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1. AgMTR: Agent Mining Transformer for Few-shot Segmentation in Remote Sensing

Author

Bi, Hanbo, Feng, Yingchao, Mao, Yongqiang, Pei, Jianning, Diao, Wenhui, Wang, Hongqi, and Sun, Xian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Few-shot Segmentation (FSS) aims to segment the interested objects in the query image with just a handful of labeled samples (i.e., support images). Previous schemes would leverage the similarity between support-query pixel pairs to construct the pixel-level semantic correlation. However, in remote sensing scenarios with extreme intra-class variations and cluttered backgrounds, such pixel-level correlations may produce tremendous mismatches, resulting in semantic ambiguity between the query foreground (FG) and background (BG) pixels. To tackle this problem, we propose a novel Agent Mining Transformer (AgMTR), which adaptively mines a set of local-aware agents to construct agent-level semantic correlation. Compared with pixel-level semantics, the given agents are equipped with local-contextual information and possess a broader receptive field. At this point, different query pixels can selectively aggregate the fine-grained local semantics of different agents, thereby enhancing the semantic clarity between query FG and BG pixels. Concretely, the Agent Learning Encoder (ALE) is first proposed to erect the optimal transport plan that arranges different agents to aggregate support semantics under different local regions. Then, for further optimizing the agents, the Agent Aggregation Decoder (AAD) and the Semantic Alignment Decoder (SAD) are constructed to break through the limited support set for mining valuable class-specific semantics from unlabeled data sources and the query image itself, respectively. Extensive experiments on the remote sensing benchmark iSAID indicate that the proposed method achieves state-of-the-art performance. Surprisingly, our method remains quite competitive when extended to more common natural scenarios, i.e., PASCAL-5i and COCO-20i., Comment: accepted to IJCV

Published
2024

2. RingMo-Aerial: An Aerial Remote Sensing Foundation Model With A Affine Transformation Contrastive Learning

Author

Diao, Wenhui, Yu, Haichen, Kang, Kaiyue, Ling, Tong, Liu, Di, Feng, Yingchao, Bi, Hanbo, Ren, Libo, Li, Xuexue, Mao, Yongqiang, and Sun, Xian

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

Aerial Remote Sensing (ARS) vision tasks pose significant challenges due to the unique characteristics of their viewing angles. Existing research has primarily focused on algorithms for specific tasks, which have limited applicability in a broad range of ARS vision applications. This paper proposes the RingMo-Aerial model, aiming to fill the gap in foundation model research in the field of ARS vision. By introducing the Frequency-Enhanced Multi-Head Self-Attention (FE-MSA) mechanism and an affine transformation-based contrastive learning pre-training method, the model's detection capability for small targets is enhanced and optimized for the tilted viewing angles characteristic of ARS. Furthermore, the ARS-Adapter, an efficient parameter fine-tuning method, is proposed to improve the model's adaptability and effectiveness in various ARS vision tasks. Experimental results demonstrate that RingMo-Aerial achieves SOTA performance on multiple downstream tasks. This indicates the practicality and effectiveness of RingMo-Aerial in enhancing the performance of ARS vision tasks.

Published
2024

3. Prompt-and-Transfer: Dynamic Class-aware Enhancement for Few-shot Segmentation

Author

Bi, Hanbo, Feng, Yingchao, Diao, Wenhui, Wang, Peijin, Mao, Yongqiang, Fu, Kun, Wang, Hongqi, and Sun, Xian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

For more efficient generalization to unseen domains (classes), most Few-shot Segmentation (FSS) would directly exploit pre-trained encoders and only fine-tune the decoder, especially in the current era of large models. However, such fixed feature encoders tend to be class-agnostic, inevitably activating objects that are irrelevant to the target class. In contrast, humans can effortlessly focus on specific objects in the line of sight. This paper mimics the visual perception pattern of human beings and proposes a novel and powerful prompt-driven scheme, called ``Prompt and Transfer" (PAT), which constructs a dynamic class-aware prompting paradigm to tune the encoder for focusing on the interested object (target class) in the current task. Three key points are elaborated to enhance the prompting: 1) Cross-modal linguistic information is introduced to initialize prompts for each task. 2) Semantic Prompt Transfer (SPT) that precisely transfers the class-specific semantics within the images to prompts. 3) Part Mask Generator (PMG) that works in conjunction with SPT to adaptively generate different but complementary part prompts for different individuals. Surprisingly, PAT achieves competitive performance on 4 different tasks including standard FSS, Cross-domain FSS (e.g., CV, medical, and remote sensing domains), Weak-label FSS, and Zero-shot Segmentation, setting new state-of-the-arts on 11 benchmarks.

