基于神经的点噪声标志识别体系结构

Proceedings of the Fourth International Conference on Document Analysis and Recognition Pub Date : 1997-08-18 DOI:10.1109/ICDAR.1997.619836

F. Cesarini, E. Francesconi, M. Gori, S. Marinai, Jianqing Sheng, G. Soda

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引用次数: 49

摘要

最近，人们非常关注图形对象的识别，例如公司徽标和商标。识别这些对象有助于识别文档类。在均匀分布噪声存在的情况下，使用基于自关联器的人工神经网络(AANN)已经取得了一些令人满意的结果。然而，当处理斑点噪声标识时，性能会显著下降，其中条带或斑点会对图像产生部分阻碍。我们提出了一种训练aann的新方法，特别是为处理点噪声而设计的aann。基本思想是引入新的指标来评估aann的复制误差。所提出的算法，被称为点反向传播(S-BP)，相对于经典的基于欧几里得范数的反向传播(BP)，在点噪声方面具有更强的鲁棒性。我们的实验结果是基于一个包含88个真实标识的数据库，这些标识被人为的点噪声破坏了。

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A neural-based architecture for spot-noisy logo recognition

Much attention has recently been paid to the recognition of graphical objects, such as company logos and trademarks. Recognizing these objects facilitates the recognition of document classes. Some promising results have been achieved by using autoassociator-based artificial neural networks (AANN) in the presence of homogeneously distributed noise. However, the performance drops significantly when dealing with spot-noisy logos, where strips or blobs produce a partial obstruction of the pictures. We propose a new approach for training AANNs especially conceived for dealing with spot noise. The basic idea is to introduce new metrics for assessing the reproduction error in AANNs. The proposed algorithm, referred to as spot-backpropagation (S-BP), is significantly more robust with respect to spot-noise than classical Euclidean norm-based backpropagation (BP). Our experimental results are based on a database of 88 real logos that are artificially corrupted by spot-noise.

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Proceedings of the Fourth International Conference on Document Analysis and Recognition

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