Abstract
AbstractWith the fast-developing deep learning models in the field of autonomous driving, the research on the uncertainty estimation of deep learning models has also prevailed. Herein, a pyramid Bayesian deep learning method is proposed for the model uncertainty evaluation of semantic segmentation. Semantic segmentation is one of the most important perception problems in understanding visual scene, which is critical for autonomous driving. This study to optimize Bayesian SegNet for uncertainty evaluation. This paper first simplifies the network structure of Bayesian SegNet by reducing the number of MC-Dropout layer and then introduces the pyramid pooling module to improve the performance of Bayesian SegNet. mIoU and mPAvPU are used as evaluation matrics to test the proposed method on the public Cityscapes dataset. The experimental results show that the proposed method improves the sampling effect of the Bayesian SegNet, shortens the sampling time, and improves the network performance.
Funder
National Natural Science Foundation of China
Key Technologies Research and Development Program
Publisher
Springer Science and Business Media LLC
Reference32 articles.
1. WHO: Global status report on road safety 2015. World Health Organization, Violence and Injury. Prevention (2015)
2. NSC: Motor vehicle fatality estimates. Technical report, National Safety Council, Statistics Department (2016)
3. Wang, H., Huang, Y., Khajepour, A., et al.: Ethical decision-making platform in autonomous vehicles with lexicographic optimization based model predictive controller. IEEE Trans. Vehi. Technol. 69(8), 8164–8175 (2020)
4. Schildbach G.: On the application of ISO 26262 in control design for automated vehicles. arXiv preprint. arXiv:1804.04349 (2018). Accessed 12 Apr 2018
5. Wendorff, W.: Quantitative SOTIF analysis for highly automated driving systems. In: Safetronic Conference, Stuttgart (2017)
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