结合双阈值定位与透射率约束的航拍图像去雾

为了解决航拍图像受雾气影响而导致视见度降低的问题，提出一种结合双阈值定位大气光与约束优化透射率的去雾算法。针对航拍图像基本不含天空且边缘细节丰富的特点，首先通过梯度阈值和亮度阈值的双重定位限制，提高大气光强度的估计准确性；其次构造约束条件求解透射率，并利用双指数滤波获取精确值；最后根据人眼视觉对信号波动的感知定律，提出针对去雾图像的色调映射方法。仿真实验表明，恢复图像中的雾气被有效去除，颜色自然真实，图像的平均信息熵为7.659，平均梯度为16.631，均比现有算法有了一定程度的提升。研究表明，该算法对不同地貌场景的重现和细节特征的恢复非常有效，能够满足航拍图像去雾的应用需求。

Abstract

In order to improve the visibility of aerial image in the foggy weather, an image defogging algorithm based on dual-threshold position and transmittance constraint is proposed. Firstly, according to the features of non-sky and rich details from aerial images, both the gradient threshold and brightness threshold are used to keep positional limitation of the atmospheric light and therefore the accuracy has been improved effectively. Secondly, the transmittance is estimated by creating constraint, then the precise value is obtained by performing bi-exponential edge preserving filtering. Finally, a tone mapping method for restored image is proposed based on the perception law of human vision to the signal fluctuation. Simulation results show that the restored images not only remove fog effectively, but also keep color natural and real. The average entropy and gradient from test images are 7.659 and 16.631, which achieve a degree of improvement compared with other algorithms. The proposed algorithm gets satisfactory restoration for different landforms and detail features, thereby it can meet the application requirement of aerial image defogging.

参考文献

[1] 张峥，李奇，徐之海，等．结合颜色线和暗通道的遥感图像去雾[J]．光学精密工程，2019，27(1)：181-190．

[2] 郭红丹．基于三角形循环二分算法的图像去雾研究[J]．液晶与显示，2019，34(1)：90-97．

[3] HE K M, SUN J, TANG X O. Single image haze removal using dark channel prior [J].IEEE Transactions on Pattern Analysis and Machine Intelligence, 2011, 33(12): 2341-2353.

[4] MENG G F, WANG Y, DUAN J Y,et al. Efficient image dehazing with boundary constraint and contextual regularization[C]//Proceedings of 2013 IEEE International Conference on Computer Vision. Sydney, Australia: IEEE, 2013: 617-624.

[5] SUN W, WANG H, SUN C H,et al. Fast single image haze removal via local atmospheric light veil estimation [J]. Computers & Electrical Engineering, 2015, 46: 371-383.

[6] WANG W C, YUAN X H, WU X J,et al. Fast image dehazing method based on linear transformation [J]. IEEE Transactions on Multimedia, 2017, 19(6): 1142-1155.

[7] BUI T M, KIM W. Single image dehazing using color ellipsoid prior [J].IEEE Transactions on Image Processing, 2018, 27(2): 999-1009.

[8] SALAZAR-COLORES S, CRUZ-ACEVES I, RAMOS-ARREGUIN J M. Single image dehazing using a multilayer perceptron [J]. Journal of Electronic Imaging, 2018, 27(4): 043022.

[9] SALAZAR-COLORESS, CABAL-YEPEZ E, RAMOS-ARREGUIN J, et al. A fast image dehazing algorithm using morphological reconstruction [J]. IEEE Transactions on Image Processing, 2019, 28(5): 2357-2366.

[10] LIU Q, GAO X B, HE L H,et al. Single image dehazing with depth-aware non-local total variation regularization [J]. IEEE Transactions on Image Processing, 2018, 27(10): 5178-5191.

[11] 宋瑞霞，刚睿鹏，王小春．含有大片天空区域图像的去雾算法[J]．计算机辅助设计与图形学学报，2019，31(11)：1946-1954．

[12] 杨燕，王志伟．基于补偿透射率和自适应雾浓度系数的图像复原算法[J]．通信学报，2020，41(1)：66-75．

[13] CAI B L, XU X M, JIA K,et al. Dehazenet: an end-to-end system for single image haze removal [J]. IEEE Transactions on Image Processing, 2016, 25(11): 5187-5198.

[14] REN W Q, LIU S, ZHANG H,et al. Single image dehazing via multi-scale convolutional neural networks[C]//Proceedings of the 14th European Conference on Computer Vision. Amsterdam, The Netherlands: Springer, 2016: 154-169.

[15] 陈清江，张雪．混合残差学习与导向滤波算法在图像去雾中的应用[J]．光学精密工程，2019，27(12)：2702-2712．

[16] 邢晓敏，刘威．二阶段端到端的图像去雾生成网络[J]．计算机辅助设计与图形学学报，2020，32(1)：164-172．

[17] THEVENAZ P, SAGE D, UNSER M. Bi-exponential edge-preserving smoother [J]. IEEE Transactions on Image Processing, 2012, 21(9): 3924-3936.

[18] SHEN J H.On the foundations of vision modeling: I. Weber's law and weberized TV restoration [J]. Physica D: Nonlinear Phenomena, 2003, 175(3/4): 241-251.

王伟鹏, 项文杰, 戴声奎. 结合双阈值定位与透射率约束的航拍图像去雾[J]. 液晶与显示, 2020, 35(10): 1079. WANG Wei-peng, XIANG Wen-jie, DAI Sheng-kui. Aerial image defogging based on dual-threshold position and transmittance constraint[J]. Chinese Journal of Liquid Crystals and Displays, 2020, 35(10): 1079.

结合双阈值定位与透射率约束的航拍图像去雾

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