Image motion in computer vision: Variational processing and experimental verification

计算机视觉中的图像运动：变分处理和实验验证

• 批准号: RGPIN-2015-03847
• 负责人: Mitiche, Amar
• 金额: $ 1.75万
• 依托单位: Institut national de la recherche scientifique
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=589419
• 关键词: Image; motion; computer; vision; Variational

The purpose of this research is to provide a common algorithmic framework under the variational paradigm of the fundamental subjects of image motion processing in computer vision. The subjects are motion estimation, detection, tracking, and three-dimensional interpretation. Motion estimation evaluates the optical velocity field from the image spatiotemporal variations. Motion detection determines the region in an image covered by the moving objects, i.e., it segments the image into a foreground of moving objects and its complement. Tracking is the process of following moving objects through an image sequence, and three-dimensional (3D) interpretation recovers the shape and motion of the objects in space which produced the image motion. Variational methods formulate problems from an optimization viewpoint, i.e., as the optimization of an objective functional which expresses all of the constraints that characterize the desired solution. As a result, they can compute very accurate solutions and do so efficiently. In spite of their manifest advantage, variational methods have not been systematically investigated in motion analysis as there are currently many important problems that have been addressed by traditional heuristic processing schemes. This research will investigate problems currently treated by non-variational methods but will also address important open problems. The investigations will consist of a variational analysis of each problem, which includes the design of the objective functional and an inquiry about efficient means of its optimization, such as parametric graph cuts and the calculus of variations via level sets. The resulting formulations will be verified by detailed comparative experimentation using image sequences from freely accessible databases dedicated to the validation of image motion processing algorithms. The anticipated outcome of this research is a unified body of efficient, easily usable, and well documented algorithms for motion analysis.

本研究的目的是为计算机视觉中图像运动处理的基本问题提供一个变分范式下的通用算法框架。主题是运动估计、检测、跟踪和三维解释。运动估计从图像的时空变化中估计光学速度场。运动检测确定图像中被运动对象覆盖的区域，即将图像分割成运动对象及其互补的前景。跟踪是通过图像序列跟踪运动对象的过程，三维(3D)解释恢复了产生图像运动的对象在空间中的形状和运动。变分方法从最优化的角度阐述问题，也就是说，作为目标泛函的最优化，它表达了表征期望解的所有约束。因此，他们可以计算非常准确的解，并且效率很高。尽管变分方法具有明显的优势，但在运动分析中尚未得到系统的研究，因为目前有许多重要的问题已经被传统的启发式处理方案所解决。这项研究将调查目前由非变分方法处理的问题，但也将解决重要的开放问题。研究将包括对每个问题的变分分析，其中包括目标泛函的设计和对其优化的有效方法的探讨，如参数图割和通过水平集的变分法。所得到的公式将通过使用来自用于验证图像运动处理算法的可免费访问的数据库的图像序列的详细比较实验来验证。这项研究的预期结果是一套统一的高效、易于使用和有据可查的运动分析算法。