Three-Dimensional Automatic Target Recognition System Based on Optical Integral Imaging Reconstruction

J. Inform. and Commun. Convergence Engineering Pub Date : 2016-03-31 DOI:10.6109/jicce.2016.14.1.051

Min-Chul Lee, Kotaro Inoue, M. Cho

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引用次数: 3

Abstract

In this paper, we present a three-dimensional (3-D) automatic target recognition system based on optical integral imaging reconstruction. In integral imaging, elemental images of the reference and target 3-D objects are obtained through a lenslet array or a camera array. Then, reconstructed 3-D images at various reconstruction depths can be optically generated on the output plane by back-projecting these elemental images onto a display panel. 3-D automatic target recognition can be implemented using computational integral imaging reconstruction and digital nonlinear correlation filters. However, these methods require non-trivial computation time for reconstruction and recognition. Instead, we implement 3-D automatic target recognition using optical cross-correlation between the reconstructed 3-D reference and target images at the same reconstruction depth. Our method depends on an all-optical structure to realize a real-time 3-D automatic target recognition system. In addition, we use a nonlinear correlation filter to improve recognition performance. To prove our proposed method, we carry out the optical experiments and report recognition results.

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基于光学积分成像重建的三维自动目标识别系统

本文提出了一种基于光学积分成像重建的三维目标自动识别系统。在积分成像中，通过透镜阵列或相机阵列获得参考和目标三维物体的元素图像。然后，通过将这些元素图像反向投影到显示面板上，可以在输出平面上光学生成不同重建深度的重建三维图像。利用计算积分成像重建和数字非线性相关滤波器可以实现三维目标自动识别。然而，这些方法需要大量的计算时间来进行重建和识别。相反，我们利用重建的三维参考图像与相同重建深度的目标图像之间的光学相互关系实现三维自动目标识别。该方法依靠全光结构实现实时三维自动目标识别系统。此外，我们使用非线性相关滤波器来提高识别性能。为了验证我们提出的方法，我们进行了光学实验并报告了识别结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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J. Inform. and Commun. Convergence Engineering

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