arxiv_cv 95% Match Research Paper Video compression researchers,Video codec developers,Machine learning engineers in multimedia 3 weeks ago

Real-Time Neural Video Compression with Unified Intra and Inter Coding

computer-vision › video-understanding

📄 Abstract

Abstract: Neural video compression (NVC) technologies have advanced rapidly in recent years, yielding state-of-the-art schemes such as DCVC-RT that offer superior compression efficiency to H.266/VVC and real-time encoding/decoding capabilities. Nonetheless, existing NVC schemes have several limitations, including inefficiency in dealing with disocclusion and new content, interframe error propagation and accumulation, among others. To eliminate these limitations, we borrow the idea from classic video coding schemes, which allow intra coding within inter-coded frames. With the intra coding tool enabled, disocclusion and new content are properly handled, and interframe error propagation is naturally intercepted without the need for manual refresh mechanisms. We present an NVC framework with unified intra and inter coding, where every frame is processed by a single model that is trained to perform intra/inter coding adaptively. Moreover, we propose a simultaneous two-frame compression design to exploit interframe redundancy not only forwardly but also backwardly. Experimental results show that our scheme outperforms DCVC-RT by an average of 10.7\% BD-rate reduction, delivers more stable bitrate and quality per frame, and retains real-time encoding/decoding performances. Code and models will be released.

Authors (6)

Hui Xiang

Yifan Bian

Li Li

Jingran Wu

Xianguo Zhang

Dong Liu

Submitted

October 16, 2025

arXiv Category

cs.CV

arXiv PDF

Key Contributions

This paper introduces a novel neural video compression framework that unifies intra and inter coding, addressing limitations of existing methods in handling disocclusion and new content, and mitigating interframe error propagation. By enabling intra coding within inter-coded frames and using a single adaptive model, it achieves improved compression efficiency and robustness.

Business Value

Enables higher quality video streaming and conferencing at lower bandwidths, reducing infrastructure costs and improving user experience. Real-time capabilities are crucial for interactive applications.

Paper Metadata

Innovation Type

Algorithmic Improvement

Deployment Feasibility

High, as it aims to improve upon existing video compression standards and focuses on real-time processing.

Limitations Addressed

Inefficiency in dealing with disocclusion and new content,Interframe error propagation and accumulation

Technical Tags

neural video compressionintra codinginter codingdeep learningvideo encodingdisocclusionerror propagationadaptive codingreal-time processingframe prediction

Research Topics

Video CompressionDeep Learning for VideoImage and Video ProcessingEfficient Neural NetworksReal-time Systems

Methods & Architectures

Unified Intra and Inter CodingSingle Model TrainingTwo-frame Compression Neural Network

Applications & Tasks

Video Streaming Video Conferencing Content Delivery Compression InefficiencyHandling DisocclusionInterframe Error Propagation Video CompressionReal-time Video Encoding/Decoding

Related Fields

Computer VisionSignal ProcessingInformation TheoryMachine Learning

Keywords

Neural Video CompressionVideo CodingDeep LearningIntra CodingInter CodingReal-timeCompression EfficiencyDisocclusionError PropagationAdaptive ModelFrame PredictionMultimedia

Academic Context

#Video Compression#Deep Learning for Video#Image and Video Processing#Efficient Neural Networks#Real-time Systems

Commercial Potential

Potential Products

Next-generation video codecsReal-time video compression software/hardware

Target Industries

TelecommunicationsMedia and EntertainmentCloud Services

Use Case Examples

High-definition video streaming with reduced bandwidthLow-latency video conferencingEfficient video storage

Competitive Edge

Aims to surpass state-of-the-art schemes like DCVC-RT and potentially H.266/VVC in terms of compression efficiency and real-time performance by introducing a unified coding approach.

Market Opportunity

Massive global market for video compression technologies.

Revenue Models

Licensing of technologyintegration into hardware/software products.

Resource Requirements

Compute Needs

Likely high for training, but optimized for real-time inference.

Data Requirements

Large video datasets for training.

Deployment Constraints

Real-time processing demands efficient computation.

Scalability

Scalability depends on the model's computational complexity and the underlying hardware.

Production Readiness

Maturity Level

Research

Time to Market

2-5 years

Patent Potential

High, due to novel algorithmic contributions in video compression.

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