Progressively Parsing Interactional Objects for Fine Grained Action Detection

Bingbing Ni, Xiaokang Yang, Shenghua Gao
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引用次数: 75

Abstract

Fine grained video action analysis often requires reliable detection and tracking of various interacting objects and human body parts, denoted as Interactional Object Parsing. However, most of the previous methods based on either independent or joint object detection might suffer from high model complexity and challenging image content, e.g., illumination/pose/appearance/scale variation, motion, and occlusion etc. In this work, we propose an end-to-end system based on recurrent neural network to perform frame by frame interactional object parsing, which can alleviate the difficulty through an incremental/progressive manner. Our key innovation is that: instead of jointly outputting all object detections at once, for each frame we use a set of long-short term memory (LSTM) nodes to incrementally refine the detections. After passing through each LSTM node, more object detections are consolidated and thus more contextual information could be utilized to localize more difficult objects. The object parsing results are further utilized to form object specific action representation for fine grained action detection. Extensive experiments on two benchmark fine grained activity datasets demonstrate that our proposed algorithm achieves better interacting object detection performance, which in turn boosts the action recognition performance over the state-of-the-art.
逐步解析交互对象以实现细粒度动作检测
细粒度视频动作分析通常需要对各种交互对象和人体部位进行可靠的检测和跟踪,称为交互对象解析。然而,之前的大多数基于独立或联合目标检测的方法可能会受到模型复杂性高和具有挑战性的图像内容的影响,例如照明/姿势/外观/比例变化,运动和遮挡等。在这项工作中,我们提出了一个基于递归神经网络的端到端系统来执行逐帧交互对象解析,可以通过增量/渐进的方式减轻困难。我们的关键创新在于:我们使用一组长短期记忆(LSTM)节点来逐步改进检测,而不是一次联合输出所有目标检测。在通过每个LSTM节点后,更多的对象检测被整合,从而可以利用更多的上下文信息来定位更困难的对象。进一步利用对象解析结果形成对象特定的动作表示,用于细粒度动作检测。在两个基准细粒度活动数据集上的大量实验表明,我们提出的算法实现了更好的交互目标检测性能,从而提高了最先进的动作识别性能。
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