A self-adaptive dynamic recognition model for fatigue driving based on multi-source information and two levels of fusion

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Abstract

To improve the effectiveness and robustness of fatigue driving recognition, a self-adaptive dynamic recognition model is proposed that incorporates information from multiple sources and involves two sequential levels of fusion, constructed at the feature level and the decision level. Compared with existing models, the proposed model introduces a dynamic basic probability assignment (BPA) to the decision-level fusion such that the weight of each feature source can change dynamically with the real-time fatigue feature measurements. Further, the proposed model can combine the fatigue state at the previous time step in the decision-level fusion to improve the robustness of the fatigue driving recognition. An improved correction strategy of the BPA is also proposed to accommodate the decision conflict caused by external disturbances. Results from field experiments demonstrate that the effectiveness and robustness of the proposed model are better than thoseof models based on a single fatigue feature and/or single-source information fusion, especially when the most effective fatigue features are used in the proposed model.

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Sun, W., Zhang, X., Peeta, S., He, X., Li, Y., & Zhu, S. (2015). A self-adaptive dynamic recognition model for fatigue driving based on multi-source information and two levels of fusion. Sensors (Switzerland), 15(9), 24191–24213. https://doi.org/10.3390/s150924191

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