Published
2024

4. Not Just Learning from Others but Relying on Yourself: A New Perspective on Few-Shot Segmentation in Remote Sensing

Author

Bi, Hanbo, Feng, Yingchao, Yan, Zhiyuan, Mao, Yongqiang, Diao, Wenhui, Wang, Hongqi, and Sun, Xian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Few-shot segmentation (FSS) is proposed to segment unknown class targets with just a few annotated samples. Most current FSS methods follow the paradigm of mining the semantics from the support images to guide the query image segmentation. However, such a pattern of `learning from others' struggles to handle the extreme intra-class variation, preventing FSS from being directly generalized to remote sensing scenes. To bridge the gap of intra-class variance, we develop a Dual-Mining network named DMNet for cross-image mining and self-mining, meaning that it no longer focuses solely on support images but pays more attention to the query image itself. Specifically, we propose a Class-public Region Mining (CPRM) module to effectively suppress irrelevant feature pollution by capturing the common semantics between the support-query image pair. The Class-specific Region Mining (CSRM) module is then proposed to continuously mine the class-specific semantics of the query image itself in a `filtering' and `purifying' manner. In addition, to prevent the co-existence of multiple classes in remote sensing scenes from exacerbating the collapse of FSS generalization, we also propose a new Known-class Meta Suppressor (KMS) module to suppress the activation of known-class objects in the sample. Extensive experiments on the iSAID and LoveDA remote sensing datasets have demonstrated that our method sets the state-of-the-art with a minimum number of model parameters. Significantly, our model with the backbone of Resnet-50 achieves the mIoU of 49.58% and 51.34% on iSAID under 1-shot and 5-shot settings, outperforming the state-of-the-art method by 1.8% and 1.12%, respectively. The code is publicly available at https://github.com/HanboBizl/DMNet., Comment: accepted to IEEE TGRS

Published
2023

5. OGMN: Occlusion-guided Multi-task Network for Object Detection in UAV Images

Author

Li, Xuexue, Diao, Wenhui, Mao, Yongqiang, Gao, Peng, Mao, Xiuhua, Li, Xinming, and Sun, Xian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Occlusion between objects is one of the overlooked challenges for object detection in UAV images. Due to the variable altitude and angle of UAVs, occlusion in UAV images happens more frequently than that in natural scenes. Compared to occlusion in natural scene images, occlusion in UAV images happens with feature confusion problem and local aggregation characteristic. And we found that extracting or localizing occlusion between objects is beneficial for the detector to address this challenge. According to this finding, the occlusion localization task is introduced, which together with the object detection task constitutes our occlusion-guided multi-task network (OGMN). The OGMN contains the localization of occlusion and two occlusion-guided multi-task interactions. In detail, an occlusion estimation module (OEM) is proposed to precisely localize occlusion. Then the OGMN utilizes the occlusion localization results to implement occlusion-guided detection with two multi-task interactions. One interaction for the guide is between two task decoders to address the feature confusion problem, and an occlusion decoupling head (ODH) is proposed to replace the general detection head. Another interaction for guide is designed in the detection process according to local aggregation characteristic, and a two-phase progressive refinement process (TPP) is proposed to optimize the detection process. Extensive experiments demonstrate the effectiveness of our OGMN on the Visdrone and UAVDT datasets. In particular, our OGMN achieves 35.0% mAP on the Visdrone dataset and outperforms the baseline by 5.3%. And our OGMN provides a new insight for accurate occlusion localization and achieves competitive detection performance., Comment: 20 pages, 15 figures

Published
2023
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6. SiamTHN: Siamese Target Highlight Network for Visual Tracking

Author

Bao, Jiahao, Chen, Kaiqiang, Sun, Xian, Zhao, Liangjin, Diao, Wenhui, and Yan, Menglong

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

Siamese network based trackers develop rapidly in the field of visual object tracking in recent years. The majority of siamese network based trackers now in use treat each channel in the feature maps generated by the backbone network equally, making the similarity response map sensitive to background influence and hence challenging to focus on the target region. Additionally, there are no structural links between the classification and regression branches in these trackers, and the two branches are optimized separately during training. Therefore, there is a misalignment between the classification and regression branches, which results in less accurate tracking results. In this paper, a Target Highlight Module is proposed to help the generated similarity response maps to be more focused on the target region. To reduce the misalignment and produce more precise tracking results, we propose a corrective loss to train the model. The two branches of the model are jointly tuned with the use of corrective loss to produce more reliable prediction results. Experiments on 5 challenging benchmark datasets reveal that the method outperforms current models in terms of performance, and runs at 38 fps, proving its effectiveness and efficiency.

