Yiquan Wu scite author profile

Many state-of-the-art methods have been proposed for infrared small target detection. They work well on the images with homogeneous backgrounds and high-contrast targets. However, when facing highly heterogeneous backgrounds, they would not perform very well, mainly due to: 1) the existence of strong edges and other interfering components, 2) not utilizing the priors fully. Inspired by this, we propose a novel method to exploit both local and non-local priors simultaneously. Firstly, we employ a new infrared patch-tensor (IPT) model to represent the image and preserve its spatial correlations. Exploiting the target sparse prior and background non-local self-correlation prior, the target-background separation is modeled as a robust low-rank tensor recovery problem. Moreover, with the help of the structure tensor and reweighted idea, we design an entry-wise localstructure-adaptive and sparsity enhancing weight to replace the globally constant weighting parameter. The decomposition could be achieved via the element-wise reweighted higher-order robust principal component analysis with an additional convergence condition according to the practical situation of target detection. Extensive experiments demonstrate that our model outperforms the other state-of-the-arts, in particular for the images with very dim targets and heavy clutters.Index Terms-infrared small target detection, infrared patchtensor model, reweighted higher-order robust principal component analysis, non-local self-correlation prior, local structure prior. Y. Dai is with the College

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Recent advances in small object detection based on deep learning: A review

Tong

Zhou

2020

Image and Vision Computing

319

129

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Attentional Local Contrast Networks for Infrared Small Target Detection

Dai

Zhou

et al. 2021

IEEE Trans. Geosci. Remote Sensing

247

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Attentional Feature Fusion

et al. 2021

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Non-negative infrared patch-image model: Robust target-background separation via partial sum minimization of singular values

Dai

Shen

et al. 2017

Infrared Physics & Technology

145

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Infrared small target and background separation via column-wise weighted robust principal component analysis

Dai

Shen

2016

Infrared Physics & Technology

117

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Improved YOLO-V3 with DenseNet for Multi-Scale Remote Sensing Target Detection

2020

Sensors

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Remote sensing targets have different dimensions, and they have the characteristics of dense distribution and a complex background. This makes remote sensing target detection difficult. With the aim at detecting remote sensing targets at different scales, a new You Only Look Once (YOLO)-V3-based model was proposed. YOLO-V3 is a new version of YOLO. Aiming at the defect of poor performance of YOLO-V3 in detecting remote sensing targets, we adopted DenseNet (Densely Connected Network) to enhance feature extraction capability. Moreover, the detection scales were increased to four based on the original YOLO-V3. The experiment on RSOD (Remote Sensing Object Detection) dataset and UCS-AOD (Dataset of Object Detection in Aerial Images) dataset showed that our approach performed better than Faster-RCNN, SSD (Single Shot Multibox Detector), YOLO-V3, and YOLO-V3 tiny in terms of accuracy. Compared with original YOLO-V3, the mAP (mean Average Precision) of our approach increased from 77.10% to 88.73% in the RSOD dataset. In particular, the mAP of detecting targets like aircrafts, which are mainly made up of small targets increased by 12.12%. In addition, the detection speed was not significantly reduced. Generally speaking, our approach achieved higher accuracy and gave considerations to real-time performance simultaneously for remote sensing target detection.

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Yiquan Wu

Asymmetric Contextual Modulation for Infrared Small Target Detection

Reweighted Infrared Patch-Tensor Model With Both Nonlocal and Local Priors for Single-Frame Small Target Detection

Recent advances in small object detection based on deep learning: A review

Attentional Local Contrast Networks for Infrared Small Target Detection

Attentional Feature Fusion

Non-negative infrared patch-image model: Robust target-background separation via partial sum minimization of singular values

Infrared small target and background separation via column-wise weighted robust principal component analysis

Improved YOLO-V3 with DenseNet for Multi-Scale Remote Sensing Target Detection

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