Abstract

In online handwriting recognition the trajectory of the pen is recorded during writing. Although the trajectory provides a compact and complete representation of the written output, it is hard to transcribe directly, because each letter is spread over many pen locations. Most recognition systems therefore employ sophisticated preprocessing techniques to put the inputs into a more localised form. However these techniques require considerable human effort, and are specific to particular languages and alphabets. This paper describes a system capable of directly transcribing raw online handwriting data. The system consists of an advanced recurrent neural network with an output layer designed for sequence labelling, combined with a probabilistic language model. In experiments on an unconstrained online database, we record excellent results using either raw or preprocessed data, well outperforming a state-of-the-art HMM based system in both cases.

Keywords

Computer scienceHandwriting recognitionHandwritingRecurrent neural networkPreprocessorArtificial neural networkHidden Markov modelArtificial intelligenceSpeech recognitionTrajectoryProbabilistic logicIntelligent character recognitionData pre-processingSequence (biology)Representation (politics)Pattern recognition (psychology)Natural language processingFeature extraction

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Publication Info

Year
2007
Type
article
Volume
20
Pages
577-584
Citations
219
Access
Closed

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Alex Graves, Marcus Liwicki, Horst Bunke et al. (2007). Unconstrained On-line Handwriting Recognition with Recurrent Neural Networks. Bern Open Repository and Information System (University of Bern) , 20 , 577-584.