Image Enhancement via Associated Perturbation Removal and Texture Reconstruction LearningOACSTPCDEI

Degradation under challenging conditions such as rain,haze,and low light not only diminishes content visibility,but also results in additional degradation side effects,including detail occlusion and color distortion.However,current technologies have barely explored the correlation between perturbation removal and background restoration,consequently struggling to generate high-naturalness content in challenging scenarios.In this paper,we rethink the image enhancement task from the perspec-tive of joint optimization:Perturbation removal and texture reconstruction.To this end,we advise an efficient yet effective image enhancement model,termed the perturbation-guided tex-ture reconstruction network(PerTeRNet).It contains two sub-networks designed for the perturbation elimination and texture reconstruction tasks,respectively.To facilitate texture recovery,we develop a novel perturbation-guided texture enhancement module(PerTEM)to connect these two tasks,where informative background features are extracted from the input with the guid-ance of predicted perturbation priors.To alleviate the learning burden and computational cost,we suggest performing perturba-tion removal in a sub-space and exploiting super-resolution to infer high-frequency background details.Our PerTeRNet has demonstrated significant superiority over typical methods in both quantitative and qualitative measures,as evidenced by extensive experimental results on popular image enhancement and joint detection tasks.The source code is available at https://github.com/kuijiang94/PerTeRNet.