Neural Networks: A Comprehensive Foundation
Neural Networks: A Comprehensive Foundation
Speech recognition with artificial neural networks
Digital Signal Processing
The use of wavelet entropy in conjuction with neural network for Arabic vowels recognition
WSEAS Transactions on Signal Processing
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Arabic language is a Semitic language that has many differences when compared to European languages such as English. One of these differences is how to pronounce the 10 digits, zero through nine. Except for zero, all Arabic digits are polysyllabic words. In this paper Arabic digits were investigated from the speech recognition problem point of view. An artificial neural network based speech recognition system was designed and tested with automatic Arabic digit recognition. The system is an isolated whole word speech recognizer and it was implemented as both a multi-speaker and speaker-independent modes. During the recognition process, noise was removed from digitized speech by means of band-pass filters, the signal was also pre-emphasized, and windowed and blocked by Hamming window. A time alignment algorithm was used to compensate for differences in utterance lengths and misalignments between phonemes. Frame features were extracted by using MFCC coefficients to reduce the amount of the information in the input signal. Finally the neural network classified the unknown digit. This recognition system achieved a 99.5% correct digit recognition in the multi-speaker mode, and 94.5% in speaker-independent mode. This paper also investigated Arabic digits as ''patterns on paper'' by using spectrogram and waveform information to cross check and investigate digit recognition system results and to try to locate the causes of miss-recognized digits. All Arabic digits were described by showing their constructing phonemes and syllables. Comparisons of all possible pairs of digits were also investigated and comments were stated with links to digit recognition system output. An understanding of the causes of automatic digit recognition system errors may help in building digit recognition systems that are simple, cheap, and fast.