SDFT-Based Ultrasonic Range Finder Using AM Continuous Wave and Online Parameter Estimation

An amplitude-modulated (AM) ultrasonic range finder using an online parameter estimation procedure is presented, which uses the sliding discrete Fourier transform (SDFT) algorithm for extracting the sinusoidal envelope from the received reference and ultrasonic signals. The received ultrasonic envel...

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Published inIEEE transactions on instrumentation and measurement Vol. 59; no. 8; pp. 1994 - 2004
Main Authors Sumathi, P, Janakiraman, P A
Format Journal Article
LanguageEnglish
Published New York IEEE 01.08.2010
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Acoustic distance measurement
Additive noise
amplitude-modulated (AM) ultrasonic range finder
comb filter
Construction
Discrete Fourier transforms
Envelopes
Filters
Fourier transforms
Frequency
interharmonic noise removal
Interharmonics
Jitter
Low-frequency noise
Noise
On-line systems
Online
Parameter estimation
parameter estimation procedure
Phase estimation
Phase locked loops
Range finders
SDFT phase-locked loop
sliding discrete Fourier transform (SDFT)
Studies
Table lookup
Ultrasonic technology
Online AccessGet full text
ISSN0018-9456
1557-9662
DOI10.1109/TIM.2009.2032881

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Abstract An amplitude-modulated (AM) ultrasonic range finder using an online parameter estimation procedure is presented, which uses the sliding discrete Fourier transform (SDFT) algorithm for extracting the sinusoidal envelope from the received reference and ultrasonic signals. The received ultrasonic envelope contains an additive noise, which resembles another sine wave whose frequency is very close to that of the envelope. This gives rise to a low-frequency beat in the phase shift between the transmitted and received envelopes. Consequently, the estimated phase shows an equivalent phase jitter. The desired sinusoidal envelope signal cannot easily be separated from the noise signal, even by sharply tuned SDFT filters with phase-locked loops (PLLs). A parameter estimation procedure has been applied to remove these interharmonic signals with the help of comb filters. The PLL was strengthened by a cosine lookup table (LUT). By locating the envelope frequency far away from the interharmonic noise frequency, the convergence time could greatly be reduced. Simulation studies were conducted in the Matlab-Simulink-DSP builder environment, and ideas were implemented in a Cyclone-II field-programmable gate array (FPGA)-based range finder fabricated in the laboratory. The test results of the AM ultrasonic range finder are presented to show its performance for static and slowly moving objects.
AbstractList An amplitude-modulated (AM) ultrasonic range finder using an online parameter estimation procedure is presented, which uses the sliding discrete Fourier transform (SDFT) algorithm for extracting the sinusoidal envelope from the received reference and ultrasonic signals. The received ultrasonic envelope contains an additive noise, which resembles another sine wave whose frequency is very close to that of the envelope. This gives rise to a low-frequency beat in the phase shift between the transmitted and received envelopes. Consequently, the estimated phase shows an equivalent phase jitter. The desired sinusoidal envelope signal cannot easily be separated from the noise signal, even by sharply tuned SDFT filters with phase-locked loops (PLLs). A parameter estimation procedure has been applied to remove these interharmonic signals with the help of comb filters. The PLL was strengthened by a cosine lookup table (LUT). By locating the envelope frequency far away from the interharmonic noise frequency, the convergence time could greatly be reduced. Simulation studies were conducted in the Matlab-Simulink-DSP builder environment, and ideas were implemented in a Cyclone-II field-programmable gate array (FPGA)-based range finder fabricated in the laboratory. The test results of the AM ultrasonic range finder are presented to show its performance for static and slowly moving objects.
Author Sumathi, P
Janakiraman, P A
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SubjectTerms Acoustic distance measurement
Additive noise
amplitude-modulated (AM) ultrasonic range finder
comb filter
Construction
Discrete Fourier transforms
Envelopes
Filters
Fourier transforms
Frequency
interharmonic noise removal
Interharmonics
Jitter
Low-frequency noise
Noise
On-line systems
Online
Parameter estimation
parameter estimation procedure
Phase estimation
Phase locked loops
Range finders
SDFT phase-locked loop
sliding discrete Fourier transform (SDFT)
Studies
Table lookup
Ultrasonic technology
Title SDFT-Based Ultrasonic Range Finder Using AM Continuous Wave and Online Parameter Estimation
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Volume 59
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