A time-delay neural network architecture for isolated word recognition /
A transaction-invariant back-propagation network is described that performs better than a sophisticated continuous acoustic parameter hiden Markov model on a noisy, 100-speaker confusable vocabulary isolated word recognition task. The network's replicated architecture permits it to extract prec...
| Main Authors: | , , |
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| _version_ | 1826366012378841088 |
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| author | 262544 Lang, Kevin J. Waibel, Alex H Hinton, Geoffrey E. |
| author_facet | 262544 Lang, Kevin J. Waibel, Alex H Hinton, Geoffrey E. |
| author_sort | 262544 Lang, Kevin J. |
| collection | OCEAN |
| description | A transaction-invariant back-propagation network is described that performs better than a sophisticated continuous acoustic parameter hiden Markov model on a noisy, 100-speaker confusable vocabulary isolated word recognition task. The network's replicated architecture permits it to extract precise information from unaligned training patterns selected by a naive segmentation rule. |
| first_indexed | 2024-03-04T15:13:26Z |
| format | |
| id | KOHA-OAI-TEST:54940 |
| institution | Universiti Teknologi Malaysia - OCEAN |
| last_indexed | 2024-03-04T15:13:26Z |
| record_format | dspace |
| spelling | KOHA-OAI-TEST:549402020-12-19T16:58:53ZA time-delay neural network architecture for isolated word recognition / 262544 Lang, Kevin J. Waibel, Alex H Hinton, Geoffrey E. A transaction-invariant back-propagation network is described that performs better than a sophisticated continuous acoustic parameter hiden Markov model on a noisy, 100-speaker confusable vocabulary isolated word recognition task. The network's replicated architecture permits it to extract precise information from unaligned training patterns selected by a naive segmentation rule.A transaction-invariant back-propagation network is described that performs better than a sophisticated continuous acoustic parameter hiden Markov model on a noisy, 100-speaker confusable vocabulary isolated word recognition task. The network's replicated architecture permits it to extract precise information from unaligned training patterns selected by a naive segmentation rule.12PSZJBLNeural circuitryWord recognition |
| spellingShingle | Neural circuitry Word recognition 262544 Lang, Kevin J. Waibel, Alex H Hinton, Geoffrey E. A time-delay neural network architecture for isolated word recognition / |
| title | A time-delay neural network architecture for isolated word recognition / |
| title_full | A time-delay neural network architecture for isolated word recognition / |
| title_fullStr | A time-delay neural network architecture for isolated word recognition / |
| title_full_unstemmed | A time-delay neural network architecture for isolated word recognition / |
| title_short | A time-delay neural network architecture for isolated word recognition / |
| title_sort | time delay neural network architecture for isolated word recognition |
| topic | Neural circuitry Word recognition |
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