Published
2023

7. Elevation Estimation-Driven Building 3D Reconstruction from Single-View Remote Sensing Imagery

Author

Mao, Yongqiang, Chen, Kaiqiang, Zhao, Liangjin, Chen, Wei, Tang, Deke, Liu, Wenjie, Wang, Zhirui, Diao, Wenhui, Sun, Xian, and Fu, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Building 3D reconstruction from remote sensing images has a wide range of applications in smart cities, photogrammetry and other fields. Methods for automatic 3D urban building modeling typically employ multi-view images as input to algorithms to recover point clouds and 3D models of buildings. However, such models rely heavily on multi-view images of buildings, which are time-intensive and limit the applicability and practicality of the models. To solve these issues, we focus on designing an efficient DSM estimation-driven reconstruction framework (Building3D), which aims to reconstruct 3D building models from the input single-view remote sensing image. First, we propose a Semantic Flow Field-guided DSM Estimation (SFFDE) network, which utilizes the proposed concept of elevation semantic flow to achieve the registration of local and global features. Specifically, in order to make the network semantics globally aware, we propose an Elevation Semantic Globalization (ESG) module to realize the semantic globalization of instances. Further, in order to alleviate the semantic span of global features and original local features, we propose a Local-to-Global Elevation Semantic Registration (L2G-ESR) module based on elevation semantic flow. Our Building3D is rooted in the SFFDE network for building elevation prediction, synchronized with a building extraction network for building masks, and then sequentially performs point cloud reconstruction, surface reconstruction (or CityGML model reconstruction). On this basis, our Building3D can optionally generate CityGML models or surface mesh models of the buildings. Extensive experiments on ISPRS Vaihingen and DFC2019 datasets on the DSM estimation task show that our SFFDE significantly improves upon state-of-the-arts. Furthermore, our Building3D achieves impressive results in the 3D point cloud and 3D model reconstruction process.

Published
2023
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8. Breaking Immutable: Information-Coupled Prototype Elaboration for Few-Shot Object Detection

Author

Lu, Xiaonan, Diao, Wenhui, Mao, Yongqiang, Li, Junxi, Wang, Peijin, Sun, Xian, and Fu, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Few-shot object detection, expecting detectors to detect novel classes with a few instances, has made conspicuous progress. However, the prototypes extracted by existing meta-learning based methods still suffer from insufficient representative information and lack awareness of query images, which cannot be adaptively tailored to different query images. Firstly, only the support images are involved for extracting prototypes, resulting in scarce perceptual information of query images. Secondly, all pixels of all support images are treated equally when aggregating features into prototype vectors, thus the salient objects are overwhelmed by the cluttered background. In this paper, we propose an Information-Coupled Prototype Elaboration (ICPE) method to generate specific and representative prototypes for each query image. Concretely, a conditional information coupling module is introduced to couple information from the query branch to the support branch, strengthening the query-perceptual information in support features. Besides, we design a prototype dynamic aggregation module that dynamically adjusts intra-image and inter-image aggregation weights to highlight the salient information useful for detecting query images. Experimental results on both Pascal VOC and MS COCO demonstrate that our method achieves state-of-the-art performance in almost all settings., Comment: Accepted by AAAI2023

Published
2022

9. Beyond single receptive field: A receptive field fusion-and-stratification network for airborne laser scanning point cloud classification

