Method for Accuracy Assessment of the Length Measurement Unit of Laser Tracking Systems
2021
Аутори
Gruza, MaciejGaska, Adam
Sladek, Jerzy
Stojadinović, Slavenko
Majstorović, Vidosav D.
Gaska, Piotr
Harmatys, Wiktor
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
Laser tracking systems are widely used in large-scale metrology of geometric quantities. Their importance is confirmed by the fact that one of the parts of the ISO 10360 series of standards has been devoted to the issue of assessing their accuracy (ISO 10360-10). A laser tracker is a device whose final measurement result is calculated using indications from various subsystems included in it, such as devices for measuring length and angle. The analysis of these individual impacts can be useful in creating simulation models of accuracy which, in regard to the Industry 4.0 concept, seem to be the most justified in terms of speed of operation and ease of use. For this reason, it may be particularly important to undertake research on the accuracy of this component in isolation from other factors affecting the measurement of the coordinates of the point. The article describes a method that allows separation of the length measurement error from the other components. The method uses a high-acc...uracy interferometer which is treated as a reference system that allows for the comparison of indications obtained using the tested distance measurement system. Thanks to the proposed method, it is possible to minimize errors from the optical system and other measuring systems. The use of a precise linear guide allows the reduction of errors related to the implementation of linear motion. The article presents the test method and the results obtained from performed experiments, as well as formulates conclusions and the directions of further development.
Кључне речи:
virtual model / laser tracking systems / laser tracker / interferometer / accuracyИзвор:
Applied Sciences-Basel, 2021, 11, 19Издавач:
- MDPI, Basel
Финансирање / пројекти:
- National Science Centre, Poland [2017/27/N/ST8/03063]
DOI: 10.3390/app11199335
ISSN: 2076-3417
WoS: 000726718600001
Scopus: 2-s2.0-85116778965
Колекције
Институција/група
Mašinski fakultetTY - JOUR AU - Gruza, Maciej AU - Gaska, Adam AU - Sladek, Jerzy AU - Stojadinović, Slavenko AU - Majstorović, Vidosav D. AU - Gaska, Piotr AU - Harmatys, Wiktor PY - 2021 UR - https://machinery.mas.bg.ac.rs/handle/123456789/3535 AB - Laser tracking systems are widely used in large-scale metrology of geometric quantities. Their importance is confirmed by the fact that one of the parts of the ISO 10360 series of standards has been devoted to the issue of assessing their accuracy (ISO 10360-10). A laser tracker is a device whose final measurement result is calculated using indications from various subsystems included in it, such as devices for measuring length and angle. The analysis of these individual impacts can be useful in creating simulation models of accuracy which, in regard to the Industry 4.0 concept, seem to be the most justified in terms of speed of operation and ease of use. For this reason, it may be particularly important to undertake research on the accuracy of this component in isolation from other factors affecting the measurement of the coordinates of the point. The article describes a method that allows separation of the length measurement error from the other components. The method uses a high-accuracy interferometer which is treated as a reference system that allows for the comparison of indications obtained using the tested distance measurement system. Thanks to the proposed method, it is possible to minimize errors from the optical system and other measuring systems. The use of a precise linear guide allows the reduction of errors related to the implementation of linear motion. The article presents the test method and the results obtained from performed experiments, as well as formulates conclusions and the directions of further development. PB - MDPI, Basel T2 - Applied Sciences-Basel T1 - Method for Accuracy Assessment of the Length Measurement Unit of Laser Tracking Systems IS - 19 VL - 11 DO - 10.3390/app11199335 ER -
@article{ author = "Gruza, Maciej and Gaska, Adam and Sladek, Jerzy and Stojadinović, Slavenko and Majstorović, Vidosav D. and Gaska, Piotr and Harmatys, Wiktor", year = "2021", abstract = "Laser tracking systems are widely used in large-scale metrology of geometric quantities. Their importance is confirmed by the fact that one of the parts of the ISO 10360 series of standards has been devoted to the issue of assessing their accuracy (ISO 10360-10). A laser tracker is a device whose final measurement result is calculated using indications from various subsystems included in it, such as devices for measuring length and angle. The analysis of these individual impacts can be useful in creating simulation models of accuracy which, in regard to the Industry 4.0 concept, seem to be the most justified in terms of speed of operation and ease of use. For this reason, it may be particularly important to undertake research on the accuracy of this component in isolation from other factors affecting the measurement of the coordinates of the point. The article describes a method that allows separation of the length measurement error from the other components. The method uses a high-accuracy interferometer which is treated as a reference system that allows for the comparison of indications obtained using the tested distance measurement system. Thanks to the proposed method, it is possible to minimize errors from the optical system and other measuring systems. The use of a precise linear guide allows the reduction of errors related to the implementation of linear motion. The article presents the test method and the results obtained from performed experiments, as well as formulates conclusions and the directions of further development.", publisher = "MDPI, Basel", journal = "Applied Sciences-Basel", title = "Method for Accuracy Assessment of the Length Measurement Unit of Laser Tracking Systems", number = "19", volume = "11", doi = "10.3390/app11199335" }
Gruza, M., Gaska, A., Sladek, J., Stojadinović, S., Majstorović, V. D., Gaska, P.,& Harmatys, W.. (2021). Method for Accuracy Assessment of the Length Measurement Unit of Laser Tracking Systems. in Applied Sciences-Basel MDPI, Basel., 11(19). https://doi.org/10.3390/app11199335
Gruza M, Gaska A, Sladek J, Stojadinović S, Majstorović VD, Gaska P, Harmatys W. Method for Accuracy Assessment of the Length Measurement Unit of Laser Tracking Systems. in Applied Sciences-Basel. 2021;11(19). doi:10.3390/app11199335 .
Gruza, Maciej, Gaska, Adam, Sladek, Jerzy, Stojadinović, Slavenko, Majstorović, Vidosav D., Gaska, Piotr, Harmatys, Wiktor, "Method for Accuracy Assessment of the Length Measurement Unit of Laser Tracking Systems" in Applied Sciences-Basel, 11, no. 19 (2021), https://doi.org/10.3390/app11199335 . .