AdVision:一个高效的基于深度学习的印刷媒体广告检测器

IF 4.9
Faeze Zakaryapour Sayyad , Irida Shallari , Seyed Jalaleddin Mousavirad , Mattias O’Nils , Faisal Z. Qureshi
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引用次数: 0

摘要

由于印刷版面、格式和设计风格的多样性,报纸上的广告自动检测是一项具有挑战性的任务。这项任务在媒体监控、内容分析和广告分析中有重要的应用。为了应对这些挑战,我们引入了AdVision,这是一种基于深度学习的解决方案,它将广告视为独特的视觉对象。我们提供了各种检测架构的比较研究,包括一级,两级和基于变压器的检测器,以确定检测广告的最有效方法。我们的结果通过在不同条件和指标下进行的大量实验得到验证。来自丹麦、挪威、瑞典和英国四个不同国家的报纸被挑选出来,以展示语言和印刷格式的多样性。此外,我们还进行了交叉分析,以显示一种语言的训练如何推广到另一种语言。为了增强结果的可解释性,我们使用了GradCAM++ (Chattopadhay et al., 2018)热图。我们的实验表明,YOLOv8模型实现了卓越的性能,在最小的推理延迟下平衡了高精度和召回率,使其特别适合于高通量广告检测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AdVision: An efficient and effective deep learning based advertisement detector for printed media
Automated advertisement detection in newspapers is a challenging task due to the diversity in print layouts, formats, and design styles. This task has critical applications in media monitoring, content analysis, and advertising analytics. To address these challenges, we introduce AdVision, a deep-learning-based solution that treats advertisements as unique visual objects. We provide a comparative study of various detection architectures, including one-stage, two-stage, and transformer-based detectors, to identify the most effective approach for detecting advertisements. Our results are validated through extensive experiments conducted under different conditions and metrics. Newspapers from four different countries — Denmark, Norway, Sweden, and the UK — were selected to demonstrate the variety of languages and print formats. Additionally, we conduct a cross-analysis to show how training on one language can generalize to another. To enhance the explainability of our results, we employ GradCAM++ (Chattopadhay et al., 2018) heatmaps. Our experiments demonstrate that the YOLOv8 model achieves superior performance, balancing high precision and recall with minimal inference latency, making it particularly suitable for high-throughput advertisement detection.
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来源期刊
Machine learning with applications
Machine learning with applications Management Science and Operations Research, Artificial Intelligence, Computer Science Applications
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审稿时长
98 days
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