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111 results on '"Wang, Guanchun"'

1. S$^2$Mamba: A Spatial-spectral State Space Model for Hyperspectral Image Classification

Author

Wang, Guanchun, Zhang, Xiangrong, Peng, Zelin, Zhang, Tianyang, and Jiao, Licheng

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

Land cover analysis using hyperspectral images (HSI) remains an open problem due to their low spatial resolution and complex spectral information. Recent studies are primarily dedicated to designing Transformer-based architectures for spatial-spectral long-range dependencies modeling, which is computationally expensive with quadratic complexity. Selective structured state space model (Mamba), which is efficient for modeling long-range dependencies with linear complexity, has recently shown promising progress. However, its potential in hyperspectral image processing that requires handling numerous spectral bands has not yet been explored. In this paper, we innovatively propose S$^2$Mamba, a spatial-spectral state space model for hyperspectral image classification, to excavate spatial-spectral contextual features, resulting in more efficient and accurate land cover analysis. In S$^2$Mamba, two selective structured state space models through different dimensions are designed for feature extraction, one for spatial, and the other for spectral, along with a spatial-spectral mixture gate for optimal fusion. More specifically, S$^2$Mamba first captures spatial contextual relations by interacting each pixel with its adjacent through a Patch Cross Scanning module and then explores semantic information from continuous spectral bands through a Bi-directional Spectral Scanning module. Considering the distinct expertise of the two attributes in homogenous and complicated texture scenes, we realize the Spatial-spectral Mixture Gate by a group of learnable matrices, allowing for the adaptive incorporation of representations learned across different dimensions. Extensive experiments conducted on HSI classification benchmarks demonstrate the superiority and prospect of S$^2$Mamba. The code will be made available at: https://github.com/PURE-melo/S2Mamba., Comment: 12 pages, 7 figures

Published
2024

2. Remote Sensing Object Detection Meets Deep Learning: A Meta-review of Challenges and Advances

Author

Zhang, Xiangrong, Zhang, Tianyang, Wang, Guanchun, Zhu, Peng, Tang, Xu, Jia, Xiuping, and Jiao, Licheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Remote sensing object detection (RSOD), one of the most fundamental and challenging tasks in the remote sensing field, has received longstanding attention. In recent years, deep learning techniques have demonstrated robust feature representation capabilities and led to a big leap in the development of RSOD techniques. In this era of rapid technical evolution, this review aims to present a comprehensive review of the recent achievements in deep learning based RSOD methods. More than 300 papers are covered in this review. We identify five main challenges in RSOD, including multi-scale object detection, rotated object detection, weak object detection, tiny object detection, and object detection with limited supervision, and systematically review the corresponding methods developed in a hierarchical division manner. We also review the widely used benchmark datasets and evaluation metrics within the field of RSOD, as well as the application scenarios for RSOD. Future research directions are provided for further promoting the research in RSOD., Comment: Accepted with IEEE Geoscience and Remote Sensing Magazine. More than 300 papers relevant to the RSOD filed were reviewed in this survey

Published
2023

3. DiffUCD:Unsupervised Hyperspectral Image Change Detection with Semantic Correlation Diffusion Model

Author

Zhang, Xiangrong, Tian, Shunli, Wang, Guanchun, Zhou, Huiyu, and Jiao, Licheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Hyperspectral image change detection (HSI-CD) has emerged as a crucial research area in remote sensing due to its ability to detect subtle changes on the earth's surface. Recently, diffusional denoising probabilistic models (DDPM) have demonstrated remarkable performance in the generative domain. Apart from their image generation capability, the denoising process in diffusion models can comprehensively account for the semantic correlation of spectral-spatial features in HSI, resulting in the retrieval of semantically relevant features in the original image. In this work, we extend the diffusion model's application to the HSI-CD field and propose a novel unsupervised HSI-CD with semantic correlation diffusion model (DiffUCD). Specifically, the semantic correlation diffusion model (SCDM) leverages abundant unlabeled samples and fully accounts for the semantic correlation of spectral-spatial features, which mitigates pseudo change between multi-temporal images arising from inconsistent imaging conditions. Besides, objects with the same semantic concept at the same spatial location may exhibit inconsistent spectral signatures at different times, resulting in pseudo change. To address this problem, we propose a cross-temporal contrastive learning (CTCL) mechanism that aligns the spectral feature representations of unchanged samples. By doing so, the spectral difference invariant features caused by environmental changes can be obtained. Experiments conducted on three publicly available datasets demonstrate that the proposed method outperforms the other state-of-the-art unsupervised methods in terms of Overall Accuracy (OA), Kappa Coefficient (KC), and F1 scores, achieving improvements of approximately 3.95%, 8.13%, and 4.45%, respectively. Notably, our method can achieve comparable results to those fully supervised methods requiring numerous annotated samples.

