and explicitly represent image prior using transformer. Then the model is unfolded into an end-to-end network, the hyperparameters within the model are estimated from the noisy HSI and degradation model and utilizes them to control each iteration. Additionally, we introduce a novel U-Shaped Local-Non-local-Spectral Transformer (U-LNSA) that captures spectral correlation, local contents, and non-local dependencies simultaneously. By integrating U-LNSA into DNA-Net, we present the first Transformer-based deep unfolding HSI denoising method. Experimental results show that DNA-Net outperforms state-of-the-art methods, and the modeling of noise distributions helps in cases with heavy noise.

Published
2023

27. MSFA-Frequency-Aware Transformer for Hyperspectral Images Demosaicing

Author

Zeng, Haijin, Feng, Kai, Huang, Shaoguang, Cao, Jiezhang, Chen, Yongyong, Zhang, Hongyan, Luong, Hiep, and Philips, Wilfried

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Hyperspectral imaging systems that use multispectral filter arrays (MSFA) capture only one spectral component in each pixel. Hyperspectral demosaicing is used to recover the non-measured components. While deep learning methods have shown promise in this area, they still suffer from several challenges, including limited modeling of non-local dependencies, lack of consideration of the periodic MSFA pattern that could be linked to periodic artifacts, and difficulty in recovering high-frequency details. To address these challenges, this paper proposes a novel de-mosaicing framework, the MSFA-frequency-aware Transformer network (FDM-Net). FDM-Net integrates a novel MSFA-frequency-aware multi-head self-attention mechanism (MaFormer) and a filter-based Fourier zero-padding method to reconstruct high pass components with greater difficulty and low pass components with relative ease, separately. The advantage of Maformer is that it can leverage the MSFA information and non-local dependencies present in the data. Additionally, we introduce a joint spatial and frequency loss to transfer MSFA information and enhance training on frequency components that are hard to recover. Our experimental results demonstrate that FDM-Net outperforms state-of-the-art methods with 6dB PSNR, and reconstructs high-fidelity details successfully.

Published
2023

28. National-scale 1-m resolution land-cover mapping for the entire China based on a low-cost solution and open-access data

Author

Li, Zhuohong, He, Wei, and Zhang, Hongyan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Nowadays, many large-scale land-cover (LC) products have been released, however, current LC products for China either lack a fine resolution or nationwide coverage. With the rapid urbanization of China, there is an urgent need for creating a very-high-resolution (VHR) national-scale LC map for China. In this study, a novel 1-m resolution LC map of China covering $9,600,000 km^2$, called SinoLC-1, was produced by using a deep learning framework and multi-source open-access data. To efficiently generate the VHR national-scale LC map, firstly, the reliable LC labels were collected from three 10-m LC products and Open Street Map data. Secondly, the collected 10-m labels and 1-m Google Earth imagery were utilized in the proposed low-to-high (L2H) framework for training. With weak and self-supervised strategies, the L2H framework resolves the label noise brought by the mismatched resolution between training pairs and produces VHR results. Lastly, we compare the SinoLC-1 with five widely used products and validate it with a sample set including 10,6852 points and a statistical report collected from the government. The results show the SinoLC-1 achieved an OA of 74\% and a Kappa of 0.65. Moreover, as the first 1-m national-scale LC map for China, the SinoLC-1 shows overall acceptable results with the finest landscape details., Comment: 4 pages, 3 figures, conference paper

Published
2023

31. Towards Complex Backgrounds: A Unified Difference-Aware Decoder for Binary Segmentation

Author

Li, Jiepan, He, Wei, and Zhang, Hongyan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Binary segmentation is used to distinguish objects of interest from background, and is an active area of convolutional encoder-decoder network research. The current decoders are designed for specific objects based on the common backbones as the encoders, but cannot deal with complex backgrounds. Inspired by the way human eyes detect objects of interest, a new unified dual-branch decoder paradigm named the difference-aware decoder is proposed in this paper to explore the difference between the foreground and the background and separate the objects of interest in optical images. The difference-aware decoder imitates the human eye in three stages using the multi-level features output by the encoder. In Stage A, the first branch decoder of the difference-aware decoder is used to obtain a guide map. The highest-level features are enhanced with a novel field expansion module and a dual residual attention module, and are combined with the lowest-level features to obtain the guide map. In Stage B, the other branch decoder adopts a middle feature fusion module to make trade-offs between textural details and semantic information and generate background-aware features. In Stage C, the proposed difference-aware extractor, consisting of a difference guidance model and a difference enhancement module, fuses the guide map from Stage A and the background-aware features from Stage B, to enlarge the differences between the foreground and the background and output a final detection result. The results demonstrate that the difference-aware decoder can achieve a higher accuracy than the other state-of-the-art binary segmentation methods for these tasks.

Published
2022

43. Multidisciplinary team quality improves the survival outcomes of locally advanced rectal cancer patients: A post hoc analysis of the STELLAR trial

Author

Ma, Huiying, Li, Haoyue, Xu, Tongzhen, Gao, Yuanhong, Liu, Shixin, Wang, Wenling, Wei, Lichun, Wang, Xishan, Jiang, Liming, Chi, Yihebali, Shi, Jinming, Shuai, Jiacheng, Zou, Shuangmei, Cai, Yong, Zhu, Yuan, Cheng, Guanghui, Zhang, Hongyan, Wang, Xin, Zhu, Suyu, Wang, Jun, Li, Gaofeng, Yang, Jialin, Zhang, Kuan, Lu, Ningning, Fang, Hui, Wang, Shulian, Li, Yexiong, Zhou, Haitao, Tang, Yuan, and Jin, Jing

Published
2024
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