Context-aware activity recognition by Markov logic networks of trained weights

2010 16th International Conference on Virtual Systems and Multimedia Pub Date : 2010-12-13 DOI:10.1109/VSMM.2010.5665974

Gowun Jeong, H. Yang

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引用次数: 7

Abstract

One of the general objectives of visual surveillance is to recognise abnormal activities from images. Current object detection/tracking techniques cannot directly classify such activities as fighting and snatching, while they reliably recognise primitive actions, such as walking and running. We represent each target activity as ground, weighted and undirected trees, Markov logic networks (MLNs), starting with primitive actions at the bottom and activities on top, using Horn clauses. The likelihood of one ground activity at root gives a reliable probability that the event actually happens. Computing such a probability could be intractable unless the truth values of all the nodes in a given network are known in advance. This study proposes two methods to infer such unknown values in exploitative and explorative manners. An additional modification of MLNs is also considered to improve accuracy of recognition. The experiments by means of unknown value inference methods and modification of MLNs present that these approaches overcome several well-known limitations that the conventional researches have experienced.

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基于训练权值的马尔可夫逻辑网络的情境感知活动识别

视觉监控的一般目标之一是从图像中识别异常活动。当前的目标检测/跟踪技术不能直接将这些活动分类为战斗和抢夺，而它们可以可靠地识别原始动作，如行走和跑步。我们将每个目标活动表示为地面，加权和无向树，马尔可夫逻辑网络(mln)，从底部的原始动作和顶部的活动开始，使用Horn子句。一次地面活动的可能性给出了事件实际发生的可靠概率。除非事先知道给定网络中所有节点的真值，否则计算这样的概率可能很难。本研究提出了两种方法，以开发和探索的方式来推断这些未知的价值。为了提高识别的准确性，还考虑了对mln进行额外的修改。利用未知值推理方法和修正mln的实验表明，这些方法克服了传统研究中存在的几个众所周知的局限性。

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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2010 16th International Conference on Virtual Systems and Multimedia

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