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W2963484117 abstract "Computational neuroscience studies have examined the human visual system through functional magnetic resonance imaging (fMRI) and identified a model where the mammalian brain pursues two independent pathways for recognizing biological movement tasks. On the one hand, the dorsal stream analyzes the motion information by applying optical flow, which considers the fast features. On the other hand, the ventral stream analyzes the form information with slow features. The proposed approach suggests that the motion perception of the human visual system comprises fast and slow feature interactions to identify biological movements. The form features in the visual system follow the application of the active basis model (ABM) with incremental slow feature analysis (IncSFA). Episodic observation is required to extract the slowest features, whereas the fast features update the processing of motion information in every frame. Applying IncSFA provides an opportunity to abstract human actions and use action prototypes. However, the fast features are obtained from the optical flow division, which gives an opportunity to interact with the system as the final recognition is performed through a combination of the optical flow and ABM-IncSFA information and through the application of kernel extreme learning machine. Applying IncSFA into the ventral stream and involving slow and fast features in the recognition mechanism are the major contributions of this research. The two human action datasets for benchmarking (KTH and Weizmann) and the results highlight the promising performance of this approach in model modification." @default.
W2963484117 created "2019-07-30" @default.
W2963484117 creator A5085580768 @default.
W2963484117 creator A5087387437 @default.
W2963484117 date "2018-01-01" @default.
W2963484117 modified "2023-09-24" @default.
W2963484117 title "A dual fast and slow feature interaction in biologically inspired visual recognition of human action" @default.
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W2963484117 doi "https://doi.org/10.1016/j.asoc.2017.10.021" @default.
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