Author

Mao, Yongqiang, Chen, Kaiqiang, Diao, Wenhui, Sun, Xian, Lu, Xiaonan, Fu, Kun, and Weinmann, Martin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The classification of airborne laser scanning (ALS) point clouds is a critical task of remote sensing and photogrammetry fields. Although recent deep learning-based methods have achieved satisfactory performance, they have ignored the unicity of the receptive field, which makes the ALS point cloud classification remain challenging for the distinguishment of the areas with complex structures and extreme scale variations. In this article, for the objective of configuring multi-receptive field features, we propose a novel receptive field fusion-and-stratification network (RFFS-Net). With a novel dilated graph convolution (DGConv) and its extension annular dilated convolution (ADConv) as basic building blocks, the receptive field fusion process is implemented with the dilated and annular graph fusion (DAGFusion) module, which obtains multi-receptive field feature representation through capturing dilated and annular graphs with various receptive regions. The stratification of the receptive fields with point sets of different resolutions as the calculation bases is performed with Multi-level Decoders nested in RFFS-Net and driven by the multi-level receptive field aggregation loss (MRFALoss) to drive the network to learn in the direction of the supervision labels with different resolutions. With receptive field fusion-and-stratification, RFFS-Net is more adaptable to the classification of regions with complex structures and extreme scale variations in large-scale ALS point clouds. Evaluated on the ISPRS Vaihingen 3D dataset, our RFFS-Net significantly outperforms the baseline approach by 5.3% on mF1 and 5.4% on mIoU, accomplishing an overall accuracy of 82.1%, an mF1 of 71.6%, and an mIoU of 58.2%. Furthermore, experiments on the LASDU dataset and the 2019 IEEE-GRSS Data Fusion Contest dataset show that RFFS-Net achieves a new state-of-the-art classification performance., Comment: accepted to ISPRS Journal

Published
2022
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10. Semantic Segmentation for Point Cloud Scenes via Dilated Graph Feature Aggregation and Pyramid Decoders

Author

Mao, Yongqiang, Sun, Xian, Chen, Kaiqiang, Diao, Wenhui, Guo, Zonghao, Lu, Xiaonan, and Fu, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Semantic segmentation of point clouds generates comprehensive understanding of scenes through densely predicting the category for each point. Due to the unicity of receptive field, semantic segmentation of point clouds remains challenging for the expression of multi-receptive field features, which brings about the misclassification of instances with similar spatial structures. In this paper, we propose a graph convolutional network DGFA-Net rooted in dilated graph feature aggregation (DGFA), guided by multi-basis aggregation loss (MALoss) calculated through Pyramid Decoders. To configure multi-receptive field features, DGFA which takes the proposed dilated graph convolution (DGConv) as its basic building block, is designed to aggregate multi-scale feature representation by capturing dilated graphs with various receptive regions. By simultaneously considering penalizing the receptive field information with point sets of different resolutions as calculation bases, we introduce Pyramid Decoders driven by MALoss for the diversity of receptive field bases. Combining these two aspects, DGFA-Net significantly improves the segmentation performance of instances with similar spatial structures. Experiments on S3DIS, ShapeNetPart and Toronto-3D show that DGFA-Net outperforms the baseline approach, achieving a new state-of-the-art segmentation performance., Comment: AAAI Workshop 2022

Published
2022

11. Double Similarity Distillation for Semantic Image Segmentation

Author

Feng, Yingchao, Sun, Xian, Diao, Wenhui, Li, Jihao, and Gao, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The balance between high accuracy and high speed has always been a challenging task in semantic image segmentation. Compact segmentation networks are more widely used in the case of limited resources, while their performances are constrained. In this paper, motivated by the residual learning and global aggregation, we propose a simple yet general and effective knowledge distillation framework called double similarity distillation (DSD) to improve the classification accuracy of all existing compact networks by capturing the similarity knowledge in pixel and category dimensions, respectively. Specifically, we propose a pixel-wise similarity distillation (PSD) module that utilizes residual attention maps to capture more detailed spatial dependencies across multiple layers. Compared with exiting methods, the PSD module greatly reduces the amount of calculation and is easy to expand. Furthermore, considering the differences in characteristics between semantic segmentation task and other computer vision tasks, we propose a category-wise similarity distillation (CSD) module, which can help the compact segmentation network strengthen the global category correlation by constructing the correlation matrix. Combining these two modules, DSD framework has no extra parameters and only a minimal increase in FLOPs. Extensive experiments on four challenging datasets, including Cityscapes, CamVid, ADE20K, and Pascal VOC 2012, show that DSD outperforms current state-of-the-art methods, proving its effectiveness and generality. The code and models will be publicly available., Comment: Published in IEEE Transaction on Image Processing (TIP) 2021, Volume: 30

Published
2021
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12. FAIR1M: A Benchmark Dataset for Fine-grained Object Recognition in High-Resolution Remote Sensing Imagery

Author

Sun, Xian, Wang, Peijin, Yan, Zhiyuan, Xu, Feng, Wang, Ruiping, Diao, Wenhui, Chen, Jin, Li, Jihao, Feng, Yingchao, Xu, Tao, Weinmann, Martin, Hinz, Stefan, Wang, Cheng, and Fu, Kun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

