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Better Compression With Deep Pre-Editing

Hossein Talebi, Damien P. Kelly, Xiyang Luo, Ignacio Garcia Dorado, Feng Yang, Peyman Milanfar, Michael Elad

2021IEEE Transactions on Image Processing28 citationsDOIOpen Access PDF

Abstract

Could we compress images via standard codecs while avoiding visible artifacts? The answer is obvious - this is doable as long as the bit budget is generous enough. What if the allocated bit-rate for compression is insufficient? Then unfortunately, artifacts are a fact of life. Many attempts were made over the years to fight this phenomenon, with various degrees of success. In this work we aim to break the unholy connection between bit-rate and image quality, and propose a way to circumvent compression artifacts by pre-editing the incoming image and modifying its content to fit the given bits. We design this editing operation as a learned convolutional neural network, and formulate an optimization problem for its training. Our loss takes into account a proximity between the original image and the edited one, a bit-budget penalty over the proposed image, and a no-reference image quality measure for forcing the outcome to be visually pleasing. The proposed approach is demonstrated on the popular JPEG compression, showing savings in bits and/or improvements in visual quality, obtained with intricate editing effects.

Topics & Concepts

Computer scienceImage compressionCodecImage editingJPEGImage qualityConvolutional neural networkArtificial intelligenceComputer visionJPEG 2000Data compressionImage (mathematics)Computer engineeringImage processingComputer hardwareAdvanced Image Processing TechniquesAdvanced Vision and ImagingImage and Signal Denoising Methods
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