An inverse halftoning method based on supervised deep convolutional neural network

Inverse halftoning is a technology that converts a binary image into a continuous tone image. Due to the wide application of inverse halftoning, many scholars have proposed several deep convolutional neural networks (DCNN) to optimize their performance. According to the observation, there is still room for improvement in content generation and detail recovery of the inverse halftone images generated by using the existing methods. Therefore, an inverse halftoning method based on supervised DCNN is proposed in this paper. The method consists of two parts: the multi-level feature extraction model uses the down-sampling to extract the features from the halftone image and remove the halftone noise dots on flat areas, which is implemented by four convolutional layers; the image reconstruction model uses up-sampling to reconstruct image information, which is realized by four convolutional layers and two dense residual blocks. At the same time, in order to further recover the details, the down-sampling feature maps and up-sampling feature maps of the same size are concatenated by addition layers. Experimental results show that compared with other methods, the inverse halftone images obtained by the proposed network have better results in both subjective and objective evaluations. A Supervised Deep Convolutional Neural Network is proposed to restore inverse halftone images with high quality.center dot A multi-level feature extraction model is designed to extract different levels feature information from the halftone image and to remove the halftone noise dots from different frequency domains.center dot An image reconstruction model is proposed to recover the image information lost in the halftone process and to further enhance the image details.image