Long exposure localization in darkness using consumer cameras

2013 IEEE International Conference on Robotics and Automation Pub Date : 2013-05-06 DOI:10.1109/ICRA.2013.6631105

Michael Milford, I. Turner, Peter Corke

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引用次数: 20

Abstract

In this paper we demonstrate passive vision-based localization in environments more than two orders of magnitude darker than the current benchmark using a $100 webcam and a $500 camera. Our approach uses the camera's maximum exposure duration and sensor gain to achieve appropriately exposed images even in unlit night-time environments, albeit with extreme levels of motion blur. Using the SeqSLAM algorithm, we first evaluate the effect of variable motion blur caused by simulated exposures of 132 ms to 10000 ms duration on localization performance. We then use actual long exposure camera datasets to demonstrate day-night localization in two different environments. Finally we perform a statistical analysis that compares the baseline performance of matching unprocessed grayscale images to using patch normalization and local neighborhood normalization - the two key SeqSLAM components. Our results and analysis show for the first time why the SeqSLAM algorithm is effective, and demonstrate the potential for cheap camera-based localization systems that function across extreme perceptual change.

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使用消费类相机在黑暗中的长曝光定位

在本文中，我们使用100美元的网络摄像头和500美元的摄像头演示了在比当前基准暗两个数量级以上的环境中基于被动视觉的定位。我们的方法使用相机的最大曝光持续时间和传感器增益，即使在没有光线的夜间环境中也能获得适当曝光的图像，尽管有极端程度的运动模糊。利用SeqSLAM算法，我们首先评估了在132 ms到10000 ms的模拟曝光时间下，可变运动模糊对定位性能的影响。然后，我们使用实际的长曝光相机数据集来演示两种不同环境下的昼夜定位。最后，我们进行了统计分析，比较了使用补丁归一化和局部邻域归一化(两个关键的SeqSLAM组件)匹配未处理灰度图像的基线性能。我们的结果和分析首次展示了为什么SeqSLAM算法是有效的，并展示了在极端感知变化下运行的基于相机的廉价定位系统的潜力。

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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2013 IEEE International Conference on Robotics and Automation

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