Measurement uncertainty evaluation of the wind speed in the atmospheric boundary layer

Kartashov, Volodymyr; Shapovalov, Serhii

Measurement uncertainty evaluation of the wind speed in the atmospheric boundary layer

dc.citation.epage	28
dc.citation.issue	1
dc.citation.journalTitle	Вимірювальна техніка та метрологія
dc.citation.spage	25
dc.contributor.affiliation	Kharkiv National University of Radio Electronics
dc.contributor.author	Kartashov, Volodymyr
dc.contributor.author	Shapovalov, Serhii
dc.coverage.placename	Львів
dc.coverage.placename	Lviv
dc.date.accessioned	2025-03-13T07:53:56Z
dc.date.created	2024-02-27
dc.date.issued	2024-02-27
dc.description.abstract	A method for measuring wind speed by the trajectory of an acoustic package under the influence of air flows in the boundary atmospheric layer is developed. Model equations for measurement components of wind speed evaluation are ob- tained. For each of the components, an equation for the combined standard uncertainty is written, sensitivity coefficients are calcu- lated for input quantities, and uncertainty budgets are constructed. The last can serve as the basis for creating a software tool for measurement uncertainty evaluation.
dc.format.extent	25-28
dc.format.pages	4
dc.identifier.citation	Kartashov V. Measurement uncertainty evaluation of the wind speed in the atmospheric boundary layer / Kartashov Volodymyr, Shapovalov Serhii // Measuring Equipment and Metrology. — Lviv : Lviv Politechnic Publishing House, 2024. — Vol 85. — No 1. — P. 25–28.
dc.identifier.citationen	Kartashov V. Measurement uncertainty evaluation of the wind speed in the atmospheric boundary layer / Kartashov Volodymyr, Shapovalov Serhii // Measuring Equipment and Metrology. — Lviv : Lviv Politechnic Publishing House, 2024. — Vol 85. — No 1. — P. 25–28.
dc.identifier.doi	doi.org/10.23939/istcmtm2024.01.025
dc.identifier.uri	https://ena.lpnu.ua/handle/ntb/64132
dc.language.iso	en
dc.publisher	Видавництво Львівської політехніки
dc.publisher	Lviv Politechnic Publishing House
dc.relation.ispartof	Вимірювальна техніка та метрологія, 1 (85), 2024
dc.relation.ispartof	Measuring Equipment and Metrology, 1 (85), 2024
dc.relation.references	[1] J. Kaimal, D. Haugen, “An acoustic Doppler sounder for measuring wind profiles in the lower boundary layer”, Journal Applied Meteorology, 1977, No. 16, pp. 1298–1303. DOI: https://doi.org/10.1175/1520-0450(1977)016<1298: AADSFM>2.0.CO;2
dc.relation.references	[2] V. Leonidov, V. Semenets, “Analysis of methods for wind shear detection in the area of airports by data of atmosphere acoustic sounding”, Telecommunications and Radio Engineering, 2018, 77(4), pp. 363–372. DOI: 10.1615/TelecomRadEng.v77.i4.70
dc.relation.references	[3] J. Farlik, M. Kratky, J. Casar, V. Stary, “Multispectral Detection of Commercial Unmanned Aerial Vehicles”, Sensors, 2019, Vol. 19 (7), pp. 1517–1545. https://doi.org/10.3390/s19071517.
dc.relation.references	[4] V. Semenets, V. Leonidov, “Coordinate method for estimation of radial velocity in systems of the acoustic sounding of the atmosphere”, Telecommunications and Radio Engineering, 2017, 76(3), pp. 245–2518. DOI: 10.1615/TelecomRadEng.v76.i3.50.
dc.relation.references	[5] D. Beran, C. Little, B. Wilthmarth, “Acoustic Doppler measurements of vertical velocities in the atmosphere”, Nature, 1971, Iss. 5290, pp. 160–162. DOI: 10.1038/230160a0.
dc.relation.references	[6] G. Peters, C. Wamser, H. Hinzpeter, “Acoustic Doppler and Angle of Arrival Wind Detection and Comparisons with Direct Measurements at a 300 m Mast”, Journal of Applied Meteorology, Vol. 17, No. 8 (August 1978), pp. 1171–1178, https://www.jstor.org/stable/26178593.
dc.relation.references	[7] V. Kartashov, G. Sidorov, Y. Tolstykh, S. Shapovalov, “An acoustic method for measuring wind speed in the atmospheric boundary layer and a device for its implementation”, G01S 13/95, Patent No. 118817 UA, bul. No. 5, 11.03.2019. https://openarchive.nure.ua/handle/document/17401.
dc.relation.references	[8] V. Kartashov, G. Sidorov, Y. Tolstykh, S. Shapovalov, “Acoustic wind speed meter in the atmospheric boundary layer”, Radiotekhnika, 2019, No. 199, pp. 54–58. DOI: 10.30837/rt.2019.4.199.06
