Fundamental frequency contour modeling using HMM and categorical multiple regression technique.
スポンサーリンク
概要
- 論文の詳細を見る
This paper proposes a novel fundamental frequency (<I>F</I><SUB>0</SUB>) contour modeling based on statistics aiming at text-to-speech. In the proposed modeling, the <I>F</I><SUB>0</SUB> contour of a sentence is constructed by statistical minor phrase models. These models consist of a sophisticated integration of local models of normalized pitch patterns and global models of maxima and dynamic ranges. Hidden Markov Model (HMM) is introduced to determine the normalized pitch patterns (pitch-HMM). To determine the maximum and the dynamic range, categorical multiple regression technique (CMRT) is introduced. HMM is a good statistical model which directly represents the <I>F</I><SUB>0</SUB> contours by several reliable states. Moreover, it is easy to take relative changes of the <I>F</I><SUB>0</SUB> (Δ<I>F</I><SUB>0</SUB>) and phonetic environments into account. CMRT is a good statistical modeling technique which is able to deal with syntactic structures and acoustic events in a sentence simultaneously. Evaluation on the pitch-HMMs shows accent type identification rate of 91% and RMS error of 9.2 Hz. Evaluation on the maximum and the dynamic range models gives 0.901 and 0.835 for the multiple correlation coefficients, respectively. Finally, the result of the subjective evaluation indicates that the proposed modeling is superior to the conventional modeling.
- 一般社団法人 日本音響学会の論文
一般社団法人 日本音響学会 | 論文
- How large is the individual difference in hearing sensitivity?: Establishment of ISO 28961 on the statistical distribution of hearing thresholds of otologically normal young persons
- Applying generation process model constraint to fundamental frequency contours generated by hidden-Markov-model-based speech synthesis
- Vocal cord vibration in the production of consonants. Observation by means of high-speed digital imaging using a fiberscope.:Observation by means of high-speed digital imaging using a fiberscope
- The early reflections of the impulse response in an auditorium.
- Multiple reflections between rigid plane panels.