从无对应的卫星图像序列中提取飓风的非刚体运动和三维结构

Lin Zhou, C. Kambhamettu, Dmitry Goldgof
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引用次数: 31

摘要

通过气象卫星(GOES-8和GOES-9)捕获飓风路易斯的图像序列用于估计飓风顶部高度(结构)和飓风风(运动)。这个问题之所以困难,不仅是因为缺乏对应关系,还因为在二维飓风图像(比例正射影)中缺乏深度线索。在本文中,我们提出了一个结构和运动分析系统,称为SMAS。在这个系统中,飓风图像首先被分割成小的方形区域。我们假设每个小区域都在进行类似的非刚性运动。首先定义了适合云运动的非刚体运动模型。然后,采用非线性最小二乘法拟合各区域的非刚体运动模型,以估计结构、运动模型和三维非刚体运动对应关系。最后,给出了恢复的飓风顶高和风速,并进行了误差分析。结构和三维运动对应估计到亚像素精度。我们的研究结果非常鼓舞人心,在地球和空间科学领域有许多潜在的应用,特别是在天气预报的云模型方面。
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Extracting nonrigid motion and 3D structure of hurricanes from satellite image sequences without correspondences
Image sequences capturing Hurricane Luis through meteorological satellites (GOES-8 and GOES-9) are used to estimate hurricane-top heights (structure) and hurricane winds (motion). This problem is difficult not only due to the absence of correspondence but also due to the lack of depth cues in the 2D hurricane images (scaled orthographic projection). In this paper, we present a structure and motion analysis system, called SMAS. In this system, the hurricane images are first segmented into small square areas. We assume that each small area is undergoing similar nonrigid motion. A suitable nonrigid motion model for cloud motion is first defined. Then, non-linear least-square method is used to fit the nonrigid motion model for each area in order to estimate the structure, motion model, and 3D nonrigid motion correspondences. Finally, the recovered hurricane-top heights and winds are presented along with an error analysis. Both structure and 3D motion correspondences are estimated to subpixel accuracy. Our results are very encouraging, and have many potential applications in earth and space sciences, especially in cloud models for weather prediction.
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