dc.relation.references	[9] Zakharov I. P., Neyezhmakov P. I., Botsiura O. A. Revision of GUM: the suggested algorithm for processing measurement results. 8th International Conference on Advanced Optoelectronics and Lasers (CAOL), 2019, Sozopol, Bulgaria, pp. 632–635. DOI: 10.1109/CAOL 46282.2019.9019421.
dc.relation.references	[10] I. Zakharov, O. Botsiura, “Error vs Uncertainty: mathematical, terminological and conceptual aspects of evaluating the characteristics of measurement accuracy”. XXX International Scientific Symposium “Metrology and Metrology Assurance” (MMA), Sozopol, Bulgaria, 2020, pp. 1–5. DOI:10.1109/MMA49863.2020.9254248.
dc.relation.referencesen	[1] J. Kaimal, D. Haugen, "An acoustic Doppler sounder for measuring wind profiles in the lower boundary layer", Journal Applied Meteorology, 1977, No. 16, pp. 1298–1303. DOI: https://doi.org/10.1175/1520-0450(1977)016<1298: AADSFM>2.0.CO;2
dc.relation.referencesen	[2] V. Leonidov, V. Semenets, "Analysis of methods for wind shear detection in the area of airports by data of atmosphere acoustic sounding", Telecommunications and Radio Engineering, 2018, 77(4), pp. 363–372. DOI: 10.1615/TelecomRadEng.v77.i4.70
dc.relation.referencesen	[3] J. Farlik, M. Kratky, J. Casar, V. Stary, "Multispectral Detection of Commercial Unmanned Aerial Vehicles", Sensors, 2019, Vol. 19 (7), pp. 1517–1545. https://doi.org/10.3390/s19071517.
dc.relation.referencesen	[4] V. Semenets, V. Leonidov, "Coordinate method for estimation of radial velocity in systems of the acoustic sounding of the atmosphere", Telecommunications and Radio Engineering, 2017, 76(3), pp. 245–2518. DOI: 10.1615/TelecomRadEng.v76.i3.50.
dc.relation.referencesen	[5] D. Beran, C. Little, B. Wilthmarth, "Acoustic Doppler measurements of vertical velocities in the atmosphere", Nature, 1971, Iss. 5290, pp. 160–162. DOI: 10.1038/230160a0.
dc.relation.referencesen	[6] G. Peters, C. Wamser, H. Hinzpeter, "Acoustic Doppler and Angle of Arrival Wind Detection and Comparisons with Direct Measurements at a 300 m Mast", Journal of Applied Meteorology, Vol. 17, No. 8 (August 1978), pp. 1171–1178, https://www.jstor.org/stable/26178593.
dc.relation.referencesen	[7] V. Kartashov, G. Sidorov, Y. Tolstykh, S. Shapovalov, "An acoustic method for measuring wind speed in the atmospheric boundary layer and a device for its implementation", G01S 13/95, Patent No. 118817 UA, bul. No. 5, 11.03.2019. https://openarchive.nure.ua/handle/document/17401.
dc.relation.referencesen	[8] V. Kartashov, G. Sidorov, Y. Tolstykh, S. Shapovalov, "Acoustic wind speed meter in the atmospheric boundary layer", Radiotekhnika, 2019, No. 199, pp. 54–58. DOI: 10.30837/rt.2019.4.199.06
dc.relation.referencesen	[9] Zakharov I. P., Neyezhmakov P. I., Botsiura O. A. Revision of GUM: the suggested algorithm for processing measurement results. 8th International Conference on Advanced Optoelectronics and Lasers (CAOL), 2019, Sozopol, Bulgaria, pp. 632–635. DOI: 10.1109/CAOL 46282.2019.9019421.
dc.relation.referencesen	[10] I. Zakharov, O. Botsiura, "Error vs Uncertainty: mathematical, terminological and conceptual aspects of evaluating the characteristics of measurement accuracy". XXX International Scientific Symposium "Metrology and Metrology Assurance" (MMA), Sozopol, Bulgaria, 2020, pp. 1–5. DOI:10.1109/MMA49863.2020.9254248.
dc.relation.uri	https://doi.org/10.1175/1520-0450(1977)016<1298:
dc.relation.uri	https://doi.org/10.3390/s19071517
dc.relation.uri	https://www.jstor.org/stable/26178593
dc.relation.uri	https://openarchive.nure.ua/handle/document/17401
dc.rights.holder	© Національний університет “Львівська політехніка”, 2024
dc.subject	wind speed
dc.subject	boundary atmospheric layer
dc.subject	model equation
dc.subject	measurement
dc.subject	uncertainty budget
dc.title	Measurement uncertainty evaluation of the wind speed in the atmospheric boundary layer
dc.type	Article

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Вимірювальна техніка та метрологія. – 2024. – Випуск 85, №1