Event Detection in Complex Scenes Using Interval Temporal Constraints

Yifan Zhang, Q. Ji, Hanqing Lu
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引用次数: 5

Abstract

In complex scenes with multiple atomic events happening sequentially or in parallel, detecting each individual event separately may not always obtain robust and reliable result. It is essential to detect them in a holistic way which incorporates the causality and temporal dependency among them to compensate the limitation of current computer vision techniques. In this paper, we propose an interval temporal constrained dynamic Bayesian network to extend Allen's interval algebra network (IAN) [2] from a deterministic static model to a probabilistic dynamic system, which can not only capture the complex interval temporal relationships, but also model the evolution dynamics and handle the uncertainty from the noisy visual observation. In the model, the topology of the IAN on each time slice and the interlinks between the time slices are discovered by an advanced structure learning method. The duration of the event and the unsynchronized time lags between two correlated event intervals are captured by a duration model, so that we can better determine the temporal boundary of the event. Empirical results on two real world datasets show the power of the proposed interval temporal constrained model.
基于间隔时间约束的复杂场景事件检测
在多个原子事件顺序或并行发生的复杂场景中,单独检测每个事件可能并不总是得到鲁棒可靠的结果。为了弥补当前计算机视觉技术的局限性,必须综合考虑它们之间的因果关系和时间依赖性,以整体的方式对它们进行检测。本文提出了一种区间时间约束的动态贝叶斯网络,将Allen的区间代数网络(IAN)[2]从确定性静态模型扩展到概率动态系统,不仅可以捕获复杂的区间时间关系,还可以建模进化动力学并处理来自噪声视觉观察的不确定性。在该模型中,通过一种先进的结构学习方法发现了每个时间片上IAN的拓扑结构和时间片之间的相互联系。持续时间模型捕获事件的持续时间和两个相关事件间隔之间的不同步时间滞后,以便我们更好地确定事件的时间边界。在两个真实世界数据集上的经验结果显示了所提出的区间时间约束模型的强大功能。
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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