野外遮挡文本检测与识别

Z. Raisi, J. Zelek
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引用次数: 1

摘要

现有的基于深度学习的场景文本识别方法,由于依赖于目标字符在图像中的可见性,在被遮挡的文本实例甚至部分被遮挡的文本字符上,其性能明显失败。这种失败通常是由于当前架构生成的特征对遮挡的鲁棒性有限,这为改进特征提取器和/或学习模型以更好地处理这些严重遮挡打开了可能性。在本文中,我们首先使用两个公开可用的遮挡数据集来评估当前场景文本检测、场景文本识别和场景文本斑点模型的性能:一个是明确为场景文本识别设计的遮挡场景文本(OST),另一个是使用Total-Text (OCTT)数据集来评估场景文本斑点和检测模型的遮挡字符级别。然后,我们利用深度学习中最新的基于transformer的框架,即掩码自动编码器(MAE),作为场景文本检测和识别管道的主干,以减轻遮挡问题。我们的场景文本识别和端到端场景文本识别模型通过在预训练的MAE主干上的迁移学习提高了性能。例如,我们的识别模型在OST数据集上的单词识别准确率为4%。与OCTT数据集上的卷积神经网络(CNN)骨干网相比,我们的端到端文本识别模型在配备MAE骨干网时实现了68.5%的F-measure性能,优于最先进的方法。
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Occluded Text Detection and Recognition in the Wild
The performance of existing deep-learning scene text recognition-based methods fails significantly on occluded text instances or even partially occluded characters in a text due to their reliance on the visibility of the target characters in images. This failure is often due to features generated by the current architectures with limited robustness to occlusion, which opens the possibility of improving the feature extractors and/or the learning models to better handle these severe occlusions. In this paper, we first evaluate the performance of the current scene text detection, scene text recognition, and scene text spotting models using two publicly-available occlusion datasets: Occlusion Scene Text (OST) that is designed explicitly for scene text recognition, and we also prepare an Occluded Character-level using the Total-Text (OCTT) dataset for evaluating the scene text spotting and detection models. Then we utilize a very recent Transformer-based framework in deep learning, namely Masked Auto Encoder (MAE), as a backbone for scene text detection and recognition pipelines to mitigate the occlusion problem. The performance of our scene text recognition and end-to-end scene text spotting models improves by transfer learning on the pre-trained MAE backbone. For example, our recognition model witnessed a 4% word recognition accuracy on the OST dataset. Our end-to-end text spotting model achieved 68.5% F-measure performance outperforming the stat-of-the-art methods when equipped with an MAE backbone compared to a convolutional neural network (CNN) backbone on the OCTT dataset.
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