An optimised multi-scale fusion method for airport detection in large-scale optical remote sensing images

IF 1.8 Q3 REMOTE SENSING
Shoulin Yin, Hang Li, Lin Teng, Man Jiang, Shahid Karim
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引用次数: 30

Abstract

ABSTRACT Airport detection in remote sensing images is an important process which plays a significant role in military and civil areas. Mostly, conventional algorithms have been used for airport detection from a small-scale remote sensing image and revealed the less efficient ability of searching the object from a large-scale high-resolution remote sensing image. The computational complexity of these algorithms is high and these are not useful for rapid localisation with high detection accuracy in high-resolution remote sensing images. Aiming to solve the above problems, we propose an optimised multi-scale fusion method for airport detection in large-scale optical remote sensing images. Firstly, we execute discrete wavelet multi-scale decomposition for remote sensing image and extract the multiple features of the object in each sub-band. Secondly, the fusion rule based on the optimised region selection is used to fuse the features on each scale. Meanwhile, singular-value decomposition (SVD) is utilised for fusing low-frequency and principal component analysis (PCA) is utilised to fuse the high-frequency, respectively. Thirdly, the final-fused image is acquired by weighted fusion. Finally, the selective search method is employed to detect the airport in the fused image. Experimental results show that the detection accuracy is better than the other state-of-the-art methods.
大尺度光学遥感影像机场检测的多尺度融合优化方法
遥感图像中的机场检测是一个重要的过程,在军事和民用领域都有着重要的作用。传统的机场检测算法大多用于小尺度遥感图像的机场检测,在大尺度高分辨率遥感图像中搜索目标的效率较低。这些算法的计算复杂度较高,不利于高分辨率遥感图像中具有高检测精度的快速定位。针对上述问题,提出了一种优化的大尺度光学遥感影像机场检测多尺度融合方法。首先,对遥感图像进行离散小波多尺度分解,在每个子波段提取目标的多个特征;其次,采用基于优化区域选择的融合规则对各尺度特征进行融合;同时,利用奇异值分解(SVD)进行低频融合,利用主成分分析(PCA)进行高频融合。第三步,对最终融合图像进行加权融合;最后,采用选择性搜索方法对融合图像中的机场进行检测。实验结果表明,该方法具有较好的检测精度。
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来源期刊
CiteScore
5.00
自引率
0.00%
发文量
10
期刊介绍: International Journal of Image and Data Fusion provides a single source of information for all aspects of image and data fusion methodologies, developments, techniques and applications. Image and data fusion techniques are important for combining the many sources of satellite, airborne and ground based imaging systems, and integrating these with other related data sets for enhanced information extraction and decision making. Image and data fusion aims at the integration of multi-sensor, multi-temporal, multi-resolution and multi-platform image data, together with geospatial data, GIS, in-situ, and other statistical data sets for improved information extraction, as well as to increase the reliability of the information. This leads to more accurate information that provides for robust operational performance, i.e. increased confidence, reduced ambiguity and improved classification enabling evidence based management. The journal welcomes original research papers, review papers, shorter letters, technical articles, book reviews and conference reports in all areas of image and data fusion including, but not limited to, the following aspects and topics: • Automatic registration/geometric aspects of fusing images with different spatial, spectral, temporal resolutions; phase information; or acquired in different modes • Pixel, feature and decision level fusion algorithms and methodologies • Data Assimilation: fusing data with models • Multi-source classification and information extraction • Integration of satellite, airborne and terrestrial sensor systems • Fusing temporal data sets for change detection studies (e.g. for Land Cover/Land Use Change studies) • Image and data mining from multi-platform, multi-source, multi-scale, multi-temporal data sets (e.g. geometric information, topological information, statistical information, etc.).
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