Human object interaction (HOI) recognition plays an important role in the designing of surveillance and monitoring systems for healthcare, sports, education, and public areas. It involves localizing the human and object targets and then identifying the interactions between them. However, it is a challenging task that highly depends on the extraction of robust and distinctive features from the targets and the use of fast and efficient classifiers. Hence, the proposed system offers an automated body-parts-based solution for HOI recognition. This system uses RGB (red, green, blue) images as input and segments the desired parts of the images through a segmentation technique based on the watershed algorithm. Furthermore, a convex hull-based approach for extracting key body parts has also been introduced. After identifying the key body parts, two types of features are extracted. Moreover, the entire feature vector is reduced using a dimensionality reduction technique called t-SNE (t-distributed stochastic neighbor embedding). Finally, a multinomial logistic regression classifier is utilized for identifying class labels. A large publicly available dataset, MPII (Max Planck Institute Informatics) Human Pose, has been used for system evaluation. The results prove the validity of the proposed system as it achieved 87.5% class recognition accuracy.
CITATION STYLE
Alarfaj, M., Waheed, M., Ghadi, Y. Y., Shloul, T. al, Alsuhibany, S. A., Jalal, A., & Park, J. (2022). An Intelligent Framework for Recognizing Social Human-Object Interactions. Computers, Materials and Continua, 73(1), 1207–1223. https://doi.org/10.32604/cmc.2022.025671
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