Real-time measurement of multiple three-dimensional positions

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Publication Type Technical report
School or College College of Engineering
Department Computing, School of
Creator Burton, Robert Preece
Title Real-time measurement of multiple three-dimensional positions
Date 1973-06
Description Abstract: This paper describes a priori digital speech analysis. This method takes advantage of the quasi-periodic nature of voice speech sounds to reduce the amount of computation needed to obtain the analysis parameters. The vocal tract is modeled as an all-pole digital filter (predictive coding) and pitch is detected using a modified autocorrelation method. Since voiced speech is quasi-periodic, its waveform is characterized by a high degree of redundancy from pitch period to pitch period. For these regions, the parameters which describe the mathematical voice model are relatively constant. Specifically, the predictor coefficients and the pitch period vary slowly enough in these regions to allow their preceding values to be used as additional a priori information when calculating their present values. Estimates of the predictor coefficients are obtained using a priori least squares. By incorporating previous parameter values as a priori information, less deata (a smaller window size) are required to estimate the current parameters. Also, in addition to the savings obtained from reduced arithmetic operations, it is shown that a priori least squares generates a smoother set of predictor coefficients than those generated when a priori methods are ingnord. Estimates of the pitch period are obtained using a priori pitch detection. It is shown that pitch can be estimated more efficiently (fewer real multiplies) when the previous pitch period, the predictor coefficients, and the interperiod waveform correlation are incorporated in the estimation.
Type Text
Publisher University of Utah
Subject light-emitting diodes; photomultiplier
Subject LCSH Real-time data processing; Three-dimensional imaging; Computer graphics--Research
Language eng
Series University of Utah Computer Science Technical Report
Relation is Part of ARPANET
Format Medium application/pdf
Format Extent 146,640,393 bytes
File Name Burton-Real_Time_Measurment_1.pdf
Conversion Specifications Original scanned with Kirtas 2400 and saved as 400 ppi uncompressed TIFF. PDF generated by LIMB™ for CONTENTdm display
ARK ark:/87278/s6gq9j1k
Setname ir_computersa
Date Created 2016-11-18
Date Modified 2016-11-18
ID 106164
Reference URL
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