Learning-based image restoration for compressed images

In this paper, we propose a novel learning-based image restoration scheme for compressed images by suppressing compression artifacts and recovering high frequency (HF) components based upon the priors learnt from a training set of natural images. The JPEG compression process is simulated by a degradation model, represented by the signal attenuation and the Gaussian noise addition process. Based on the degradation model, the input image is locally filtered to remove Gaussian noise. Subsequently, the learning-based restoration algorithm reproduces the HF component to handle the attenuation process. Specifically, a Markov-chain based mapping strategy is employed to generate the HF primitives based on the learnt codebook. Finally, a quantization constraint algorithm regularizes the reconstructed image coefficients within a reasonable range, to prevent possible over-smoothing and thus ameliorate the image quality. Experimental results have demonstrated that the proposed scheme can reproduce higher quality images in terms of both objective and subjective quality.

► A novel learning-based image restoration scheme for compressed images is proposed. ► A degradation model simulates JPEG, by the signal attenuation and the Gaussian noise addition. ► Gaussian noise is removed by the local filtering (LOF). ► A learning strategy reproduces the high-frequency component to handle the attenuation process. ► The quantization constraint regularizes the reconstructed coefficients within a reasonable range.