With the rapid development of deep learning, many deep learning-based approaches have made great achievements in object detection task. It is generally known that deep learning is a data-driven method. Data directly impact the performance of object detectors to some extent. Although existing datasets have included common objects in remote sensing images, they still have some limitations in terms of scale, categories, and images. Therefore, there is a strong requirement for establishing a large-scale benchmark on object detection in high-resolution remote sensing images. In this paper, we propose a novel benchmark dataset with more than 1 million instances and more than 15,000 images for Fine-grAined object recognItion in high-Resolution remote sensing imagery which is named as FAIR1M. All objects in the FAIR1M dataset are annotated with respect to 5 categories and 37 sub-categories by oriented bounding boxes. Compared with existing detection datasets dedicated to object detection, the FAIR1M dataset has 4 particular characteristics: (1) it is much larger than other existing object detection datasets both in terms of the quantity of instances and the quantity of images, (2) it provides more rich fine-grained category information for objects in remote sensing images, (3) it contains geographic information such as latitude, longitude and resolution, (4) it provides better image quality owing to a careful data cleaning procedure. To establish a baseline for fine-grained object recognition, we propose a novel evaluation method and benchmark fine-grained object detection tasks and a visual classification task using several State-Of-The-Art (SOTA) deep learning-based models on our FAIR1M dataset. Experimental results strongly indicate that the FAIR1M dataset is closer to practical application and it is considerably more challenging than existing datasets., Comment: 19 pages, 13 figures

Published
2021

13. Hybrid Multiple Attention Network for Semantic Segmentation in Aerial Images

Author

Niu, Ruigang, Sun, Xian, Tian, Yu, Diao, Wenhui, Chen, Kaiqiang, and Fu, Kun

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

Semantic segmentation in very high resolution (VHR) aerial images is one of the most challenging tasks in remote sensing image understanding. Most of the current approaches are based on deep convolutional neural networks (DCNNs). However, standard convolution with local receptive fields fails in modeling global dependencies. Prior researches have indicated that attention-based methods can capture long-range dependencies and further reconstruct the feature maps for better representation. Nevertheless, limited by the mere perspective of spacial and channel attention and huge computation complexity of self-attention mechanism, it is unlikely to model the effective semantic interdependencies between each pixel-pair of remote sensing data of complex spectra. In this work, we propose a novel attention-based framework named Hybrid Multiple Attention Network (HMANet) to adaptively capture global correlations from the perspective of space, channel and category in a more effective and efficient manner. Concretely, a class augmented attention (CAA) module embedded with a class channel attention (CCA) module can be used to compute category-based correlation and recalibrate the class-level information. Additionally, we introduce a simple yet effective region shuffle attention (RSA) module to reduce feature redundant and improve the efficiency of self-attention mechanism via region-wise representations. Extensive experimental results on the ISPRS Vaihingen and Potsdam benchmark demonstrate the effectiveness and efficiency of our HMANet over other state-of-the-art methods.

Published
2020

14. Ship Instance Segmentation From Remote Sensing Images Using Sequence Local Context Module

Author

Feng, Yingchao, Diao, Wenhui, Chang, Zhonghan, Yan, Menglong, Sun, Xian, and Gao, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The performance of object instance segmentation in remote sensing images has been greatly improved through the introduction of many landmark frameworks based on convolutional neural network. However, the object densely issue still affects the accuracy of such segmentation frameworks. Objects of the same class are easily confused, which is most likely due to the close docking between objects. We think context information is critical to address this issue. So, we propose a novel framework called SLCMASK-Net, in which a sequence local context module (SLC) is introduced to avoid confusion between objects of the same class. The SLC module applies a sequence of dilation convolution blocks to progressively learn multi-scale context information in the mask branch. Besides, we try to add SLC module to different locations in our framework and experiment with the effect of different parameter settings. Comparative experiments are conducted on remote sensing images acquired by QuickBird with a resolution of $0.5m-1m$ and the results show that the proposed method achieves state-of-the-art performance., Comment: 4 pages, 5 figures, IEEE Geoscience and Remote Sensing Society 2019

Published
2019

17. SA-SatMVS: Slope Feature-Aware and Across-Scale Information Integration for Large-Scale Earth Terrain Multi-View Stereo.

