End-to-end recognition of slab identification numbers using a deep convolutional neural network
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摘要
This paper proposes a novel algorithm for the end-to-end recognition of slab identification numbers (SINs). In the steel industry, automatic recognition of an individual product information is important for production management. The recognition of SINs in actual factory scenes is a challenging problem due to complicated background and low-quality of characters. Conventional rule-based algorithms were developed to extract information of SINs, but these methods require engineering knowledge and tedious work for parameter tuning. The proposed algorithm employs a data-driven method to overcome these limitations and to handle the challenges for the recognition of SINs. This paper proposes accumulated response map and model-based score function to effectively use the outputs of a deep convolutional neural network. Experiments were thoroughly conducted for industrial data collected from an actual steelworks to verify the effectiveness of the proposed algorithm. Experiment results demonstrate that simultaneous recognition of entire characters in a SIN by optimizing the model-based score function is more effective for the robust performance compared to separated recognition of individual characters.
论文关键词:Industrial application,Steel industry,Slab identification number,Deep convolutional neural network,Text recognition
论文评审过程:Received 10 February 2017, Revised 7 June 2017, Accepted 9 June 2017, Available online 10 June 2017, Version of Record 24 July 2017.
论文官网地址:https://doi.org/10.1016/j.knosys.2017.06.017