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引用次数: 4
摘要
卷积神经网络(Convolutional Neural Networks, cnn)在静态图像的空间信息学习方面具有强大的能力,但在视频图像的动作识别中,由于忽略了长时运动信息而失去了识别能力。传统的三维卷积具有较高的计算复杂度,并且在网络底部使用的全局平均池化(Global Average Pooling, GAP)也会导致不必要的内容丢失或失真。为了解决上述问题,我们提出了一种新的动作识别算法,该算法通过有效融合2D和Pseudo-3D CNN来学习视频的时空特征。首先,我们使用Pseudo-3D CNN和所提出的多级池化模块来学习时空特征。其次,将多级池化模块输出的特征通过我们提出的处理模块进行处理,充分利用丰富的特征。第三,设计以运动矢量为馈源的二维CNN提取运动模式,作为伪三维CNN的补充,弥补RGB图像丢失的信息。第四,提出了一种基于依赖的多流特征融合方法。最后,在公开的UCF101和HMDB51数据集上验证了我们提出的动作识别算法的有效性。
A Spatio-temporal Hybrid Network for Action Recognition
Convolutional Neural Networks (CNNs) are powerful in learning spatial information for static images, while they appear to lose their abilities for action recognition in videos because of the neglecting of long-term motion information. Traditional 3D convolution has high computation complexity and the used Global Average Pooling (GAP) on the bottom of network can also lead to unwanted content loss or distortion. To address above problems, we propose a novel action recognition algorithm by effectively fusing 2D and Pseudo-3D CNN to learn spatio-temporal features of video. First, we use Pseudo-3D CNN with proposed Multi-level pooling module to learn spatio-temporal features. Second, the features output by multi-level pooling module are passed through our proposed processing module to make full use of the rich features. Third, a 2D CNN fed with motion vectors is designed to extract motion patterns, which can be regarded as a supplement of Pseudo-3D CNN to make up for the information lost by RGB images. Fourth, a dependency-based fusion method is proposed to fuse the multi-stream features. Finally, the effectiveness of our proposed action recognition algorithm is demonstrated on public UCF101 and HMDB51 datasets.
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