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BARRN: A Blind Image Compression Artifact Reduction Network for Industrial IoT Systems

Jiafeng Li, Xiaoyu Liu, Yuqi Gao, Zhuo Li, Jing Zhang

2022IEEE Transactions on Industrial Informatics12 citationsDOI

Abstract

Most industrial Internet of Things (IoT) devices reduce the capture image size using high-ratio joint photographic experts group (JPEG) compression, saving storage space, and transmission bandwidth consumption. However, the resulting compression artifacts considerably affect the accuracy of subsequent tasks. Most artifact reduction algorithms do not consider the limitations of storage space and computing power of edge devices. In this study, a blind artifact reduction recurrent network (BARRN), which can reduce compression artifacts when the quality factors are unknown, is proposed. First, a structure based on recurrent convolution is designed for the specific requirements of industrial IoT image acquisition devices; the network can be scaled according to system resource constraints. Second, a more efficient convolution group, capable of adaptively processing different degradation levels, is proposed for optimal use of the limited computational resources. The experimental results demonstrate that the proposed BARRN can meet the needs of industrial systems with high computational efficiency.

Topics & Concepts

Image compressionComputer scienceArtifact (error)Reduction (mathematics)Data compressionComputer visionArtificial intelligenceCompression (physics)Image (mathematics)Image processingMathematicsMaterials scienceComposite materialGeometryImage and Signal Denoising MethodsAdvanced Image Processing TechniquesDigital Media Forensic Detection
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