A high dynamic range imaging algorithm: implementation and evaluation

Science and Technology Development Journal Pub Date : 2019-08-07 DOI:10.32508/STDJ.V22I3.871

Vu Hong Son

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Abstract

Camera specifications have become smaller and smaller, accompanied with great strides in technology and thinner product demands, which have led to some challenges and problems. One of those problems is that the image quality is reduced at the same time. The decrement of radius lens is also a cause leading to the sensor not absorbing a sufficient amount of light, resulting in captured images which include more noise. Moreover, current image sensors cannot preserve whole dynamic range in the real world. This paper proposes a Histogram Based Exposure Time Selection (HBETS) method to automatically adjust the proper exposure time of each lens for different scenes. In order to guarantee at least two valid reference values for High Dynamic Range (HDR) image processing, we adopt the proposed weighting function that restrains random distributed noise caused by micro-lens and produces a high quality HDR image. In addition, an integrated tone mapping methodology, which keeps all details in bright and dark parts when compressing the HDR image to Low Dynamic Range (LDR) image for display on monitors, is also proposed. Eventually, we implement the entire system on Adlink MXC-6300 platform that can reach 10 fps to demonstrate the feasibility of the proposed technology.

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一种高动态范围成像算法:实现与评价

相机的规格越来越小，伴随着技术的进步，产品的需求越来越薄，这也带来了一些挑战和问题。其中一个问题是图像质量同时降低。半径透镜的衰减也是导致传感器不能吸收足够的光的一个原因，导致捕获的图像包含更多的噪声。此外，目前的图像传感器在现实世界中无法保持整个动态范围。本文提出了一种基于直方图的曝光时间选择(HBETS)方法，用于自动调整每个镜头在不同场景下的适当曝光时间。为了保证高动态范围(High Dynamic Range, HDR)图像处理至少有两个有效的参考值，我们采用了所提出的加权函数来抑制微透镜引起的随机分布噪声，从而产生高质量的HDR图像。此外，还提出了一种将HDR图像压缩为低动态范围(LDR)图像用于显示器显示时，保留所有细节在明暗部分的综合色调映射方法。最后，我们在Adlink MXC-6300平台上实现了整个系统，速度达到10fps，以验证所提出技术的可行性。

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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Science and Technology Development Journal

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