Adaptive dynamic range imaging: optical control of pixel exposures over space and time

Proceedings Ninth IEEE International Conference on Computer Vision Pub Date : 2003-10-13 DOI:10.1109/ICCV.2003.1238624

S. Nayar, Vlad Branzoi

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引用次数: 213

Abstract

This paper presents a new approach to imaging that significantly enhances the dynamic range of a camera. The key idea is to adapt the exposure of each pixel on the image detector, based on the radiance value of the corresponding scene point. This adaptation is done in the optical domain, that is, during image formation. In practice, this is achieved using a spatial light modulator whose transmittance can be varied with high resolution over space and time. A real-time control algorithm is developed that uses acquired images to automatically adjust the transmittance function of the spatial modulator. Each captured image and its corresponding transmittance function are used to compute a very high dynamic range image that is linear in scene radiance. We have implemented a video-rate adaptive dynamic range camera that consists of a color CCD detector and a controllable liquid crystal light modulator. Experiments have been conducted in scenarios with complex and harsh lighting conditions. The results indicate that adaptive imaging can have a significant impact on vision applications such as monitoring, tracking, recognition, and navigation.

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自适应动态范围成像:像素曝光随时间和空间的光学控制

本文提出了一种新的成像方法，可以显著提高相机的动态范围。其关键思想是根据相应场景点的亮度值来调整图像检测器上每个像素的曝光。这种自适应是在光学领域，即在图像形成期间进行的。在实践中，这是通过空间光调制器实现的，该空间光调制器的透射率可以随空间和时间的高分辨率而变化。提出了一种利用采集到的图像自动调节空间调制器透射率函数的实时控制算法。每个捕获的图像和其相应的透射率函数被用来计算一个非常高的动态范围图像是线性的场景辐射。我们实现了一种视频速率自适应动态范围摄像机，该摄像机由彩色CCD探测器和可控液晶光调制器组成。在复杂和恶劣的光照条件下进行了实验。结果表明，自适应成像技术在视觉监控、跟踪、识别和导航等领域具有重要的应用价值。

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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Proceedings Ninth IEEE International Conference on Computer Vision

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