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基于几何测度的三维太赫兹编码孔径成像

Three-Dimensional Terahertz Coded-Aperture Imaging Based on Geometric Measures.

机构信息

School of Electronic Science, National University of Defense Technology, Changsha 410073, China.

出版信息

Sensors (Basel). 2018 May 16;18(5):1582. doi: 10.3390/s18051582.

Abstract

For synthetic aperture radars, it is difficult to achieve forward-looking and staring imaging with high resolution. Fortunately, terahertz coded-aperture imaging (TCAI), an advanced radar imaging technology, can solve this problem by producing various irradiation patterns with coded apertures. However, three-dimensional (3D) TCAI has two problems, including a heavy computational burden caused by a large-scale reference signal matrix, and poor resolving ability at low signal-to-noise ratios (SNRs). This paper proposes a 3D imaging method based on geometric measures (GMs), which can reduce the computational burden and achieve high-resolution imaging for low SNR targets. At extremely low SNRs, it is difficult to detect the range cells containing scattering information with an ordinary range profile. However, this difficulty can be overcome through GMs, which can enhance the useful signal and restrain the noise. By extracting useful data from the range profile, target information in different imaging cells can be simultaneously reconstructed. Thus, the computational complexity is distinctly reduced when the 3D image is obtained by combining reconstructed 2D imaging results. Based on the conventional TCAI (C-TCAI) model, we deduce and build a GM-based TCAI (GM-TCAI) model. Compared with C-TCAI, the experimental results demonstrate that GM-TCAI achieves a more impressive performance with regards to imaging ability and efficiency. Furthermore, GM-TCAI can be widely applied in close-range imaging fields, for instance, medical diagnosis, nondestructive detection, security screening, etc.

摘要

对于合成孔径雷达来说,很难实现高分辨率的前视和凝视成像。幸运的是,太赫兹编码孔径成像(TCAI)作为一种先进的雷达成像技术,可以通过编码孔径产生各种照射模式来解决这个问题。然而,三维(3D)TCAI 存在两个问题,包括由于参考信号矩阵规模较大而导致的计算负担重,以及在低信噪比(SNR)下的分辨率能力差。本文提出了一种基于几何度量(GMs)的 3D 成像方法,该方法可以降低计算负担,并实现低 SNR 目标的高分辨率成像。在极低 SNR 下,很难检测到包含散射信息的距离单元的普通距离剖面图。然而,GMs 可以增强有用信号并抑制噪声,从而克服了这一困难。通过从距离剖面图中提取有用数据,可以同时重建不同成像单元中的目标信息。因此,通过结合重构的 2D 成像结果获得 3D 图像时,计算复杂度明显降低。基于传统的 TCAI(C-TCAI)模型,我们推导出并建立了一个基于 GM 的 TCAI(GM-TCAI)模型。与 C-TCAI 相比,实验结果表明 GM-TCAI 在成像能力和效率方面具有更出色的性能。此外,GM-TCAI 可以广泛应用于近距离成像领域,例如医学诊断、无损检测、安全筛查等。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7cf2/5982586/6ac55d14e173/sensors-18-01582-g001.jpg

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引用本文的文献

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