Deep Learning for Generating Time-of-Flight Camera Artifacts.

IF 2.7 Q3 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY Journal of Imaging Pub Date : 2024-10-08 DOI:10.3390/jimaging10100246
Tobias Müller, Tobias Schmähling, Stefan Elser, Jörg Eberhardt
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Abstract

Time-of-Flight (ToF) cameras are subject to high levels of noise and errors due to Multi-Path-Interference (MPI). To correct these errors, algorithms and neuronal networks require training data. However, the limited availability of real data has led to the use of physically simulated data, which often involves simplifications and computational constraints. The simulation of such sensors is an essential building block for hardware design and application development. Therefore, the simulation data must capture the major sensor characteristics. This work presents a learning-based approach that leverages high-quality laser scan data to generate realistic ToF camera data. The proposed method employs MCW-Net (Multi-Level Connection and Wide Regional Non-Local Block Network) for domain transfer, transforming laser scan data into the ToF camera domain. Different training variations are explored using a real-world dataset. Additionally, a noise model is introduced to compensate for the lack of noise in the initial step. The effectiveness of the method is evaluated on reference scenes to quantitatively compare to physically simulated data.

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用于生成飞行时间相机伪影的深度学习。
飞行时间(ToF)照相机受到多路径干扰(MPI)的影响,会产生高水平的噪声和误差。为了纠正这些误差,算法和神经元网络需要训练数据。然而,由于真实数据的可用性有限,人们不得不使用物理模拟数据,这往往涉及简化和计算限制。此类传感器的仿真是硬件设计和应用开发的重要组成部分。因此,模拟数据必须能捕捉到传感器的主要特征。本研究提出了一种基于学习的方法,利用高质量激光扫描数据生成真实的 ToF 相机数据。该方法采用 MCW-Net(多级连接和宽区域非局部块网络)进行域转移,将激光扫描数据转换为 ToF 相机域。利用真实世界的数据集探索了不同的训练变化。此外,还引入了一个噪声模型,以弥补初始步骤中噪声的不足。在参考场景上对该方法的有效性进行了评估,以便与物理模拟数据进行定量比较。
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来源期刊
Journal of Imaging
Journal of Imaging Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
5.90
自引率
6.20%
发文量
303
审稿时长
7 weeks
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