Published
2023

4. USAGE: A Unified Seed Area Generation Paradigm for Weakly Supervised Semantic Segmentation

Author

Peng, Zelin, Wang, Guanchun, Xie, Lingxi, Jiang, Dongsheng, Shen, Wei, and Tian, Qi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Seed area generation is usually the starting point of weakly supervised semantic segmentation (WSSS). Computing the Class Activation Map (CAM) from a multi-label classification network is the de facto paradigm for seed area generation, but CAMs generated from Convolutional Neural Networks (CNNs) and Transformers are prone to be under- and over-activated, respectively, which makes the strategies to refine CAMs for CNNs usually inappropriate for Transformers, and vice versa. In this paper, we propose a Unified optimization paradigm for Seed Area GEneration (USAGE) for both types of networks, in which the objective function to be optimized consists of two terms: One is a generation loss, which controls the shape of seed areas by a temperature parameter following a deterministic principle for different types of networks; The other is a regularization loss, which ensures the consistency between the seed areas that are generated by self-adaptive network adjustment from different views, to overturn false activation in seed areas. Experimental results show that USAGE consistently improves seed area generation for both CNNs and Transformers by large margins, e.g., outperforming state-of-the-art methods by a mIoU of 4.1% on PASCAL VOC. Moreover, based on the USAGE-generated seed areas on Transformers, we achieve state-of-the-art WSSS results on both PASCAL VOC and MS COCO., Comment: ICCV 2023 camera-ready version

Published
2023

5. Absolute Wrong Makes Better: Boosting Weakly Supervised Object Detection via Negative Deterministic Information

Author

Wang, Guanchun, Zhang, Xiangrong, Peng, Zelin, Tang, Xu, Zhou, Huiyu, and Jiao, Licheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Weakly supervised object detection (WSOD) is a challenging task, in which image-level labels (e.g., categories of the instances in the whole image) are used to train an object detector. Many existing methods follow the standard multiple instance learning (MIL) paradigm and have achieved promising performance. However, the lack of deterministic information leads to part domination and missing instances. To address these issues, this paper focuses on identifying and fully exploiting the deterministic information in WSOD. We discover that negative instances (i.e. absolutely wrong instances), ignored in most of the previous studies, normally contain valuable deterministic information. Based on this observation, we here propose a negative deterministic information (NDI) based method for improving WSOD, namely NDI-WSOD. Specifically, our method consists of two stages: NDI collecting and exploiting. In the collecting stage, we design several processes to identify and distill the NDI from negative instances online. In the exploiting stage, we utilize the extracted NDI to construct a novel negative contrastive learning mechanism and a negative guided instance selection strategy for dealing with the issues of part domination and missing instances, respectively. Experimental results on several public benchmarks including VOC 2007, VOC 2012 and MS COCO show that our method achieves satisfactory performance., Comment: 7 pages, 5 figures, accepted by IJCAI 2022

Published
2022
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11. Improving Neural Relation Extraction with Positive and Unlabeled Learning

Author

He, Zhengqiu, Chen, Wenliang, Wang, Yuyi, zhang, Wei, Wang, Guanchun, and Zhang, Min

Subjects
Computer Science - Computation and Language
Abstract

We present a novel approach to improve the performance of distant supervision relation extraction with Positive and Unlabeled (PU) Learning. This approach first applies reinforcement learning to decide whether a sentence is positive to a given relation, and then positive and unlabeled bags are constructed. In contrast to most previous studies, which mainly use selected positive instances only, we make full use of unlabeled instances and propose two new representations for positive and unlabeled bags. These two representations are then combined in an appropriate way to make bag-level prediction. Experimental results on a widely used real-world dataset demonstrate that this new approach indeed achieves significant and consistent improvements as compared to several competitive baselines., Comment: 8 pages, AAAI-2020

Published
2019

16. A Patch-Level Region-Aware Module with a Multi-Label Framework for Remote Sensing Image Captioning.

Author

Li, Yunpeng, Zhang, Xiangrong, Zhang, Tianyang, Wang, Guanchun, Wang, Xinlin, and Li, Shuo

Subjects
TRANSFORMER models, REMOTE sensing, RECOMMENDER systems, INFORMATION filtering, CLASSIFICATION
Abstract

