Image Dehazing Algorithm Based on Conditional Generation Against Network

LIANG Yu-ming; ZHANG Lu-yao; LU Ming-jian; YANG Guo-liang

doi:10.3788/gzxb20194805.0510002

[1] YANG Hong,CUI Yan.Image dehazing algorithm based on open computing dark channel and optimizing boundary constraint［J］.Acta Photonica Sinica,2018,47(6): 0610004.

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

[3] GALDRAN A, VAZQUEZ C,PARDO D,et al.Enhanced variational image dehazing［J］. Society for Industrial and Applied Mathematics Journal on Imaging Sciences,2015, 8(3): 1519-1546.

[4] NISHINO K,KRATZ L, LOMBARDI S.Bayesian defogging［J］.International Journal of Computer Vision,2012, 98(3): 263-278.

[5] FATTALR.Dehazing using color-lines［J］. ACM Transactions on Graphics,2014, 34(1): 13.

[6] TANG K.YANG J,WANGJ.Investigating haze-relevant features in a learning framework for image dehazing［C］. Conference on Computer Vision and Pattern Recognition, 2014: 2995-3002.

[7] CAI B,XU X,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.

[8] REN W,LIU S,ZHANG H,et al.Single image dehazing via multiscale convolutional neural networks［C］. European Conference on Computer Vision, 2016: 154-169.

[9] LI B,PENG X,WANGZ,et al.Aod-net: allin-one dehazing network［C］.International Conference on Computer Vision, 2017: 4780-4788.

[10] GOODFELLOW I,POUGET A J,MIRZAM,et al.Generative adversarial nets［C］.International Conference on Neural Information Processing Systems, 2014: 2672-2680.

[11] SOHN K,LEE H,YAN X.Learning structured output representation using deep conditional generative models［C］.International Conference on Neural Information Processing Systems, 2015: 3483-3491.

[12] YEH R A,CHEN C,YIANL T,et al.Semantic image inpainting with deep generative models［C］. Conference on Computer Vision and Pattern Recognition, 2017: 6882-6890.

[13] REED S, AKATA Z, YANX,et al.Generative adversarial text to image synthesis［C］.International Conference on International Conference on Machine Learning, 2016: 1060-1069.

[14] LEDIG C,THEIS T,HUSZR F,et al.Photo-realistic single image super-resolution using a generative adversarial network［C］. Conference on Computer Vision and Pattern Recognition, 2017: 105-114.

[15] ZHANG H,SINDAGI V,PATELV M.Image de-raining using a conditional generative adversarial network［J］. arXiv,2017: 1701.05957.

[16] HE K,ZHANG X,REN S,et al.Deep residual learning for image recognition［C］. Conference on Computer Vision and Pattern Recognition, 2016: 770-778.

[17] RONNEBERGER O,FISCHER P,BROX T.Unet: convolutional networks for biomedical image segmentation［C］. Medical Image Computing and Computer-Assisted Intervention, 2015: 234-241.

[18] KINGMA D P,BA J L.Adam: a method for stochastic optimization［J］. arXiv,2017: 1412.6980.