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First Gradually, Then Suddenly: Understanding the Impact of Image Compression on Object Detection Using Deep Learning

Tomasz Gandor, Jakub Nalepa

2022Sensors35 citationsDOIOpen Access PDF

Abstract

Video surveillance systems process high volumes of image data. To enable long-term retention of recorded images and because of the data transfer limitations in geographically distributed systems, lossy compression is commonly applied to images prior to processing, but this causes a deterioration in image quality due to the removal of potentially important image details. In this paper, we investigate the impact of image compression on the performance of object detection methods based on convolutional neural networks. We focus on Joint Photographic Expert Group (JPEG) compression and thoroughly analyze a range of the performance metrics. Our experimental study, performed over a widely used object detection benchmark, assessed the robustness of nine popular object-detection deep models against varying compression characteristics. We show that our methodology can allow practitioners to establish an acceptable compression level for specific use cases; hence, it can play a key role in applications that process and store very large image data.

Topics & Concepts

Lossy compressionComputer scienceArtificial intelligenceImage compressionJPEGComputer visionRobustness (evolution)Object detectionConvolutional neural networkData compressionDeep learningCompression (physics)Image processingPattern recognition (psychology)Image (mathematics)BiochemistryGeneChemistryMaterials scienceComposite materialVideo Surveillance and Tracking MethodsImage Enhancement TechniquesAdvanced Image and Video Retrieval Techniques
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