Qizhi Xu scite author profile

To achieve efficient polymer-based room-temperature phosphorescence (RTP) materials, covalently embedding phosphors into the polymer matrix appeared as the most appealing approach. However, it is still highly challenging to fabricate RTP materials on a large scale because of the inefficient binding engineering and time-consuming covalent reactions. Here, we have proposed a scalable preparation approach for RTP materials by the facile B─O click reaction between boronic acid–modified phosphors and polyhydroxy polymer matrix. The ab initio molecular dynamics simulations demonstrated that the phosphors were effectively immobilized, resulting in the suppressed nonradiative transitions and activated RTP emission. In comparison to the reported covalent binding time of several hours, such a B─O click reaction can be accomplished within 20 s under ambient environment. The developed strategy simplified the construction of polymer-based RTP polymeric materials by the introduction of facile click chemistry. Our success provides inspirations and possibilities for the scale-up production of RTP materials.

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PSGAN: A Generative Adversarial Network for Remote Sensing Image Pan-Sharpening

Liu

Zhou

et al. 2021

IEEE Trans. Geosci. Remote Sensing

157

102

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Ship Detection From Optical Satellite Images Based on Saliency Segmentation and Structure-LBP Feature

Yang

2017

IEEE Geosci. Remote Sensing Lett.

103

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R³-Net: A Deep Network for Multioriented Vehicle Detection in Aerial Images and Videos

Mou

et al. 2019

IEEE Trans. Geosci. Remote Sensing

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Vehicle detection is a significant and challenging task in aerial remote sensing applications. Most existing methods detect vehicles with regular rectangle boxes and fail to offer the orientation of vehicles. However, the orientation information is crucial for several practical applications, such as the trajectory and motion estimation of vehicles. In this paper, we propose a novel deep network, called a rotatable region-based residual network (R 3 -Net), to detect multioriented vehicles in aerial images and videos. More specially, R 3 -Net is utilized to generate rotatable rectangular target boxes in a half coordinate system. First, we use a rotatable region proposal network (R-RPN) to generate rotatable region of interests (R-RoIs) from feature maps produced by a deep convolutional neural network. Here, a proposed batch averaging rotatable anchor strategy is applied to initialize the shape of vehicle candidates. Next, we propose a rotatable detection network (R-DN) for the final classification and regression of the R-RoIs. In R-DN, a novel rotatable positionsensitive pooling is designed to keep the position and orientation information simultaneously while downsampling the feature maps of R-RoIs. In our model, R-RPN and R-DN can be trained jointly. We test our network on two open vehicle detection image data sets, namely, DLR 3K Munich Data set and VEDAI Data set, demonstrating the high precision and robustness of our method. In addition, further experiments on aerial videos show the good generalization capability of the proposed method and its potential for vehicle tracking in aerial videos. The demo video is available at https://youtu.be/xCYD-tYudN0.

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Spectral and Spatial Classification of Hyperspectral Images Based on Random Multi-Graphs

et al. 2018

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Hyperspectral image classification has been acknowledged as the fundamental and challenging task of hyperspectral data processing. The abundance of spectral and spatial information has provided great opportunities to effectively characterize and identify ground materials. In this paper, we propose a spectral and spatial classification framework for hyperspectral images based on Random Multi-Graphs (RMGs). The RMG is a graph-based ensemble learning method, which is rarely considered in hyperspectral image classification. It is empirically verified that the semi-supervised RMG deals well with small sample setting problems. This kind of problem is very common in hyperspectral image applications. In the proposed method, spatial features are extracted based on linear prediction error analysis and local binary patterns; spatial features and spectral features are then stacked into high dimensional vectors. The high dimensional vectors are fed into the RMG for classification. By randomly selecting a subset of features to create a graph, the proposed method can achieve excellent classification performance. The experiments on three real hyperspectral datasets have demonstrated that the proposed method exhibits better performance than several closely related methods.

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Ethylene ethyl phosphate as a multifunctional electrolyte additive for lithium-ion batteries

Gao

Lin

et al. 2015

RSC Adv.

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Automatic Raft Labeling for Remote Sensing Images via Dual-Scale Homogeneous Convolutional Neural Network

Shi

Zou

et al. 2018

Remote Sensing

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Raft-culture is a way of utilizing water for farming aquatic product. Automatic raft-culture monitoring by remote sensing technique is an important way to control the crop's growth and implement effective management. This paper presents an automatic pixel-wise raft labeling method based on fully convolutional network (FCN). As rafts are always tiny and neatly arranged in images, traditional FCN method fails to extract the clear boundary and other detailed information. Therefore, a homogeneous convolutional neural network (HCN) is designed, which only consists of convolutions and activations to retain all details. We further design a dual-scale structure (DS-HCN) to integrate higher-level contextual information for accomplishing sea-land segmentation and raft labeling at the same time in a uniform framework. A dataset with Gaofen-1 satellite images was collected to verify the effectiveness of our method. DS-HCN shows a satisfactory performance with a better interpretability and a more accurate labeling result.

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Qizhi Xu

Automatic Change Detection in Synthetic Aperture Radar Images Based on PCANet

Large-scale preparation for efficient polymer-based room-temperature phosphorescence via click chemistry

PSGAN: A Generative Adversarial Network for Remote Sensing Image Pan-Sharpening

Ship Detection From Optical Satellite Images Based on Saliency Segmentation and Structure-LBP Feature

R³-Net: A Deep Network for Multioriented Vehicle Detection in Aerial Images and Videos

Spectral and Spatial Classification of Hyperspectral Images Based on Random Multi-Graphs

Ethylene ethyl phosphate as a multifunctional electrolyte additive for lithium-ion batteries

Automatic Raft Labeling for Remote Sensing Images via Dual-Scale Homogeneous Convolutional Neural Network

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Qizhi Xu

Automatic Change Detection in Synthetic Aperture Radar Images Based on PCANet

Large-scale preparation for efficient polymer-based room-temperature phosphorescence via click chemistry

PSGAN: A Generative Adversarial Network for Remote Sensing Image Pan-Sharpening

Ship Detection From Optical Satellite Images Based on Saliency Segmentation and Structure-LBP Feature

R3-Net: A Deep Network for Multioriented Vehicle Detection in Aerial Images and Videos

Spectral and Spatial Classification of Hyperspectral Images Based on Random Multi-Graphs

Ethylene ethyl phosphate as a multifunctional electrolyte additive for lithium-ion batteries

Automatic Raft Labeling for Remote Sensing Images via Dual-Scale Homogeneous Convolutional Neural Network

Contact Info

Product

Resources

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R³-Net: A Deep Network for Multioriented Vehicle Detection in Aerial Images and Videos