Recent Transformer-based works can generate high-quality captions for remote sensing images (RSIs). However, these methods generally feed global or grid visual features to a Transformer-based captioning model for associating cross-modal information, which limits performance. In this work, we investigate unexplored ideas for remote sensing image captioning task, using a novel patch-level region-aware module with a multi-label framework. Due to an overhead perspective and a significantly larger scale in RSIs, a patch-level region-aware module is designed to filter the redundant information in the RSI scene, which benefits the Transformer-based decoder by attaining improved image perception. Technically, the trainable multi-label classifier capitalizes on semantic features as supplementary to the region-aware features. Moreover, modeling the inner relations of inputs is essential for understanding the RSI. Thus, we introduce region-oriented attention, which associates region features and semantic labels, omits the irrelevant regions to highlight relevant regions, and learns related semantic information. Extensive qualitative and quantitative experimental results show the superiority of our approach on the RSICD, UCM-Captions, and Sydney-Captions. The code for our method will be publicly available. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Multistage Enhancement Network for Tiny Object Detection in Remote Sensing Images

Author

Zhang, Tianyang, Zhang, Xiangrong, Zhu, Xiaoqian, Wang, Guanchun, Han, Xiao, Tang, Xu, and Jiao, Licheng

Abstract

With the rapid advances in deep learning techniques, remote sensing object detection (RSOD) has achieved remarkable achievements in recent years. However, tiny object detection remains unsatisfactory and suffers from two main drawbacks: 1) the high sensitivity of IoU for location deviation in tiny objects and 2) the poor-quality feature representations of tiny objects. To address the aforementioned problems, we propose a multistage enhancement network (MENet) that achieves the instance-level and feature-level enhancement of tiny objects from different stages of the detector. Since the IoU-based label assignment drastically deteriorates the positive samples for tiny objects, we first propose a central region (CR)-based label assignment to substitute it in the region proposal network (RPN). The CR label assignment regards the anchors that fall into the CR of ground-truth boxes as positive samples, which provides more positive samples for tiny objects. Then, we design a gated context aggregation (GCA) module that selectively aggregates valuable context information to enhance the feature representation of tiny objects. Additionally, we devise a positive RoI (pRoI) feature generator in the region convolutional neural network (R-CNN) to generate a rich diversity of high-quality pRoI features for tiny objects. We conduct extensive experiments on AI-TOD and SODA-A datasets, and the results demonstrate the effectiveness of our proposed method.

Published
2024
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24. Lightweight polyimide-derived carbon foams with anisotropic porous structures prepared by microwave-assisted foaming and carbonization for thermal insulation and EMI shielding applications.

Author

Ni, Long, Kang, Zhenling, Luo, Yinfu, Yan, Liwei, Lu, Junyu, Wang, Guanchun, Qiu, Shaoyu, Liang, Mei, Zhou, Shengtai, and Zou, Huawei

Abstract

Lightweight and anisotropic porous carbon materials have promising applications in thermal insulation and electromagnetic interference (EMI) shielding fields. Herein, lightweight polyimide foams (PIFs) with anisotropic pore structures were prepared by adopting a microwave-assisted foaming method and the obtained PIFs were employed as derivatives to fabricate carbon foams, i.e., PICFs. The PICFs with aligned ellipsoidal strip-like pore structures presented low volumetric shrinkage (44.87–50.24%) and weight loss (36.33–48.17%), along with favorable compressive strength (102.96 kPa), and high temperature thermal resistance. In addition, the anisotropic pore structure imparted efficient thermal insulation and infrared thermal stealth properties to PICFs, with thermal conductivity as low as 0.0356 W (m K)−1 along the horizontal direction (perpendicular to the pore growth direction). When carbonized at 1400 °C, PICF1400 with a low density (22.9 kg m−3) and thin thickness (1.9 mm) exhibited a high electrical conductivity of 23.91 S m−1 in the horizontal direction. The EMI shielding effectiveness (SE) and specific EMI SE reached as high as 53.2 dB and 12216 dB (g cm−2), respectively. Moreover, PICF800 exhibited a high absorption coefficient of 0.91. Therefore, a facile strategy was proposed for fabricating lightweight PICFs which possess multifunctional properties enabling potential applications in high-end engineering sectors. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Topics in Probabilistic Judgment Aggregation

Author

Wang, Guanchun

Abstract

This dissertation is a compilation of several studies that are united by their relevance to probabilistic judgment aggregation. In the face of complex and uncertain events, panels of judges are frequently consulted to provide probabilistic forecasts, and aggregation of such estimates in groups often yield better results than could have been made by any single judge. The 2008 presidential election presented a good opportunity to gather a large set of probabilistic forecasts to study the "Wisdom of the Crowd" effect. Regression models are developed to analyze how variables affect the forecasting accuracy and wishful thinking bias. A new algorithm, which efficiently enforces probabilistic coherence in the forecasts, while weighing judges by their credibility, is proposed and shown to improve forecasting accuracy over simple aggregation methods such as linear averaging. Comparisons with poll aggregators and prediction markets are made to further demonstrate the prediction power of the weighted coherent algorithm. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published
2011

