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Beschreibung:
In computer science, robustness can be thought of as the ability of a system to handle erroneous or nonstandard input during execution. This thesis studies the robustness of the methods that extract structured information from unstructured documents containing human language texts. Unfortunately, these methods usually suffer from various problems that prevent achieving robustness to the nonstandard inputs encountered during system execution in real-world scenarios. Throughout the thesis, the key components of the information extraction workflow are analyzed and several novel techniques and enhancements that lead to improved robustness of this process are presented. Firstly, a deep learning-based text recognition method, which can be trained almost exclusively using synthetically generated documents, and a novel data augmentation technique, which improves the accuracy of text recognition on low-quality documents, are presented. Moreover, a novel noise-aware training method that encourages neural network models to build a noise-resistant latent representation of the input is introduced. This approach is shown to improve the accuracy of sequence labeling performed on misrecognized and mistyped text. Further improvements in robustness are achieved by applying noisy language modeling to learn a meaningful representation of misrecognized and mistyped natural language tokens. Furthermore, for the restoration of structural information from documents, a holistic table extraction system is presented. It exhibits high recognition accuracy in a scenario, where raw documents are used as input and the target information is contained in tables. Finally, this thesis introduces a novel evaluation method of the table recognition process that works in a scenario, where the exact location of table objects on a page is not available in the ground-truth annotations. Experimental results are presented on optical character recognition, named entity recognition, part-of-speech tagging, syntactic chunking, table recognition, and ...