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Enhanced Invertible Encoding for Learned Image Compression

Yueqi Xie, Ka Leong Cheng, Qifeng Chen

2021179 citationsDOI

Abstract

Although deep learning based image compression methods have achieved promising progress these days, the performance of these methods still cannot match the latest compression standard Versatile Video Coding (VVC). Most of the recent developments focus on designing a more accurate and flexible entropy model that can better parameterize the distributions of the latent features. However, few efforts are devoted to structuring a better transformation between the image space and the latent feature space. In this paper, instead of employing previous autoencoder style networks to build this transformation, we propose an enhanced Invertible Encoding Network with invertible neural networks (INNs) to largely mitigate the information loss problem for better compression. Experimental results on the Kodak, CLIC, and Tecnick datasets show that our method outperforms the existing learned image compression methods and compression standards, including VVC (VTM 12.1), especially for high-resolution images. Our source code is available at https://github.com/xyq7/InvCompress.

Topics & Concepts

AutoencoderComputer scienceEntropy encodingImage compressionInvertible matrixArtificial intelligenceData compressionEntropy (arrow of time)Artificial neural networkEncoding (memory)EncoderSource codeCompression (physics)Pattern recognition (psychology)Image (mathematics)Image processingMathematicsPhysicsComposite materialPure mathematicsQuantum mechanicsOperating systemMaterials scienceAdvanced Data Compression TechniquesAdvanced Image Processing TechniquesVideo Coding and Compression Technologies
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