33. Preparation and Applications of the Cellulose Nanocrystal

Author

Dingjie Suo, Zhang Ruiqian, Wang Guanchun, Yong Yang, Junxiong Zhang, and Zhou Chen

Subjects
Preparation method, chemistry.chemical_classification, chemistry.chemical_compound, Materials science, Polymers and Plastics, chemistry, Nanocrystal, lcsh:TP1-1185, Nanotechnology, Electronics, Polymer, Cellulose, lcsh:Chemical technology
Abstract

Cellulose widely existed in plants and bacteria, which takes important effect on the synthesis of macromolecule polymer material. Because of its great material properties, the cellulose nanocrystal (CNC) showed its necessary prospect in various industrial applications. As a renewable future material, the preparation methods of the CNC were reviewed in this paper. Meanwhile, the important applications of CNC in the field of composites, barrier film, electronics, and energy consumption were also mentioned with brief introductions. The summarized preparations and considerable applications provided operable ideas and methods for the future high-end and eco-friendly functional composites. Suggestions for potential applications were also discussed.

Published
2019

34. Citizen forecasts of the 2008 U.S. presidential election

Author

Miller, Michael K., Wang, Guanchun, Kulkarni, Sanjeev R., Poor, H. Vincent, and Osherson, Daniel N.

Subjects
Set (Psychology) -- Political aspects -- Influence, Presidents -- Elections, Election forecasting -- Research, Party affiliation -- Influence, Political participation -- Psychological aspects, Market trend/market analysis, Political science
Abstract

We analyze individual probabilistic predictions of state outcomes in the 2008 U.S. presidential election. Employing an original survey of more than 19,000 respondents, we find that partisans gave higher probabilities to their favored candidates, but this bias was reduced by education, numerical sophistication, and the level of Obama support in their home states. In aggregate, we show that individual biases balance out, and the group's predictions were highly accurate, outperforming both Intrade (a prediction market) and fivethirtyeight.com (a poll-based forecast). The implication is that electoral forecasters can often do better asking individuals who they think will win rather than who they want to win. Keywords: Citizen Forecasts, Individual Election Predictions, 2008 U.S. Presidential Election, Partisan Bias, Voter Information, Voter Preference, Wishful Thinking Bias in Elections. Analizamos las predicciones probabilisticas individuales de los resultados estatales para la eleccion presidencial de los Estados Unidos en 2008. Usando una encuesta original de mas de 19,000 participantes, encontramos que los partidistas dieron una mayor probabilidad a su candidato preferido, pero este sesgo se vio reducido por factores como la educacion, sofisticacion numerica, y el nivel de soporte hacia Obama en sus estados de origen. En conjunto, mostramos que los sesgos individuales se compensan y que las predicciones grupales fueron de gran precision, superando a Intrade (un mercado de predicciones) y fivethirtyeight.com (un pronostico basado en encuestas). La implicacion es que los pronosticos electorales pueden ser mejorados al preguntar a los individuos quien piensan que ganara en lugar de preguntar quien quieren que gane., How do individuals form expectations about future political events? Are predictions influenced by desires? Do social surroundings play a role? Guided by these questions, this study analyzes individual forecasts of [...]

Published
2012
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35. High-Quality Angle Prediction for Oriented Object Detection in Remote Sensing Images

Author

Wang, Guanchun, Zhang, Xiangrong, Zhu, Peng, Tang, Xu, Chen, Puhua, Jiao, Licheng, and Zhou, Huiyu

Abstract

Oriented object detection is a challenging task in remote sensing, where the detected objects can be represented by oriented bounding boxes (OBBs). Angle prediction in oriented object detection has been widely studied, due to its crucial role in object detection. However, the precision of angle prediction is severely limited by misalignments in most of the existing methods, including representation-, evaluation-, and optimization-based misalignments. To alleviate these misalignments, this article presents a novel angle prediction method, called angle quality estimation (AQE). Specifically, our proposed AQE transforms the angle prediction task into a distribution estimation task to address the representation misalignment problem and implicitly measure the quality of the predicted angles. Based on the estimated AQ, we then propose a new metric to comprehensively evaluate the quality of OBBs. Then, we propose an object aspect ratio-based loss function to optimize angle prediction for addressing the optimization misalignment. Our proposed AQE is a plug-and-play method, which can be embedded on any existing oriented object detector. Experimental results on three public benchmarks, including dataset for object detection in aerial images (DOTA), high resolution ship collections 2016 (HRSC2016), and International Conference on Document Analysis and Recognition 2015 (ICDAR2015) datasets, show that our method achieves better performance than the other state of the arts.

