Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details

Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details

The article reviews the capabilities and particularities of the approach to the improvement of metrological characteristics of fiber-optic pressure sensors (FOPS) based on estimation estimation of dynamic errors in laser optoelectronic dimension gauges for geometric measurement of details. It is sho...

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Main Authors: Khasanov Zimfir, Yasoveev Vasikh, Khasanov Oleg, Vishnevskiy Alexandr
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201815501042
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spelling doaj-3a187d56bbae466e9d732e1c90a371702021-02-02T03:32:01ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011550104210.1051/matecconf/201815501042matecconf_imet2018_01042Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of DetailsKhasanov ZimfirYasoveev VasikhKhasanov OlegVishnevskiy AlexandrThe article reviews the capabilities and particularities of the approach to the improvement of metrological characteristics of fiber-optic pressure sensors (FOPS) based on estimation estimation of dynamic errors in laser optoelectronic dimension gauges for geometric measurement of details. It is shown that the proposed criteria render new methods for conjugation of optoelectronic converters in the dimension gauge for geometric measurements in order to reduce the speed and volume requirements for the Random Access Memory (RAM) of the video controller which process the signal. It is found that the lower relative error, the higher the interrogetion speed of the CCD array. It is shown that thus, the maximum achievable dynamic accuracy characteristics of the optoelectronic gauge are determined by the following conditions: the parameter stability of the electronic circuits in the CCD array and the microprocessor calculator; linearity of characteristics; error dynamics and noise in all electronic circuits of the CCD array and microprocessor calculator.https://doi.org/10.1051/matecconf/201815501042
collection DOAJ
language English
format Article
sources DOAJ
author Khasanov Zimfir
Yasoveev Vasikh
Khasanov Oleg
Vishnevskiy Alexandr
spellingShingle Khasanov Zimfir
Yasoveev Vasikh
Khasanov Oleg
Vishnevskiy Alexandr
Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details
MATEC Web of Conferences
author_facet Khasanov Zimfir
Yasoveev Vasikh
Khasanov Oleg
Vishnevskiy Alexandr
author_sort Khasanov Zimfir
title Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details
title_short Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details
title_full Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details
title_fullStr Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details
title_full_unstemmed Estimation of Dynamic Errors in Laser Optoelectronic Dimension Gauges for Geometric Measurement of Details
title_sort estimation of dynamic errors in laser optoelectronic dimension gauges for geometric measurement of details
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description The article reviews the capabilities and particularities of the approach to the improvement of metrological characteristics of fiber-optic pressure sensors (FOPS) based on estimation estimation of dynamic errors in laser optoelectronic dimension gauges for geometric measurement of details. It is shown that the proposed criteria render new methods for conjugation of optoelectronic converters in the dimension gauge for geometric measurements in order to reduce the speed and volume requirements for the Random Access Memory (RAM) of the video controller which process the signal. It is found that the lower relative error, the higher the interrogetion speed of the CCD array. It is shown that thus, the maximum achievable dynamic accuracy characteristics of the optoelectronic gauge are determined by the following conditions: the parameter stability of the electronic circuits in the CCD array and the microprocessor calculator; linearity of characteristics; error dynamics and noise in all electronic circuits of the CCD array and microprocessor calculator.
url https://doi.org/10.1051/matecconf/201815501042
work_keys_str_mv AT khasanovzimfir estimationofdynamicerrorsinlaseroptoelectronicdimensiongaugesforgeometricmeasurementofdetails
AT yasoveevvasikh estimationofdynamicerrorsinlaseroptoelectronicdimensiongaugesforgeometricmeasurementofdetails
AT khasanovoleg estimationofdynamicerrorsinlaseroptoelectronicdimensiongaugesforgeometricmeasurementofdetails
AT vishnevskiyalexandr estimationofdynamicerrorsinlaseroptoelectronicdimensiongaugesforgeometricmeasurementofdetails
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