Title :
Peak-to-RMS reduction of speech based on a sinusoidal model
Author :
Quatieri, Thomas F. ; McAulay, Robert J.
Author_Institution :
MIT Lincoln Lab., Lexington, MA, USA
fDate :
2/1/1991 12:00:00 AM
Abstract :
A sinusoidal-based analysis/synthesis system is used to apply a radar design solution to the problem of dispersing the phase of a speech waveform. Unlike conventional methods of phase dispersion, this solution technique adapts dynamically to the pitch and spectral characteristics of the speech, while maintaining the original spectral envelope. The solution can also be used to drive the sine-wave amplitude modification for amplitude compression, and is coupled to the desired shaping of the speech spectrum. The proposed dispersion solution, when integrated with amplitude compression, results in a significant reduction in the peak-to-RMS (root-mean-square) ratio of the speech waveform with acceptable loss in quality. Application of a real-time prototype sine-wave preprocessor to AM radio broadcasting is described
Keywords :
radio broadcasting; speech analysis and processing; voice communication; AM radio broadcasting; KFH dispersion; Key-Fowle-Haggarty dispersion; amplitude compression; peak-to-RMS reduction; phase dispersion; pitch; quality loss; radar design solution; real-time prototype sine-wave preprocessor; root-mean-square; sine-wave amplitude modification; sinusoidal model; sinusoidal-based analysis/synthesis system; spectral characteristics; spectral envelope; speech processing; speech reduction; speech spectrum; speech waveform; Frequency estimation; Helium; Phase distortion; Prototypes; Radar; Radio broadcasting; Radio transmitters; Speech analysis; Speech processing; Speech synthesis;
Journal_Title :
Signal Processing, IEEE Transactions on