Author

Chen, Xiangli, Diao, Wenhui, Zhang, Song, Wei, Zhiwei, and Liu, Chunbo

Subjects
*SURFACE of the earth, *DIGITAL elevation models, *REMOTE-sensing images, *FEATURE extraction, *SURFACE reconstruction
Abstract

Satellite multi-view stereo (MVS) is a fundamental task in large-scale Earth surface reconstruction. Recently, learning-based multi-view stereo methods have shown promising results in this field. However, these methods are mainly developed by transferring the general learning-based MVS framework to satellite imagery, which lacks consideration of the specific terrain features of the Earth's surface and results in inadequate accuracy. In addition, mainstream learning-based methods mainly use equal height interval partition, which insufficiently utilizes the height hypothesis surface, resulting in inaccurate height estimation. To address these challenges, we propose an end-to-end terrain feature-aware height estimation network named SA-SatMVS for large-scale Earth surface multi-view stereo, which integrates information across different scales. Firstly, we transform the Sobel operator into slope feature-aware kernels to extract terrain features, and a dual encoder–decoder architecture with residual blocks is applied to incorporate slope information and geometric structural characteristics to guide the reconstruction process. Secondly, we introduce a pixel-wise unequal interval partition method using a Laplacian distribution based on the probability volume obtained from other scales, resulting in more accurate height hypotheses for height estimation. Thirdly, we apply an adaptive spatial feature extraction network to search for the optimal fusion method for feature maps at different scales. Extensive experiments on the WHU-TLC dataset also demonstrate that our proposed model achieves the best MAE metric of 1.875 and an RMSE metric of 3.785, which constitutes a state-of-the-art performance. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Active Bidirectional Self-Training Network for Cross-Domain Segmentation in Remote-Sensing Images.

Author

Yang, Zhujun, Yan, Zhiyuan, Diao, Wenhui, Ma, Yihang, Li, Xinming, and Sun, Xian

Subjects
REMOTE-sensing images, GAUSSIAN mixture models, IMAGE segmentation
Abstract

Semantic segmentation with cross-domain adaptation in remote-sensing images (RSIs) is crucial and mitigates the expense of manually labeling target data. However, the performance of existing unsupervised domain adaptation (UDA) methods is still significantly impacted by domain bias, leading to a considerable gap compared to supervised trained models. To address this, our work focuses on semi-supervised domain adaptation, selecting a small subset of target annotations through active learning (AL) that maximize information to improve domain adaptation. Overall, we propose a novel active bidirectional self-training network (ABSNet) for cross-domain semantic segmentation in RSIs. ABSNet consists of two sub-stages: a multi-prototype active region selection (MARS) stage and a source-weighted class-balanced self-training (SCBS) stage. The MARS approach captures the diversity in labeled source data by introducing multi-prototype density estimation based on Gaussian mixture models. We then measure inter-domain similarity to select complementary and representative target samples. Through fine-tuning with the selected active samples, we propose an enhanced self-training strategy SCBS, designed for weighted training on source data, aiming to avoid the negative effects of interfering samples. We conduct extensive experiments on the LoveDA and ISPRS datasets to validate the superiority of our method over existing state-of-the-art domain-adaptive semantic segmentation methods. [ABSTRACT FROM AUTHOR]

Published
2024
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26. AIR-SARShip-1.0: High-resolution SAR Ship Detection Dataset

Author

SUN Xian, WANG Zhirui, SUN Yuanrui, DIAO Wenhui, ZHANG Yue, and FU Kun

Subjects
sar ship detection, public dataset, deep learning, Electricity and magnetism, QC501-766
Abstract

Over the recent years, deep-learning technology has been widely used. However, in research based on Synthetic Aperture Radar (SAR) ship target detection, it is difficult to support the training of a deep-learning network model because of the difficulty in data acquisition and the small scale of the samples. This paper provides a SAR ship detection dataset with a high resolution and large-scale images. This dataset comprises 31 images from Gaofen-3 satellite SAR images, including harbors, islands, reefs, and the sea surface in different conditions. The backgrounds include various scenarios such as the near shore and open sea. We conducted experiments using both traditional detection algorithms and deep-learning algorithms and observed the densely connected end-to-end neural network to achieve the highest average precision of 88.1%. Based on the experiments and performance analysis, corresponding benchmarks are provided as a basis for further research on SAR ship detection using this dataset.

