利用自适应直方图感兴趣区域进行可穿戴相机视频中的手轮廓检测。

Hand contour detection in wearable camera video using an adaptive histogram region of interest.

机构信息

Toronto Rehabilitation Institute, University Health Network, 550 University Avenue, #12-102, Toronto M5G 2A2, Ontario, Canada.

出版信息

J Neuroeng Rehabil. 2013 Dec 19;10:114. doi: 10.1186/1743-0003-10-114.

DOI:10.1186/1743-0003-10-114

PMID:24354542

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3878238/

Abstract

BACKGROUND

Monitoring hand function at home is needed to better evaluate the effectiveness of rehabilitation interventions. Our objective is to develop wearable computer vision systems for hand function monitoring. The specific aim of this study is to develop an algorithm that can identify hand contours in video from a wearable camera that records the user's point of view, without the need for markers.

METHODS

The two-step image processing approach for each frame consists of: (1) Detecting a hand in the image, and choosing one seed point that lies within the hand. This step is based on a priori models of skin colour. (2) Identifying the contour of the region containing the seed point. This is accomplished by adaptively determining, for each frame, the region within a colour histogram that corresponds to hand colours, and backprojecting the image using the reduced histogram.

RESULTS

In four test videos relevant to activities of daily living, the hand detector classification accuracy was 88.3%. The contour detection results were compared to manually traced contours in 97 test frames, and the median F-score was 0.86.

CONCLUSION

This algorithm will form the basis for a wearable computer-vision system that can monitor and log the interactions of the hand with its environment.

摘要

背景

在家中监测手部功能对于更好地评估康复干预措施的效果非常重要。我们的目标是开发用于手部功能监测的可穿戴计算机视觉系统。本研究的具体目的是开发一种算法，该算法可以在不使用标记的情况下，从可穿戴摄像机记录用户视角的视频中识别出手部轮廓。

方法

每帧的两步图像处理方法包括：（1）在图像中检测到手，并选择位于手内的一个种子点。此步骤基于肤色的先验模型。（2）识别包含种子点的区域的轮廓。这是通过为每一帧自适应地确定对应于手部颜色的颜色直方图内的区域，然后使用简化的直方图进行图像反投影来完成的。

结果

在与日常生活活动相关的四个测试视频中，手检测器的分类准确率为 88.3%。在 97 个测试帧中，将轮廓检测结果与手动追踪的轮廓进行了比较，中位数 F 分数为 0.86。

结论

该算法将成为一种可穿戴计算机视觉系统的基础，该系统可以监测和记录手与环境的交互情况。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff3/3878238/7826f448f83b/1743-0003-10-114-1.jpg

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利用自适应直方图感兴趣区域进行可穿戴相机视频中的手轮廓检测。

Hand contour detection in wearable camera video using an adaptive histogram region of interest.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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