Litcius/Paper detail

Coarse-to-Fine Hyper-Prior Modeling for Learned Image Compression

Yueyu Hu, Wenhan Yang, Jiaying Liu

2020Proceedings of the AAAI Conference on Artificial Intelligence130 citationsDOIOpen Access PDF

Abstract

Approaches to image compression with machine learning now achieve superior performance on the compression rate compared to existing hybrid codecs. The conventional learning-based methods for image compression exploits hyper-prior and spatial context model to facilitate probability estimations. Such models have limitations in modeling long-term dependency and do not fully squeeze out the spatial redundancy in images. In this paper, we propose a coarse-to-fine framework with hierarchical layers of hyper-priors to conduct comprehensive analysis of the image and more effectively reduce spatial redundancy, which improves the rate-distortion performance of image compression significantly. Signal Preserving Hyper Transforms are designed to achieve an in-depth analysis of the latent representation and the Information Aggregation Reconstruction sub-network is proposed to maximally utilize side-information for reconstruction. Experimental results show the effectiveness of the proposed network to efficiently reduce the redundancies in images and improve the rate-distortion performance, especially for high-resolution images. Our project is publicly available at https://huzi96.github.io/coarse-to-fine-compression.html.

Topics & Concepts

Computer scienceRedundancy (engineering)Image compressionArtificial intelligencePrior probabilityData compressionCodecData compression ratioRendering (computer graphics)Image resolutionComputer visionImage (mathematics)Pattern recognition (psychology)Image processingBayesian probabilityComputer hardwareOperating systemImage and Signal Denoising MethodsAdvanced Data Compression TechniquesAdvanced Image Processing Techniques