Robust finger tracking for wearable computer interfacing

Workshop on Perceptive User Interfaces Pub Date : 2001-11-15 DOI:10.1145/971478.971516

S. M. Dominguez, T. Keaton, A. H. Sayed

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引用次数: 26

Abstract

Key to the design of human-machine gesture interface applications is the ability of the machine to quickly and efficiently identify and track the hand movements of its user. In a wearable computer system equipped with head-mounted cameras, this task is extremely difficult due to the uncertain camera motion caused by the user's head movement, the user standing still then randomly walking, and the user's hand or pointing finger abruptly changing directions at variable speeds. This paper presents a tracking methodology based on a robust state-space estimation algorithm, which attempts to control the influence of uncertain environment conditions on the system's performance by adapting the tracking model to compensate for the uncertainties inherent in the data. Our system tracks a user's pointing gesture from a single head mounted camera, to allow the user to encircle an object of interest, thereby coarsely segmenting the object. The snapshot of the object is then passed to a recognition engine for identification, and retrieval of any pre-stored information regarding the object. A comparison of our robust tracker against a plain Kalman tracker showed a 15% improvement in the estimated position error, and exhibited a faster response time.

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用于可穿戴计算机接口的鲁棒手指跟踪

人机手势界面应用程序设计的关键是机器能够快速有效地识别和跟踪用户的手部运动。在配备头戴式摄像头的可穿戴计算机系统中，由于用户头部运动引起的摄像机运动不确定，用户静止不动然后随机行走，以及用户的手或指向的手指以可变速度突然改变方向，因此这项任务非常困难。本文提出了一种基于鲁棒状态空间估计算法的跟踪方法，该方法通过调整跟踪模型来补偿数据中固有的不确定性，从而控制不确定环境条件对系统性能的影响。我们的系统通过单个头戴式摄像头跟踪用户的指向手势，允许用户围绕感兴趣的对象，从而粗略地分割对象。然后将对象的快照传递给识别引擎进行识别，并检索有关该对象的任何预先存储的信息。我们的鲁棒跟踪器与普通卡尔曼跟踪器的比较表明，估计位置误差提高了15%，并表现出更快的响应时间。

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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Workshop on Perceptive User Interfaces

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