Abstract
Behavior recognition has applications in automatic crime monitoring, automatic sports video analysis, and context awareness of so-called silver robots. In this study, we employ deep learning to recognize behavior based on body and hand–object interaction regions of interest (ROIs). We propose an ROI-based four-stream ensemble convolutional neural network (CNN). Behavior recognition data are mainly composed of images and skeletons. The first stream uses a pre-trained 2D-CNN by converting the 3D skeleton sequence into pose evolution images (PEIs). The second stream inputs the RGB video into the 3D-CNN to extract temporal and spatial features. The most important information in behavior recognition is identification of the person performing the action. Therefore, if the neural network is trained by removing ambient noise and placing the ROI on the person, feature analysis can be performed by focusing on the behavior itself rather than learning the entire region. Therefore, the third stream inputs the RGB video limited to the body-ROI into the 3D-CNN. The fourth stream inputs the RGB video limited to ROIs of hand–object interactions into the 3D-CNN. Finally, because better performance is expected by combining the information of the models trained with attention to these ROIs, better recognition will be possible through late fusion of the four stream scores. The Electronics and Telecommunications Research Institute (ETRI)-Activity3D dataset was used for the experiments. This dataset contains color images, images of skeletons, and depth images of 55 daily behaviors of 50 elderly and 50 young individuals. The experimental results showed that the proposed model improved recognition by at least 4.27% and up to 20.97% compared to other behavior recognition methods.
Highlights
In modern society, it is possible to preserve health by restoring age-deteriorated bodily functions to a certain level through technologies including medicine and engineering.Advances in these technologies have led to an increase in life expectancy and subsequently a rise in the elderly population
The importance of research on behavior recognition as a core technology is increasing with the increase in the need for silver robots to solve the problem of elderly care due to the aging society
Behavior recognition data is mainly composed of images and skeletons, and better recognition performance can be expected by combining the analysis of data with different features
Summary
It is possible to preserve health by restoring age-deteriorated bodily functions to a certain level through technologies including medicine and engineering Advances in these technologies have led to an increase in life expectancy and subsequently a rise in the elderly population. Because caring for the elderly is repetitive labor and difficult depending on the situation, society and the government have been working on research and development for home service “silver robots” to replace humans in this work Because the environment these robots face is complex, unlike the simple movement of factory manufacturing robots, silver robots require advanced artificial intelligence technology to respond appropriately to the aged [6,7,8,9,10]
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