用于动作预测的时空特征残差传播

He Zhao, Richard P. Wildes
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引用次数: 31

摘要

从有限的初步录像观察中识别行动最近取得了相当大的进展。然而,这种进展通常没有明确地将细粒度运动演化作为潜在有价值的信息源进行建模。在本研究中,我们通过研究动作模式在空间特征空间中如何随时间演变来解决这一任务。我们的系统有三个关键组成部分。首先,我们使用中间层卷积神经网络特征,它允许从原始数据中抽象,同时保留空间布局,这在依赖矢量化全局表示的方法中是牺牲的。其次,我们不是传播特征本身,而是传播它们的残差,这允许一个紧凑的表示,减少冗余,同时保留随时间演变的基本信息。第三,我们使用卡尔曼滤波器来对抗误差累积并统一各个预测开始时间。在JHMDB21、UCF101和BIT数据集上的大量实验结果表明,我们的方法导致了一种新的最先进的行动预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatiotemporal Feature Residual Propagation for Action Prediction
Recognizing actions from limited preliminary video observations has seen considerable recent progress. Typically, however, such progress has been had without explicitly modeling fine-grained motion evolution as a potentially valuable information source. In this study, we address this task by investigating how action patterns evolve over time in a spatial feature space. There are three key components to our system. First, we work with intermediate-layer ConvNet features, which allow for abstraction from raw data, while retaining spatial layout, which is sacrificed in approaches that rely on vectorized global representations. Second, instead of propagating features per se, we propagate their residuals across time, which allows for a compact representation that reduces redundancy while retaining essential information about evolution over time. Third, we employ a Kalman filter to combat error build-up and unify across prediction start times. Extensive experimental results on the JHMDB21, UCF101 and BIT datasets show that our approach leads to a new state-of-the-art in action prediction.
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