Published
2019
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30. Aircraft Reconstruction in High Resolution SAR Images Using Deep Shape Prior

Author

Dou Fangzheng, Diao Wenhui, Sun Xian, Zhang Yue, and Fu Kun

Subjects
Synthetic Aperture Radar (SAR), Object reconstruction, Shape prior, Deep Boltzmann machine, Electricity and magnetism, QC501-766
Abstract

Object reconstruction is of vital importance in Synthetic Aperture Radar (SAR) image analysis. In this paper, we propose a novel method based on shape prior to reconstruct aircraft in high resolution SAR images. The method mainly contains two stages. In the shape prior modeling stage, a generative deep learning method is used to model deep shape priors; a novel framework is then proposed in the reconstruction stage, which integrates the shape priors in the process of reconstruction. Specifically, to address the issue of object rotation, a novel pose estimation method is proposed to obtain candidate poses, which avoids making an exhaustive search for each pose. In addition, an energy function combining a scattering region term and a shape prior term is proposed; this is optimized via an iterative optimization algorithm to achieve the goal of object reconstruction. To the best of our knowledge, this is the first attempt made to reconstruct objects with complex shapes in SAR images using deep shape priors. Experiments are conducted on the dataset acquired by TerraSAR-X and results demonstrate the accuracy and robustness of the proposed method.

Published
2017
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34. PKG-Net: Physical Knowledge Feature-Guided Learning for Aircraft Detection in Optical Remote Sensing Images

Author

Xin, Linlin, Diao, Wenhui, Feng, Yingchao, Wang, Mengyu, and Sun, Xian

Abstract

Existing aircraft detection methods primarily rely on loss function constraints to guide the learning of end-to-end detectors, which significantly diverges from the judgment logic of human experts. Inspired by how human experts make decisions based on cognitive features, this article introduces the concept of physical knowledge features. Leveraging three properties of physical knowledge features, we identify the circle grayscale (CG) feature of aircraft and propose a physical knowledge-guided network (PKG-Net). By embedding CG features into the supervised learning process, the network improves its proficiency in learning stable features, thereby enhancing detection accuracy. Within this network, a multiscale circular frequency filter module (MS-CFFM) is responsible for extracting and integrating aircraft CG features across different scales. Adaptive channel selection module (ACSM) selectively activates channels for learning CG features. The hybrid attention feature fusion module (HAFFM) focuses intensively on the central localization of aircraft and deep reinforcement of channels. Experimental results on the RSOD and UCAS-AOD datasets demonstrate that the proposed method surpasses existing techniques in accuracy, achieving state-of-the-art performance.

Published
2024
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35. Adaptive SAR Image Enhancement for Aircraft Detection via Speckle Suppression and Channel Combination

Author

Suo, Yuxi, Wu, Youming, Miao, Tian, Diao, Wenhui, Sun, Xian, and Fu, Kun

Abstract

Synthetic aperture radar (SAR) possesses significant advantages in aircraft detection due to its all-day and all-weather monitoring capability, but some unique problems in SAR images decrease the performance of aircraft detection. The speckle effect and excessive dynamic range are the most common problems that interfere with the visual features in SAR images and deteriorate detection performance. However, there lacks a detection-oriented image enhancement algorithm to collaboratively solve these two problems. An adaptive image enhancement algorithm is proposed to improve the performance of aircraft detection in SAR images. The proposed image enhancement algorithm provides a pseudocolor image through speckle suppression and channel combination, which consists of the speckle noise suppression channel, strong scattering feature enhancement channel, and weak scattering feature enhancement channel. The speckle noise suppression is achieved by a despeckle network, and the radiational feature enhancement channels are derived from an adaptive quantization method based on the characteristics of amplitude distribution. By optimizing the quality of the input image, the proposed image enhancement algorithm improves the performance of aircraft detection. Experiments based on datasets acquired by GaoFen-3 satellites indicate that the proposed algorithms significantly improve the detection performance of various types of detectors. The source project is available at https://github.com/suoyuxi/ChannelEnhancement.

