Litcius/Paper detail

C3: High-Performance and Low-Complexity Neural Compression from a Single Image or Video

Hyunjik Kim, Matthias Bauer, Lucas Theis, Jonathan Richard Schwarz, Emilien Dupont

202439 citationsDOI

Abstract

Most neural compression models are trained on large datasets of images or videos in order to generalize to unseen data. Such generalization typically requires large and expressive architectures with a high decoding complexity. Here we introduce C3, a neural compression method with strong rate-distortion (RD) performance that instead overfits a small model to each image or video separately. The resulting decoding complexity of C3 can be an order of magnitude lower than neural baselines with similar RD performance. C3 builds on Cool-chic [43] and makes several simple and effective improvements for images. We further develop new methodology to apply C3 to videos. On the CLIC2020 image benchmark, we match the RD performance of VTM, the reference implementation of the H.266 codec, with less than 3k MACs/pixel for decoding. On the UVG video benchmark, we match the RD performance of the Video Compression Transformer [60], a well-established neural video codec, with less than 5k MACs/pixel for decoding.

Topics & Concepts

Computer scienceData compressionArtificial intelligenceImage compressionComputer visionCompression (physics)Image (mathematics)Computer graphics (images)Image processingMaterials scienceComposite materialAdvanced Vision and ImagingAdvanced Data Compression TechniquesAdvanced Image Processing Techniques