摘要翻译：
光场保存角度信息，可以重新调整到多面板深度显示。由于许多光场捕获系统的孔径大小有限和空间-角度采样受限，所显示的光场只能提供一个狭窄的视差视区。此外，多面板显示器通常具有能够粗采样深度内容的减少的面板数量，从而导致光场的分层外观。我们提出了一种用于多面板显示器的光场重定向技术，该技术增强了可感知的视差，并实现了在不同深度和视角下的无缝转换。这是通过切片捕获的光场根据他们的深度内容，提高视差，并混合结果跨面板。所显示的视图被合成并根据查看者的位置动态对齐。本文对该技术进行了概述、仿真，并在一个三面天线显示器上进行了实验验证。
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英文标题：
《Light Field Retargeting for Multi-Panel Displays》
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作者：
Basel Salahieh, Seth Hunter, Yi Wu, Oscar Nestares
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最新提交年份：
2017
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分类信息：

一级分类：Electrical Engineering and Systems Science        电气工程与系统科学
二级分类：Image and Video Processing        图像和视频处理
分类描述：Theory, algorithms, and architectures for the formation, capture, processing, communication, analysis, and display of images, video, and multidimensional signals in a wide variety of applications. Topics of interest include: mathematical, statistical, and perceptual image and video modeling and representation; linear and nonlinear filtering, de-blurring, enhancement, restoration, and reconstruction from degraded, low-resolution or tomographic data; lossless and lossy compression and coding; segmentation, alignment, and recognition; image rendering, visualization, and printing; computational imaging, including ultrasound, tomographic and magnetic resonance imaging; and image and video analysis, synthesis, storage, search and retrieval.
用于图像、视频和多维信号的形成、捕获、处理、通信、分析和显示的理论、算法和体系结构。感兴趣的主题包括：数学，统计，和感知图像和视频建模和表示；线性和非线性滤波、去模糊、增强、恢复和重建退化、低分辨率或层析数据；无损和有损压缩编码；分割、对齐和识别；图像渲染、可视化和打印；计算成像，包括超声、断层和磁共振成像；以及图像和视频的分析、合成、存储、搜索和检索。
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英文摘要：
  Light fields preserve angular information which can be retargeted to multi-panel depth displays. Due to limited aperture size and constrained spatial-angular sampling of many light field capture systems, the displayed light fields provide only a narrow viewing zone in which parallax views can be supported. In addition, multi-panel displays typically have a reduced number of panels being able to coarsely sample depth content resulting in a layered appearance of light fields. We propose a light field retargeting technique for multi-panel displays that enhances the perceived parallax and achieves seamless transition over different depths and viewing angles. This is accomplished by slicing the captured light fields according to their depth content, boosting the parallax, and blending the results across the panels. Displayed views are synthesized and aligned dynamically according to the position of the viewer. The proposed technique is outlined, simulated and verified experimentally on a three-panel aerial display.
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PDF链接：
https://arxiv.org/pdf/1710.02167