Multi-modality action recognition based on dual feature shift in vehicle cabin monitoring

Driver Action Recognition (DAR) is crucial in vehicle cabin monitoring systems. In real-world applications, it is common for vehicle cabins to be equipped with cameras featuring different modalities. However, multi-modality fusion strategies for the DAR task within car cabins have rarely been studie...

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Veröffentlicht in:	arXiv.org 2024-01
Hauptverfasser:	Lin, Dan, Philip Hann Yung Lee, Li, Yiming, Wang, Ruoyu, Kim-Hui, Yap, Li, Bingbing, Ngim, You Shing
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Sprache:	eng
Schlagworte:	Activity recognition In vehicle Monitoring
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creator	Lin, Dan Philip Hann Yung Lee Li, Yiming Wang, Ruoyu Kim-Hui, Yap Li, Bingbing Ngim, You Shing
description	Driver Action Recognition (DAR) is crucial in vehicle cabin monitoring systems. In real-world applications, it is common for vehicle cabins to be equipped with cameras featuring different modalities. However, multi-modality fusion strategies for the DAR task within car cabins have rarely been studied. In this paper, we propose a novel yet efficient multi-modality driver action recognition method based on dual feature shift, named DFS. DFS first integrates complementary features across modalities by performing modality feature interaction. Meanwhile, DFS achieves the neighbour feature propagation within single modalities, by feature shifting among temporal frames. To learn common patterns and improve model efficiency, DFS shares feature extracting stages among multiple modalities. Extensive experiments have been carried out to verify the effectiveness of the proposed DFS model on the Drive\&Act dataset. The results demonstrate that DFS achieves good performance and improves the efficiency of multi-modality driver action recognition.
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subjects	Activity recognition In vehicle Monitoring
title	Multi-modality action recognition based on dual feature shift in vehicle cabin monitoring
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