Object detection based on polarization image fusion and grouped convolutional attention network
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Chen, G., Qin, H.B.: Class-discriminative focal loss for extreme imbalanced multiclass object detection towards autonomous driving. Visual Comput. 38, 1051–1063 (2022)
Wang, H., Chen, Y., Cai, Y., et al.: An improved SFNet algorithm for semantic segmentation of low-light autonomous driving road scenes. IEEE Trans. Intell. Transp. Syst. 23, 21405–21417 (2022)
Zhang, S., He, F.: Learning deep residual convolutional dehazing networks. Visual Comput. 36, 1797–1808 (2020)
Wu, D., Lv, S., Jiang, M., et al.: Using channel pruning-based YOLO v4 deep learning algorithm for the real-time and accurate detection of apple flowers in natural environments. Comput. Electron. Agric. 178, 105742 (2020)
An, Q., Chen, X., OuYang, Y.: Research on map matching of lidar/vision sensor for automatic driving aided positioning. Int. J. Veh. Inf. Commun. Syst. 6, 121–136 (2021)
Zhang, J.M., Zou, X., Kuang, L.D., et al.: A more comprehensive traffic sign detection benchmark. Human-Centric Comput. Inf. Sci. (2022). https://doi.org/10.22967/HCIS.2022.12.023
Hu, Q., Zhang, Y., Zhu, Y., et al.: Single image dehazing algorithm based on sky segmentation and optimal transmission maps. Visual Comput. 39, 997–1013 (2023)
Li, X.L., Hua, Z., Li, J.: Attention-based adaptive feature selection for multi-stage image dehazing. Visual Comput. 39, 663–678 (2023)
Li, B., Ren, W., Fu, D., et al.: Benchmarking single-image dehazing and beyond. IEEE Trans. Image Process. 28, 492–505 (2018)
Zhuo, Y.W., Zhang, T.J., Hu, J.F., et al.: A deep-shallow fusion network with multi detail extractor and spectral attention for hyperspectral pansharpening. IEEE J. Sel. Top. Appl. Earth Obs. Remote Sens. 15, 7539–7555 (2022)
Shit, S., Das, D.K., Ray, D.N., et al.: An encoder-decoder based CNN architecture using end to end dehaze and detection network for proper image visualization and detection. Comput. Animat. Virtual Worlds (2023). https://doi.org/10.1002/cav.2147
Das, B.L., Ebenezer, J.P., Mukhopadhyay, S.: A comparative study of single image fog removal methods. Visual Comput. 38, 1–17 (2022)
Chen, Y., Xia, R., Zou, K., et al.: Image inpainting algorithm via features fusion and two-steps inpainting. J. Visual Commun. Image Represent. 91, 103776 (2023)
Chen, Y., Xia, R., Zou, K., et al.: Image inpainting via repair network and optimization network. Int. J. Mach. Learn. Cybern. (2023). https://doi.org/10.1007/s13042-023-01811-y
Yang K, Yan X, Sun J, Xu N, Chen X.: A DeRF-YOLOv3-X object detection method for rain and fog background. J. Sens. Technol., 1222–1229 (2022).
Wang, H., Xu, Y., He, Y., et al.: A multi objective visual detection algorithm for fog driving scenes based on improved YOLOv5. IEEE Trans. Instrum. Meas. 71, 1–12 (2022)
Bian Y, Xing T et al.: Color Transfer Biomedical Imaging Technology Based on Deep Learning Infrared and Laser Engineering, 20210891-1-20210891-18 (2022).
Baiju, P.S., Antony, S.L., George, S.N.: An intelligent framework for transmission map estimation in image dehazing using total variation regularized low-rank approximation. Visual Comput. 38, 2357–2372 (2022)
Raikwar, S.C., Tapaswi, S.: Tight lower bound on transmission for single image dehazing. Visual Comput. 36, 191–209 (2020)
Wang, H.F., Shan, Y.H., Hao, T., et al.: Vehicle-road environment perception under low-visibility condition based on polarization features via deep learning. IEEE Trans. Intell. Transp. Syst. 23, 17873–17886 (2022)
Lin, C., Rong, X., Yu, X.: Multiscale attention feature fusion networks for single image Dehazing and beyond. IEEE Trans. Multimed. (2022). https://doi.org/10.1109/TMM.2022.3155937
Liu W, Chen C, Jiang R, et al.: Holistic Attention-Fusion Adversarial Network for Single Image Defogging. Computer Vision and Pattern Recognition, 2202.09553, (2022).
Yang, C.W., Feng, H., Xu, Z., et al.: Correction of overexposure utilizing haze removal model and image fusion technique. Visual Comput. 35, 695–705 (2019)
Blin, R., Ainouz, S., Canu, S., et al.: The polarlitis dataset: Road scenes under fog. IEEE Trans. Intell. Transp. Syst. 23, 10753–10762 (2022). https://doi.org/10.1109/TITS.2021.3095658
Yin, W.X., He, K., Xu, D., et al.: Adaptive low light visual enhancement and high-significant target detection for infrared and visible image fusion. Visual Comput. (2023). https://doi.org/10.1007/s00371-022-02759-w
Zhang, J.M., Zheng, Z., Xie, X., et al.: A traffic sign detector based on network reparameterization and features adaptive weighting. J. Ambient Intell. Smart Environ. (2022). https://doi.org/10.3233/AIS-220038
Zhang, J.M., Huang, H., Jin, X., et al.: Siamese visual tracking based on criss-cross attention and improved head network. Multimed. Tools Appl. (2023). https://doi.org/10.1007/s11042-023-1542
Zhang, X.H., Wang, H., Xu, C., et al.: A lightweight feature optimizing network for ship detection in SAR image. IEEE Access 7, 141662–141678 (2019)
Zhao, Y.Q., Gong, P., Pan, Q.: Object detection by spectropolarimeteric imagery fusion. IEEE Trans. Geosci. Remote Sens. 46, 3337–3345 (2021)
Cai, Y.H., Liu, J., Guo, Y., et al.: Video anomaly detection with multi-scale feature and temporal information fusion. Neurocomputing 423, 264–273 (2021)
Zhang, J.C., Shao, J., Chen, J., et al.: Polarization image fusion with self-learned fusion strategy. Pattern Recognit. 118, 108045 (2021)
Zhang, J.C., Shao, J., Chen, J., et al.: An unsupervised deep network for polarization image fusion. Optics Lett. 45, 1507–1510 (2020)
Xu, X., Zhang, X., Shao, Z., et al.: A group-wise feature enhancement-and-fusion network with dual-polarization feature enrichment for SAR ship detection. Remote Sens. 14, 5276 (2022)
Bai, R.Y.: A general image orientation detection method by feature fusion. Visual Comput. (2023). https://doi.org/10.1007/s00371-023-02782-5