Litcius/Paper detail

TapLab: A Fast Framework for Semantic Video Segmentation Tapping Into Compressed-Domain Knowledge

Junyi Feng, Songyuan Li, Xi Li, Fei Wu, Qi Tian, Ming–Hsuan Yang, Haibin Ling

2020IEEE Transactions on Pattern Analysis and Machine Intelligence28 citationsDOI

Abstract

Real-time semantic video segmentation is a challenging task due to the strict requirements of inference speed. Recent approaches mainly devote great efforts to reducing the model size for high efficiency. In this paper, we rethink this problem from a different viewpoint: using knowledge contained in compressed videos. We propose a simple and effective framework, dubbed TapLab, to tap into resources from the compressed domain. Specifically, we design a fast feature warping module using motion vectors for acceleration. To reduce the noise introduced by motion vectors, we design a residual-guided correction module and a residual-guided frame selection module using residuals. TapLab significantly reduces redundant computations of the state-of-the-art fast semantic image segmentation models, running 3 to 10 times faster with controllable accuracy degradation. The experimental results show that TapLab achieves 70.6 percent mIoU on the Cityscapes dataset at 99.8 FPS with a single GPU card for the 1024×2048 videos. A high-speed version even reaches the speed of 160+ FPS. Code will be available soon at https://github.com/Sixkplus/TapLab.

Topics & Concepts

Computer scienceSegmentationArtificial intelligenceImage warpingComputer visionFeature (linguistics)ResidualFrame (networking)Frame rateImage segmentationCode (set theory)Task (project management)Semantics (computer science)InferenceAlgorithmPhilosophyEconomicsProgramming languageLinguisticsTelecommunicationsSet (abstract data type)ManagementAdvanced Neural Network ApplicationsAdvanced Image and Video Retrieval TechniquesVisual Attention and Saliency Detection