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ICPR
2008
IEEE
2008
IEEE
Neural net vector quantizers for discrete HMM-based on-line handwritten whiteboard-note recognition
In this work we evaluate a recently published vector quantization scheme, which has been developed to handle binary features like the pressure feature occurring in on-line handwriting recognition using discrete Hidden-Markov-Models (HMMs) with two neural net based vector quantizers (VQs). One of these uses a "Winner-Take-All" (WTA) update rule and the other implements the "Neural Gas" (NG) approach. Both approaches are believed to be more efficient VQs than the standard k-means VQ used in our earlier publication. In an experimental section we prove that both the WTA and NG neural net VQ significantly (significance is measured by the one-sided t-test) outperform our previously used k-means VQ by rW = 0.9 % and rN = 0.8 %, respectively, referring to word-level accuracy. In addition, no significant difference in recognition accuracy between the WTA-VQ and the NG-VQ could be observed.
Real-time Traffic| Added | 05 Nov 2009 |
| Updated | 05 Nov 2009 |
| Type | Conference |
| Year | 2008 |
| Where | ICPR |
| Authors | Gerhard Rigoll, Joachim Schenk |
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