Theoretical and Experimental Study on the Block Compressive Imaging

机译：块压缩成像的理论与实验研究

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As compressive imaging can capture high-resolution images using low-resolution detectors, it has received extensive attention recently. Compared to Single-pixel Compressive imaging, block compressive imaging (BCI) can considerably reduce the observation and calculation time of the reconstruction process, therefore it can also reduce the speed of imaging. A common challenge in BCI implementation is system calibration. In this paper, we use system spread point function into object reconstruction process to solve this challenge. In our simulation works, a 64x64 object with block size 4×4 is used. 6 measurements are collected for each block. Orthogonal matching pursuit (OMP) algorithm is applied to reconstruction. Additionally, we setup an experiment to demonstrate BCI idea. The BCI experimental platform confirms that images at high spatial resolution can be successfully recovered from low-resolution sensor.

机译：由于压缩成像可以使用低分辨率检测器捕获高分辨率图像，因此近来受到广泛关注。与单像素压缩成像相比，块压缩成像（BCI）可以大大减少重建过程的观察和计算时间，因此也可以降低成像速度。 BCI实施中的一个常见挑战是系统校准。在本文中，我们将系统扩展点函数用于对象重建过程中以解决这一挑战。在我们的仿真工作中，使用块大小为4×4的64x64对象。每个块收集6个测量值。正交匹配追踪（OMP）算法被应用于重建。此外，我们设置了一个实验来证明BCI的想法。 BCI实验平台证实，可以从低分辨率传感器成功恢复高空间分辨率的图像。

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《Conference on Applied Optics and Photonics China》|2017年|104625H.1-104625H.6|共6页
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Qun Zhou; Linxia Zhang; Jun Ke;
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Block compressive imaging; compressive sensing; image reconstruction; OMP;

机译：块压缩成像;压缩感测影像重建; OMP;

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Theoretical and Experimental Study on the Block Compressive Imaging

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