References:

1. [Bossu et al., 2011] Bossu, J., Hauti`ere, N., and Tarel,J.-P. (2011). Rain or snow detection in image se-quences through use of a histogram of orientationof streaks.International journal of computer vision,93(3):348–367.
2. [Chi et al., 2018] Chi, Z., Wu, X., Shu, X., and Gu,J. (2018).Single image reflection removal us-ing deep encoder-decoder network.arXiv preprintarXiv:1802.00094.
3. [Diamond et al., 2017] Diamond, S., Sitzmann, V.,Boyd, S., Wetzstein, G., and Heide, F. (2017). Dirtypixels: Optimizing image classification architecturesfor raw sensor data.arXiv preprint arXiv:1701.06487.
4. [Fu et al., 2017] Fu, X., Huang, J., Zeng, D., Huang, Y.,Ding, X., and Paisley, J. (2017). Removing rain fromsingle images via a deep detail network. InIEEE Con-ference on Computer Vision and Pattern Recognition,pages 1715–1723.
5. [Hancock and Escanilla, 2018] Hancock, D. and Es-canilla, N. (2018). Lane tracking in adverse visibilityconditions. https://dereklh4.github.io/lane_tracking_webpage/.
6. [He et al., 2011] He, K., Sun, J., and Tang, X. (2011).Single image haze removal using dark channel prior.IEEE transactions on pattern analysis and machineintelligence, 33(12):2341–2353.
7. [Kumar and Simon, 2015] Kumar, A. M. and Simon, P.(2015). Review of lane detection and tracking algo-rithms in advanced driver assistance system.Int. J.Comput. Sci. Inf. Technol, 7(4):65–78.
8. [Lee and Moon, 2018] Lee, C. and Moon, J. (2018). Ro-bust lane detection and tracking for real-time applica-tions.IEEE Transactions on Intelligent Transporta-tion Systems, 19(12):4043–4048.4
9. [Leng and Chen, 2010] Leng, Y. and Chen, C. (2010).Vision-based lane departure detection system in urbantraffic scenes. In2010 11th International Conferenceon Control Automation Robotics Vision, pages 1875–1880.
10. [Li et al., 2017] Li, R., Cheong, L. F., and Tan,R. T. (2017).Single image deraining usingscale-aware multi-stage recurrent network.CoRR,abs/1712.06830.
11. [Nexar, 2017] Nexar (2017).Nexar challenge ii- vehicle detection in the wild using the nexetdataset. https://www.getnexar.com/challenge-2/.
12. [Pan et al., 2018] Pan, X., Shi, J., Luo, P., Wang, X., andTang, X. (2018). Spatial as deep: Spatial cnn for traf-fic scene understanding. InThirty-Second AAAI Con-ference on Artificial Intelligence.
13. [Parajuli et al., 2013] Parajuli, A., Celenk, M., and Ri-ley, H. B. (2013). Robust lane detection in shadowsand low illumination conditions using local gradientfeatures.Open Journal of Applied Sciences, 3(01):68.
14. [Shen et al., 2018] Shen, L., Yue, Z., Chen, Q., Feng,F., and Ma, J. (2018).Deep joint rain andhaze removal from single images.arXiv preprintarXiv:1801.06769.
15. [Shibata et al., 2014] Shibata, K., Takeuch, K., Kawai,S., and Horita, Y. (2014). Detection of road surfaceconditions in winter using road surveillance camerasat daytime, night-time and twilight.InternationalJournal of Computer Science and Network Security(IJCSNS), 14(11):21.
16. [Simonyan and Zisserman, 2014] Simonyan,K. andZisserman, A. (2014).Very deep convolutionalnetworks for large-scale image recognition.arXivpreprint arXiv:1409.1556.
17. [Wan et al., 2017] Wan, R., Shi, B., Duan, L.-Y., Tan,A.-H., and Kot, A. C. (2017). Benchmarking single-image reflection removal algorithms. InProceedingsof the IEEE International Conference on ComputerVision, pages 3922–3930.
18. [Wang et al., 2017] Wang, Y., Liu, S., Chen, C., andZeng, B. (2017). A hierarchical approach for rain orsnow removing in a single color image.IEEE Trans-actions on Image Processing, 26(8):3936–3950.
19. [Wang et al., 2018] Wang, Z., Ren, W., and Qiu, Q.(2018). Lanenet: Real-time lane detection networksfor autonomous driving.CoRR, abs/1807.01726.
20. [Yang et al., 2010] Yang, Q., Wang, S., and Ahuja, N.(2010). Real-time specular highlight removal usingbilateral filtering. InEuropean conference on Com-puter vision, pages 87–100. Springer.
21. Ingle, Atul, Andreas Velten, and Mohit Gupta. High Flux Passive Imaging with Single-Photon Sensors. arXiv preprint arXiv:1902.10190 (2019).