High resolution multispectral video capture with a hybrid camera system

CVPR 2011 Pub Date : 2011-06-20 DOI:10.1109/CVPR.2011.5995418

Xun Cao, Xin Tong, Qionghai Dai, Stephen Lin

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引用次数: 72

Abstract

We present a new approach to capture video at high spatial and spectral resolutions using a hybrid camera system. Composed of an RGB video camera, a grayscale video camera and several optical elements, the hybrid camera system simultaneously records two video streams: an RGB video with high spatial resolution, and a multispectral video with low spatial resolution. After registration of the two video streams, our system propagates the multispectral information into the RGB video to produce a video with both high spectral and spatial resolution. This propagation between videos is guided by color similarity of pixels in the spectral domain, proximity in the spatial domain, and the consistent color of each scene point in the temporal domain. The propagation algorithm is designed for rapid computation to allow real-time video generation at the original frame rate, and can thus facilitate real-time video analysis tasks such as tracking and surveillance. Hardware implementation details and design tradeoffs are discussed. We evaluate the proposed system using both simulations with ground truth data and on real-world scenes. The utility of this high resolution multispectral video data is demonstrated in dynamic white balance adjustment and tracking.

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高分辨率多光谱视频捕获与混合相机系统

我们提出了一种新的方法来捕捉视频在高空间和光谱分辨率使用混合相机系统。混合摄像机系统由一个RGB摄像机、一个灰度摄像机和几个光学元件组成，同时记录两个视频流:高空间分辨率的RGB视频和低空间分辨率的多光谱视频。系统对两种视频流进行配准后，将多光谱信息传播到RGB视频中，生成具有高光谱分辨率和高空间分辨率的视频。视频之间的传播是由像素在光谱域的颜色相似度、空间域的接近度以及每个场景点在时域的一致颜色来指导的。传播算法旨在快速计算，以原始帧速率实时生成视频，从而方便跟踪和监控等实时视频分析任务。讨论了硬件实现细节和设计权衡。我们使用地面真实数据和真实场景的模拟来评估所提出的系统。该高分辨率多光谱视频数据在动态白平衡调整和跟踪中的应用得到了验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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CVPR 2011

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