Prior-Less Compressible Structure from Motion

Chen Kong, S. Lucey
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引用次数: 50

Abstract

Many non-rigid 3D structures are not modelled well through a low-rank subspace assumption. This is problematic when it comes to their reconstruction through Structure from Motion (SfM). We argue in this paper that a more expressive and general assumption can be made around compressible 3D structures. The vision community, however, has hitherto struggled to formulate effective strategies for recovering such structures after projection without the aid of additional priors (e.g. temporal ordering, rigid substructures, etc.). In this paper we present a "prior-less" approach to solve compressible SfM. Specifically, we demonstrate how the problem of SfM - assuming compressible 3D structures - can be theoretically characterized as a block sparse dictionary learning problem. We validate our approach experimentally by demonstrating reconstructions of 3D structures that are intractable using current state-of-theart low-rank SfM approaches.
运动中的无先验可压缩结构
许多非刚性三维结构不能通过低秩子空间假设很好地建模。当涉及到通过运动结构(SfM)重建时,这是有问题的。在本文中,我们认为可以围绕可压缩3D结构做出更具表现力和一般性的假设。然而,迄今为止,视觉界一直在努力制定有效的策略,在没有额外先验(例如时间顺序,刚性子结构等)的帮助下,在投影后恢复这些结构。本文提出了一种求解可压缩SfM的“无先验”方法。具体来说,我们演示了如何将SfM问题(假设可压缩3D结构)在理论上表征为块稀疏字典学习问题。我们通过实验验证了我们的方法,展示了使用当前最先进的低秩SfM方法难以处理的3D结构的重建。
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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