Sunder Ali Khowaja scite author profile

In this paper, we propose the use of a semantic image, an improved representation for video analysis, principally in combination with Inception networks. The semantic image is obtained by applying localized sparse segmentation using global clustering (LSSGC) prior to the approximate rank pooling which summarizes the motion characteristics in single or multiple images. It incorporates the background information by overlaying a static background from the window onto the subsequent segmented frames. The idea is to improve the action-motion dynamics by focusing on the region which is important for action recognition and encoding the temporal variances using the frame ranking method. We also propose the sequential combination of Inception-ResNetv2 and long-short-term memory network (LSTM) to leverage the temporal variances for improved recognition performance. Extensive analysis has been carried out on UCF101 and HMDB51 datasets which are widely used in action recognition studies. We show that (i) the semantic image generates better activations and converges faster than its original variant, (ii) using segmentation prior to approximate rank pooling yields better recognition performance, (iii) The use of LSTM leverages the temporal variance information from approximate rank pooling to model the action behavior better than the base network, (iv) the proposed representations can be adaptive as they can be used with existing methods such as temporal segment networks to improve the recognition performance, and (v) our proposed four-stream network architecture comprising of semantic images and semantic optical flows achieves state-of-the-art performance, 95.9% and 73.5% recognition accuracy on UCF101 and HMDB51, respectively. We propose a method (LSSGC) for dynamically segmenting the image.  We introduce a semantic image to represent motion dynamics over a sequence of frames.  We propose an SR-LSTM based semantic image network to leverage temporal information and variance.  We use the semantic images with four-stream and temporal segment networks (a state-of-the-art network design) to show that the proposed representation is adaptable.  We report state-of-the-art results using semantic image networks.

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Hybrid and hierarchical fusion networks: a deep cross-modal learning architecture for action recognition

Khowaja

Lee

2019

Neural Comput & Applic

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TAB-SAPP: A Trust-Aware Blockchain-Based Seamless Authentication for Massive IoT-Enabled Industrial Applications

Deebak

Memon

Dev

et al. 2023

IEEE Trans. Ind. Inf.

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