用于人体运动识别的分层运动历史图像

Proceedings IEEE Workshop on Detection and Recognition of Events in Video Pub Date : 2001-07-08 DOI:10.1109/EVENT.2001.938864

James W. Davis

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引用次数: 206

摘要

人们对计算机对人体运动的分析和识别越来越感兴趣。之前，我们提出了一种使用紧凑的“运动历史图像”(MHI)来表示人体运动的有效实时方法。通过统计匹配基于矩的特征来实现识别。为了解决先前与全局分析和有限识别相关的问题，我们提出了原始MHI框架的分层扩展，以直接从MHI计算密集(局部)运动流。在MHI金字塔中，通过速度对运动进行分层划分，可以使用固定大小的梯度算子有效地计算图像运动。为了描述产生的运动场，描述了运动方向的极直方图。分层MHI方法仍然是一种计算成本低廉的人体运动分析方法。

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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Hierarchical motion history images for recognizing human motion

There has been increasing interest in computer analysis and recognition of human motion. Previously we presented an efficient real-time approach for representing human motion using a compact "motion history image" (MHI). Recognition was achieved by statistically matching moment-based features. To address previous problems related to global analysis and limited recognition, we present a hierarchical extension to the original MHI framework to compute dense (local) motion flow directly from the MHI. A hierarchical partitioning of motions by speed in an MHI pyramid enables efficient calculation of image motions using fixed-size gradient operators. To characterize the resulting motion field, a polar histogram of motion orientations is described. The hierarchical MHI approach remains a computationally inexpensive method for analysis of human motions.

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Proceedings IEEE Workshop on Detection and Recognition of Events in Video

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