FPGA implementation of linear combination for single pixel image reconstruction

Freddy del Angel-Arrieta, C. Morales-Perez, J. Rangel-Magdaleno, R. Ramos-García
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引用次数: 1

Abstract

In this paper, an architecture for Single Pixel Imaging (SPI) reconstruction, the linear combination of a dictionary, and a measured sparse signal were implemented into a Field Programmable Gate Array (FPGA). The implementation is intended to be used to reconstruct images buried in high scattering media like biological tissue. A Walsh-Hadamard matrix generator was implemented as a dictionary to save memory blocks. Some tests were performed to evaluate its performance. These tests include the reconstruction of images at different noise levels and the reconstruction of images from sparse signals. The implementation was able to reconstruct a 128 by 128 pixels image with a reconstruction time just below 10 ms with significant computational time reduction. This reconstruction time could create animations and even 32 frames per second (FPS) video provided the acquisition speed is fast enough.
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FPGA实现线性组合,用于单像素图像重建
本文在现场可编程门阵列(FPGA)中实现了单像素成像(SPI)重构、字典线性组合和测量稀疏信号的体系结构。该实现旨在用于重建埋在高散射介质(如生物组织)中的图像。沃尔什-阿达玛矩阵生成器实现为字典,以节省内存块。进行了一些测试以评估其性能。这些测试包括不同噪声水平下的图像重建和稀疏信号下的图像重建。该实现能够重建128 × 128像素的图像,重建时间低于10 ms,大大减少了计算时间。如果获取速度足够快,这个重建时间可以创建动画,甚至是每秒32帧(FPS)的视频。
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