Acoustic source location in noisy and reverberant environment using CSP analysis
ICASSP '96 Proceedings of the Acoustics, Speech, and Signal Processing, 1996. on Conference Proceedings., 1996 IEEE International Conference - Volume 02
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A microphone array is the promising solution for realizing hands-free speech recognition in real environments. Accurate talker localization is very important for speech recognition using the microphone array. However localization of a moving talker is difficult in noisy reverberantenvironments. The talker localization errors degrade the performance of speech recognition. To solve the problem, we proposed a new speech recognition algorithm which considers multiple talker direction hypotheses simultaneously [2]. The proposed algorithm performs Viterbi search in 3-dimensional trellis space composed of talker directions, input frames, and HMM states. In this paper we describe a new simultaneous recognition algorithm of distant-talking speech of multiple talkers using the extended 3-D N-best search algorithm. The algorithm exploits a path distance-based clustering and a likelihood normalization technique appeared to be necessary in order to build an efficient system for our purpose. We evaluated the proposed method using reverberated data, which are those simulated by the image method and recorded in a real room. The image method was used to know the accuracy-reverberation time relationship, and the real data was used to evaluate the real performance of our algorithm. The obtained Top 3 results of the Simultaneous Word Accuracy was 73.02% under 162ms reverberation time and using the image method.