Swimmer Localization from a Moving Camera

2013 International Conference on Digital Image Computing: Techniques and Applications (DICTA) Pub Date : 2013-12-23 DOI:10.1109/DICTA.2013.6691533

Long Sha, P. Lucey, S. Morgan, D. Pease, S. Sridharan

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引用次数: 16

Abstract

At the highest level of competitive sport, nearly all performances of athletes (both training and competitive) are chronicled using video. Video is then often viewed by expert coaches/analysts who then manually label important performance indicators to gauge performance. Stroke-rate and pacing are important performance measures in swimming, and these are previously digitised manually by a human. This is problematic as annotating large volumes of video can be costly, and time-consuming. Further, since it is difficult to accurately estimate the position of the swimmer at each frame, measures such as stroke rate are generally aggregated over an entire swimming lap. Vision-based techniques which can automatically, objectively and reliably track the swimmer and their location can potentially solve these issues and allow for large-scale analysis of a swimmer across many videos. However, the aquatic environment is challenging due to fluctuations in scene from splashes, reflections and because swimmers are frequently submerged at different points in a race. In this paper, we temporally segment races into distinct and sequential states, and propose a multimodal approach which employs individual detectors tuned to each race state. Our approach allows the swimmer to be located and tracked smoothly in each frame despite a diverse range of constraints. We test our approach on a video dataset compiled at the 2012 Australian Short Course Swimming Championships.

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移动摄像机对游泳者的定位

在最高水平的竞技运动中，几乎所有运动员的表现(包括训练和竞技)都使用视频记录。视频通常由专业教练/分析师观看，然后他们手动标记重要的绩效指标来衡量绩效。泳速和起搏是游泳中重要的表现指标，以前都是人工数字化的。这是有问题的，因为注释大量视频既昂贵又耗时。此外，由于很难准确地估计游泳者在每一帧中的位置，诸如划水率之类的测量通常是在整个游泳圈中汇总的。基于视觉的技术可以自动、客观、可靠地跟踪游泳者及其位置，可以潜在地解决这些问题，并允许在许多视频中对游泳者进行大规模分析。然而，由于溅起的水花、反射的波动，以及游泳者在比赛中经常在不同的地点被淹没，水环境是具有挑战性的。在本文中，我们暂时将竞赛划分为不同的连续状态，并提出了一种多模态方法，该方法使用针对每个竞赛状态调整的单个检测器。我们的方法允许游泳者在每一帧中被定位和跟踪，尽管有各种各样的限制。我们在2012年澳大利亚短池游泳锦标赛的视频数据集上测试了我们的方法。

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 International Conference on Digital Image Computing: Techniques and Applications (DICTA)

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