Macroscopic Interferometry: Rethinking Depth Estimation with Frequency-Domain Time-of-Flight

机译：宏观干涉术：用频域飞行时间重新考虑深度估计

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A form of meter-scale, macroscopic interferometry is proposed using conventional time-of-flight (ToF) sensors. Today, ToF sensors use phase-based sampling, where the phase delay between emitted and received, high-frequency signals encodes distance. This paper examines an alternative ToF architecture, inspired by micron-scale, microscopic interferometry, that relies only on frequency sampling: we refer to our proposed macroscopic technique as Frequency-Domain Time of Flight (FD-ToF). The proposed architecture offers several benefits over existing phase ToF systems, such as robustness to phase wrapping and implicit resolution of multi-path interference, all while capturing the same number of subframes. A prototype camera is constructed to demonstrate macroscopic interferometry at meter scale.

机译：使用传统的飞行时间（TOF）传感器提出了一种仪表级，宏观干涉测量法。如今，TOF传感器使用基于相位的采样，其中发射和接收到的高频信号之间的相位延迟进行编码距离。本文审查了替代TOF架构，受微米级，微观干涉测量学的启发，仅依赖于频率采样：我们将所提出的宏观技术称为频域飞行时间（FD-TOF）。该拟议的架构提供了几个在现有阶段TOF系统上的好处，例如振动到相位包装的稳健性和多路径干扰的隐式分辨率，同时捕获相同数量的子帧。构造原型摄像机以在仪表秤上展示宏观干涉测量。

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《IEEE Conference on Computer Vision and Pattern Recognition》|2016年|893-902|共10页
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Achuta Kadambi; Jamie Schiel; Ramesh Raskar;
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Cameras; Frequency-domain analysis; Frequency modulation; Optical sensors; Optical imaging; Optical interferometry;

机译：相机;频域分析;频率调制;光学传感器;光学成像;光学干涉仪;
入库时间 2022-08-26 13:47:03

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3. Variational Fusion of Time-of-Flight and Stereo Data for Depth Estimation Using Edge-Selective Joint Filtering [J] . Baoliang Chen, Cheolkon Jung, Zhendong Zhang Multimedia, IEEE Transactions on . 2018,第11期

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4. Macroscopic Interferometry: Rethinking Depth Estimation with Frequency-Domain Time-of-Flight [C] . Achuta Kadambi, Jamie Schiel, Ramesh Raskar IEEE Conference on Computer Vision and Pattern Recognition . 2016

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Macroscopic Interferometry: Rethinking Depth Estimation with Frequency-Domain Time-of-Flight

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