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Three-Dimensional Geometry Measurement System Based on the Phase Triangulation and Binary Cyclic Code Methods: The Software Package for Configuration. / Zuev, V. O.; Dvoynishnikov, S. V.; Kabardin, I. K. и др.

в: Measurement Techniques, Том 65, № 8, 2022, стр. 590-596.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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@article{e2928b8df682446eb7306f8ff6274fba,
title = "Three-Dimensional Geometry Measurement System Based on the Phase Triangulation and Binary Cyclic Code Methods: The Software Package for Configuration",
abstract = "This article describes the three-dimensional (3D) object geometry measurement systems based on phase triangulation and binary cyclic code methods. When it is required to adapt system elements to environmental conditions, such system configuration difficulties, which arise under nonstandard measurement conditions, were analyzed. To optimize the parameters of the specified measurement system, quantitative estimates of the system configuration quality are proposed based on the results of measuring the 3D geometry of the object and intermediate measurement data. Algorithms for calculating the quantitative estimates of the measurement system quality were developed. A software package consisting of two programs was created, which implements the processing and visualization of the results by measuring the 3D geometry of an object and intermediate measurement data and displaying the quantitative estimates of the measurement system quality on the monitor. The software package was tested when configuring a system for measuring the 3D ice build-up geometry on a stand to study the effects of icing on the reduced models of wind turbine functional elements. The measurement system was set to a characteristic measuring volume of 85 × 67 × 25 mm3. The frequency of the modulating signal and the parameters of the optical system were optimized, namely, the relative position and focal distances of the source and receiver of optical radiation, duration of exposure, and amplification of the analog signal of the receiver. The measurement error of the 3D geometry was 9 μm. For a measurement system of the 3D geometry of an object using the methods of phase triangulation and binary cyclic codes, the possibility of configuration using the developed software package was confirmed. The software package can be used in fields where it is required to adapt the parameters of a 3D geometry measurement system using phase triangulation and binary cyclic code methods to environmental conditions, such as wind and hydraulic power engineering and hot metallurgy industry.",
keywords = "binary cyclic codes, measurement system configuration, phase triangulation, three-dimensional geometry measurement",
author = "Zuev, {V. O.} and Dvoynishnikov, {S. V.} and Kabardin, {I. K.} and Meledin, {V. G.}",
note = "Публикация для корректировки.",
year = "2022",
doi = "10.1007/s11018-023-02125-9",
language = "English",
volume = "65",
pages = "590--596",
journal = "Measurement Techniques",
issn = "0543-1972",
publisher = "Springer Science and Business Media Deutschland GmbH",
number = "8",

}

RIS

TY - JOUR

T1 - Three-Dimensional Geometry Measurement System Based on the Phase Triangulation and Binary Cyclic Code Methods: The Software Package for Configuration

AU - Zuev, V. O.

AU - Dvoynishnikov, S. V.

AU - Kabardin, I. K.

AU - Meledin, V. G.

N1 - Публикация для корректировки.

PY - 2022

Y1 - 2022

N2 - This article describes the three-dimensional (3D) object geometry measurement systems based on phase triangulation and binary cyclic code methods. When it is required to adapt system elements to environmental conditions, such system configuration difficulties, which arise under nonstandard measurement conditions, were analyzed. To optimize the parameters of the specified measurement system, quantitative estimates of the system configuration quality are proposed based on the results of measuring the 3D geometry of the object and intermediate measurement data. Algorithms for calculating the quantitative estimates of the measurement system quality were developed. A software package consisting of two programs was created, which implements the processing and visualization of the results by measuring the 3D geometry of an object and intermediate measurement data and displaying the quantitative estimates of the measurement system quality on the monitor. The software package was tested when configuring a system for measuring the 3D ice build-up geometry on a stand to study the effects of icing on the reduced models of wind turbine functional elements. The measurement system was set to a characteristic measuring volume of 85 × 67 × 25 mm3. The frequency of the modulating signal and the parameters of the optical system were optimized, namely, the relative position and focal distances of the source and receiver of optical radiation, duration of exposure, and amplification of the analog signal of the receiver. The measurement error of the 3D geometry was 9 μm. For a measurement system of the 3D geometry of an object using the methods of phase triangulation and binary cyclic codes, the possibility of configuration using the developed software package was confirmed. The software package can be used in fields where it is required to adapt the parameters of a 3D geometry measurement system using phase triangulation and binary cyclic code methods to environmental conditions, such as wind and hydraulic power engineering and hot metallurgy industry.

AB - This article describes the three-dimensional (3D) object geometry measurement systems based on phase triangulation and binary cyclic code methods. When it is required to adapt system elements to environmental conditions, such system configuration difficulties, which arise under nonstandard measurement conditions, were analyzed. To optimize the parameters of the specified measurement system, quantitative estimates of the system configuration quality are proposed based on the results of measuring the 3D geometry of the object and intermediate measurement data. Algorithms for calculating the quantitative estimates of the measurement system quality were developed. A software package consisting of two programs was created, which implements the processing and visualization of the results by measuring the 3D geometry of an object and intermediate measurement data and displaying the quantitative estimates of the measurement system quality on the monitor. The software package was tested when configuring a system for measuring the 3D ice build-up geometry on a stand to study the effects of icing on the reduced models of wind turbine functional elements. The measurement system was set to a characteristic measuring volume of 85 × 67 × 25 mm3. The frequency of the modulating signal and the parameters of the optical system were optimized, namely, the relative position and focal distances of the source and receiver of optical radiation, duration of exposure, and amplification of the analog signal of the receiver. The measurement error of the 3D geometry was 9 μm. For a measurement system of the 3D geometry of an object using the methods of phase triangulation and binary cyclic codes, the possibility of configuration using the developed software package was confirmed. The software package can be used in fields where it is required to adapt the parameters of a 3D geometry measurement system using phase triangulation and binary cyclic code methods to environmental conditions, such as wind and hydraulic power engineering and hot metallurgy industry.

KW - binary cyclic codes

KW - measurement system configuration

KW - phase triangulation

KW - three-dimensional geometry measurement

UR - https://www.mendeley.com/catalogue/d2c5fdfc-6f59-37b0-8e41-39378836a8d2/

U2 - 10.1007/s11018-023-02125-9

DO - 10.1007/s11018-023-02125-9

M3 - Article

VL - 65

SP - 590

EP - 596

JO - Measurement Techniques

JF - Measurement Techniques

SN - 0543-1972

IS - 8

ER -

ID: 55697109