Published
2024
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36. Motion-Guided Multiobject Tracking Model for High-Speed Aerial Objects in Satellite Videos

Author

Ren, Libo, Yin, Wenxin, Diao, Wenhui, Fu, Kun, and Sun, Xian

Abstract

With the continuous improvement of remote sensing satellite technology for Earth observation, satellite video object tracking has become a new research field. Tracking aerial objects in satellite video facilitates highly accurate positioning over a wide coverage area which plays a crucial role in remote sensing scenes such as military analysis and disaster prevention. However, for such a data-driven task, most previous satellite video datasets focus on ground object tracking and lack attention to high-speed aerial objects. In this regard, a high-resolution satellite video dataset (AIR-HSAO) for detecting and tracking high-speed aerial objects is built including satellite videos from over 20 regions worldwide, with detailed annotations for approximately 1400 airplane trajectories. Based on the AIR-HSAO, an end-to-end online multiobject tracking method called MGTrack is proposed for high-speed aerial objects. Specifically, the motion prediction (MP) module is proposed to implicitly model object motion and associate objects. Guided by the predicted offsets, the feature warping and fusion (FWF) module aligns and fuses temporal features, fully exploiting the temporal correlations of the video sequence to obtain more accurate feature representations for high-speed objects. Additionally, a trajectory-aware size-enhanced loss is designed to handle the problem of discontinuous trajectories and small-scale objects. Experimental results on AIR-HSAO demonstrate that the proposed MGTrack improves the tracking accuracy by 2.3 MOTA and 1.6 IDF1 compared to the state-of-the-art tracking methods. The code is released at https://github.com/RenLibo-aircas/AIR-HSAT-dataset.

Published
2024
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37. SIRS: Multitask Joint Learning for Remote Sensing Foreground-Entity Image–Text Retrieval

Author

Zhu, Zicong, Kang, Jian, Diao, Wenhui, Feng, Yingchao, Li, Junxi, and Ni, Jingen

Abstract

The essence of improving the effect of cross-modal image–text retrieval (CIR) lies in the finer-grained modeling of homogeneous features between modalities. However, in remote sensing (RS) scenarios, existing methods usually apply the image–sentence granular feature alignment paradigm, bringing significant difficulties to the fine-grained representation of homogeneous features between modalities. Besides, more complex background noise and extreme scale ranges of foreground targets are hard to distinguish, causing the feature mottle problem. To address the above issues, we propose a novel Semantic-guided Image–text Retrieval framework with Segmentation (SIRS). It is a multitask joint learning framework for plug-and-play and end-to-end training RS CIR models efficiently, including semantic-guided spatial attention (SSA) and adaptive multiscale weighting (AMW) modules. First, SSA introduces a background reconstruction (BR) branch based on noise perception and a semantic segmentation (SS) branch based on pixel-level prediction. It explores a joint learning strategy that concisely filters background noise and refines foreground features considerably. Second, AMW performs multiscale weighting on various layers of feature map output by the encoder, effectively improving the learning efficiency of foreground targets at different scales. It is worth mentioning that SIRS outputs combination results with image and segmentation mask, which is not available in other methods. Based on the RSITMD dataset, we complete the SS annotation RSITMD-SS to verify the performance of the proposed method. Sufficient and complete experiments verify the effectiveness of the proposed method. With SIRS, the mainstream SVP and CLIP-based methods improve about 7 mR and derive segmentation prediction with acceptable computational cost optionally. The code and associated dataset will be available at https://github.com/StarBurstStream0/SIRS.

Published
2024
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38. DLC: Dynamic Loss Correction for Cross-Domain Remotely Sensed Segmentation

Author

He, Qibin, Yan, Zhiyuan, Diao, Wenhui, and Sun, Xian

Abstract

Due to the diversity of acquisition conditions and imaging mechanisms in remote sensing, the generalization of semantic segmentation models trained with labeled data in the source domain to other unlabeled target domains is hindered. Existing mainstream self-training-based methods provide pseudo-labels to target data as ground truth to utilize target domain evidence for unsupervised domain adaptation (UDA). However, the label shift and domain gap between different domains inevitably introduce noise into pseudo-labeled target data, that is, misclassified pixels. As a consequence, we present a dynamic loss correction (DLC) framework for cross-domain semantic segmentation, which mitigates domain discrepancy by formally modeling the noise distribution of pseudo-labels in the target domain with noise transition matrix (NTM). Specifically, to promote the model output to fit the true label distribution, we employ the high-order consistency information of neighbor representations to estimate NTM and correct the supervision signal without heuristically setting anchors. Furthermore, smooth geometric constraints are introduced to regularize the mutual improvement of NTM derivation and segmentation model optimization in a data-driven manner, thereby compensating for the lack of target domain knowledge. Extensive experimental results on four cross-domain remotely sensed segmentation tasks highlight the generalization capability and competitiveness of the presented method, including cross-scene, cross-band, and cross-modal transfer. Our results and code are available at https://github.com/heqibin/dlc.

Published
2024
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