Infrared Small Target Detection via Nonnegativity-Constrained Variational Mode Decomposition

IF 4 3区地球科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Geoscience and Remote Sensing Letters Pub Date : 2017-08-11 DOI:10.1109/LGRS.2017.2729512

Xiaoyang Wang, Zhenming Peng, Ping Zhang, Yanmin He

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引用次数: 47

Abstract

Infrared small target detection is one of the key techniques in the infrared search and track system. Frequency differences among target, background, and noise are often important information for target detection. In this letter, a nonnegativity-constrained variational mode decomposition (NVMD) method is proposed. Unlike the traditional frequency-domain methods, the proposed method can adaptively decompose the input signal into several separated band-limited subsignals, with the nonnegativity constraint. First, a bandpass filter is used as a preprocessing step. Second, by exploring the frequency and nonnegativity properties of the small target, the NVMD model is constructed. The potential target subsignal can be obtained by solving the NVMD model. By performing threshold segmentation on the potential target subsignal, we can obtain the detection result of the infrared small target. Experiments on six real infrared image sequences demonstrate that the proposed method has a good performance in target enhancement and background suppression. Additionally, the proposed method shows strong robustness under various backgrounds.

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基于非负约束变分模态分解的红外小目标检测

红外小目标检测是红外搜索跟踪系统的关键技术之一。目标、背景和噪声之间的频率差通常是目标检测的重要信息。本文提出了一种非负约束变分模分解（NVMD）方法。与传统的频域方法不同，该方法可以在非负性约束下，将输入信号自适应地分解为几个分离的带限子信号。首先，使用带通滤波器作为预处理步骤。其次，通过探索小目标的频率和非负特性，构建了NVMD模型。潜在目标子信号可以通过求解NVMD模型来获得。通过对潜在目标子信号进行阈值分割，可以得到红外小目标的检测结果。在6个真实红外图像序列上的实验表明，该方法在目标增强和背景抑制方面具有良好的性能。此外，该方法在各种背景下都表现出较强的鲁棒性。

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来源期刊

IEEE Geoscience and Remote Sensing Letters 工程技术-地球化学与地球物理

CiteScore

7.60

自引率

12.50%

发文量

1113

审稿时长

3.4 months

期刊介绍： IEEE Geoscience and Remote Sensing Letters (GRSL) is a monthly publication for short papers (maximum length 5 pages) addressing new ideas and formative concepts in remote sensing as well as important new and timely results and concepts. Papers should relate to the theory, concepts and techniques of science and engineering as applied to sensing the earth, oceans, atmosphere, and space, and the processing, interpretation, and dissemination of this information. The technical content of papers must be both new and significant. Experimental data must be complete and include sufficient description of experimental apparatus, methods, and relevant experimental conditions. GRSL encourages the incorporation of "extended objects" or "multimedia" such as animations to enhance the shorter papers.