将压缩感知应用于TEM视频:在任何摄像机上大幅提高帧率

IF 3.56 Q1 Medicine
Andrew Stevens, Libor Kovarik, Patricia Abellan, Xin Yuan, Lawrence Carin, Nigel D. Browning
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引用次数: 71

摘要

在原位透射电子显微镜(TEM)实验中,高时空分辨率成像的主要限制之一是使用相机的帧速率来成像动态过程。虽然最近发展的直接探测器已经提供了硬件来实现接近0.1 ms的帧速率,但相机价格昂贵,必须取代现有的探测器。在本文中,我们研究了使用编码孔径压缩感知(CS)方法,通过简单,低成本的硬件修改来提高任何相机的帧率。编码孔径方法允许在采集过程中对多个子帧进行编码并集成到单个相机帧中,然后在读取时使用统计CS反演进行提取。本文深入介绍了CS的研究背景和统计方法,并对原位TEM实验的帧率和效率进行了仿真。根据图像的分辨率和信号/噪声,使用这种方法应该可以将任何相机的速度提高一个数量级以上。数学学科分类:(2010)94A08·78A15
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Applying compressive sensing to TEM video: a substantial frame rate increase on any camera

Applying compressive sensing to TEM video: a substantial frame rate increase on any camera

One of the main limitations of imaging at high spatial and temporal resolution during in-situ transmission electron microscopy (TEM) experiments is the frame rate of the camera being used to image the dynamic process. While the recent development of direct detectors has provided the hardware to achieve frame rates approaching 0.1 ms, the cameras are expensive and must replace existing detectors. In this paper, we examine the use of coded aperture compressive sensing (CS) methods to increase the frame rate of any camera with simple, low-cost hardware modifications. The coded aperture approach allows multiple sub-frames to be coded and integrated into a single camera frame during the acquisition process, and then extracted upon readout using statistical CS inversion. Here we describe the background of CS and statistical methods in depth and simulate the frame rates and efficiencies for in-situ TEM experiments. Depending on the resolution and signal/noise of the image, it should be possible to increase the speed of any camera by more than an order of magnitude using this approach.

Mathematics Subject Classification: (2010) 94A08 · 78A15

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来源期刊
Advanced Structural and Chemical Imaging
Advanced Structural and Chemical Imaging Medicine-Radiology, Nuclear Medicine and Imaging
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