从云跟踪估计旋转

Sangwoo Cho, Enrique Dunn, Jan-Michael Frahm
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引用次数: 2

摘要

我们解决了由移动设备上的面向天空的相机捕获的流媒体视频的在线相对方向估计问题。也就是说,我们依赖于从云结构中获得的视觉特征的检测和跟踪。我们提出的方法通过在鲁棒性驱动的数据管理框架内结合实时视觉里程计模块、基于学习的特征分类和卡尔曼滤波,实现了鲁棒性和高效的操作,同时实现了移动设备上的帧率处理。相机和观察到的云特征之间相对较大的3D距离被用来简化我们的处理流程。首先,作为效率驱动的优化,我们采用了基于单应性的运动模型,并专注于估计相邻关键帧之间的相对旋转。为此,我们依靠高效的特征提取、KLT跟踪和基于RANSAC的模型拟合。其次,为了保证简化的运动模型的有效性,我们通过SVM分类将检测到的云特征从场景特征中分离出来。最后,为了提高跟踪的鲁棒性,我们采用预测卡尔曼滤波,通过临时遮挡实现特征的持久性,并管理特征的空间分布,以增强跟踪的鲁棒性。结果证明了该方法的准确性和鲁棒性,并突出了其作为无源定向传感器的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rotation estimation from cloud tracking
We address the problem of online relative orientation estimation from streaming video captured by a sky-facing camera on a mobile device. Namely, we rely on the detection and tracking of visual features attained from cloud structures. Our proposed method achieves robust and efficient operation by combining realtime visual odometry modules, learning based feature classification, and Kalman filtering within a robustness-driven data management framework, while achieving framerate processing on a mobile device. The relatively large 3D distance between the camera and the observed cloud features is leveraged to simplify our processing pipeline. First, as an efficiency driven optimization, we adopt a homography based motion model and focus on estimating relative rotations across adjacent keyframes. To this end, we rely on efficient feature extraction, KLT tracking, and RANSAC based model fitting. Second, to ensure the validity of our simplified motion model, we segregate detected cloud features from scene features through SVM classification. Finally, to make tracking more robust, we employ predictive Kalman filtering to enable feature persistence through temporary occlusions and manage feature spatial distribution to foster tracking robustness. Results exemplify the accuracy and robustness of the proposed approach and highlight its potential as a passive orientation sensor.
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