Published
2023
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42. Aggregating large sets of probabilistic forecasts by weighted coherent adjustment

Author

Wang, Guanchun, Kulkarni, Sanjeev R., Poor, Vincent H., and Osherson, Daniel N.

Subjects
Algorithms, Algorithm, Business
Abstract

Probability forecasts in complex environments can benefit from combining the estimates of large groups of forecasters ('judges'). But aggregating multiple opinions raises several challenges. First, human judges are notoriously incoherent [...]

Published
2011
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43. Preparation and Applications of the Cellulose Nanocrystal

Author

Yang, Yong, Chen, Zhou, Zhang, Junxiong, Wang, Guanchun, Zhang, Ruiqian, and Suo, Dingjie

Subjects
Article Subject
Abstract

Cellulose widely existed in plants and bacteria, which takes important effect on the synthesis of macromolecule polymer material. Because of its great material properties, the cellulose nanocrystal (CNC) showed its necessary prospect in various industrial applications. As a renewable future material, the preparation methods of the CNC were reviewed in this paper. Meanwhile, the important applications of CNC in the field of composites, barrier film, electronics, and energy consumption were also mentioned with brief introductions. The summarized preparations and considerable applications provided operable ideas and methods for the future high-end and eco-friendly functional composites. Suggestions for potential applications were also discussed.

Published
2019
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44. Preparation, Properties, and Applications of Graphene-Based Hydrogels

Author

Tairong Kuang, Wang Guanchun, Zhang Ruiqian, Hu Junfeng, Guochao Liao, and Zhou Chen

Subjects
Filler (packaging), Materials science, applications, Mini Review, chemistry.chemical_element, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, law.invention, Nanomaterials, lcsh:Chemistry, Thermal conductivity, law, hydrogels, preparation, chemistry.chemical_classification, Graphene, graphene, Polymer, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemistry, lcsh:QD1-999, chemistry, Self-healing hydrogels, graphene oxide, 0210 nano-technology, Carbon, Macromolecule
Abstract

As a new carbon-based nanomaterial, graphene has exhibited unique advantages in significantly improving the combination properties of traditional polymer hydrogels. The specific properties of graphene, such as high electrical conductivity, high thermal conductivity and excellent mechanical properties, have made graphene not only a gelator to self-assemble into the graphene-based hydrogels (GBH) with extraordinary electromechanical performance, but also a filler to blend with small molecules and macromolecules for the preparation of multifunctional GBH. It fully exploits the practical applications of traditional hydrogels. This review summarizes the preparation methods, properties, and the applications of GBH. Further developments and challenges of GBH are also prospected.

Published
2018
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48. Preparation of paraffin/SiO2 aerogel stable-stabilized phase change composites for high-humidity environment.

Author

Yu, Yuxi, Xu, Jian, Wang, Guanchun, Zhang, Ruiqian, and Peng, Xiaoming

Subjects
THERMAL conductivity, PHASE change materials, MELTING points, PARAFFIN wax, ALKYL group, SURFACE properties, SOL-gel materials
Abstract

The shape stabilization ability of solid–liquid phase change composites (PCCs), which are determined by the interaction between the terminal group of the phase change material molecule and the surface properties of the porous matrix material, is a prerequisite for long-term stable work of PCCs. Here, mesoporous SiO2 aerogel (MSA) surface properties were engineered to regulate the interactions between paraffin wax (PW) composites. To evaluate the effect of the surface properties of MSA on the stability of the composite, the sol–gel method combined with a supercritical drying process was firstly used to prepare CH3/HO–MSA. Then, HO–MSA and CH3–MSA were obtained by hydroxylation and alkylation modification on the basis of the as-prepared CH3/HO–MSA, respectively. The alkyl group modified on the surface of the MSA pores eliminates the phase separation of PCCs caused by the hydrogen-bonding interaction between MSA and water molecules. Therefore, the obtained CH3–MSA/PW has no leakage for more than 24 h even in an environment of high humidity and a temperature exceeding the melting point of PW. In addition, large phase change latent heat, good thermal conductivity and thermal stability are also well achieved. This paves the way for the development of PCCs for use in high-humidity environments. [ABSTRACT FROM AUTHOR]

Published
2020
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