红外图像去雾算法的主要任务是解决红外图像因米氏散射引起的低可见性和模糊。但是当前红外图像去雾算法对红外图像暗处透射率估计欠佳，针对这一情况，研究了基于雾线暗原色先验的红外图像去雾算法。首先 ，利用霍夫变换估计大气光照；然后，针对雾线去雾方法在部分场景中失效的现象，采用雾线暗原色先验方法，通过假设雾线较暗端为真实颜色估计透射率，获取透射率图；最后为去除透射率图中噪声，对透射率图全变分 正则化进一步优化透射率图。以公开红外数据库 LTIR作为测试对象，实验结果表明，本文去雾算法在增强红外图像清晰度的同时未破坏红外辐射分布，对各种场景的红外图像有较好去雾效果。透射率估计准确，有较好红外 图像去雾能力。

The main task of infrared image dehazing algorithms is to solve the problems of low visibility and blurring in infrared images; these problems arise from Mie scattering. However, current infrared image dehazing algorithms poorly estimate the dark transmittance of infrared images. Hence, in this study, an infrared image dehazing algorithm is developed based on the dark primary color prior of the haze-line. First, the Hough transform was employed to estimate the atmospheric illumination. Second, a dark primary color prior was employed to address the failure of the haze-line dehazing method in some scenarios. The transmittance was estimated by assuming that the dark end of the haze-line corresponds to the real color, and a transmittance map was obtained. To remove noise in the transmittance map, total variation regularization was used; thus, the transmittance map was optimized. The experimental results obtained using LTIR, a public infrared dataset, as the test dataset show that the proposed algorithm can enhance the clarity of infrared images without affecting the distribution of infrared radiation; in addition, the results show that the proposed algorithm enhances infrared images corresponding to various scenes. The proposed method accurately estimates transmittance and effectively dehazes infrared images.