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Sandwiched Image Compression: Wrapping Neural Networks Around A Standard Codec

Onur G. Guleryuz, Philip A. Chou, Hugues Hoppe, Danhang Tang, Ruofei Du, Philip Davidson, Sean Fanello

202121 citationsDOI

Abstract

We sandwich a standard image codec between two neural networks: a preprocessor that outputs neural codes, and a postprocessor that reconstructs the image. The neural codes are compressed as ordinary images by the standard codec. Using differentiable proxies for both rate and distortion, we develop a rate-distortion optimization framework that trains the networks to generate neural codes that are efficiently compressible as images. This architecture not only improves rate-distortion performance for ordinary RGB images, but also enables efficient compression of alternative image types (such as normal maps of computer graphics) using standard image codecs. Results demonstrate the effectiveness and flexibility of neural processing in mapping a variety of input data modalities to the rigid structure of standard codecs. A surprising result is that the rate-distortion-optimized neural processing seamlessly learns to transport color images using a single-channel (grayscale) codec.

Topics & Concepts

CodecComputer scienceArtificial intelligenceComputer visionArtificial neural networkImage processingData compressionImage (mathematics)Computer hardwareAdvanced Vision and ImagingImage and Signal Denoising MethodsAdvanced Image Processing Techniques