UDC 535.8
CSCSTI 29.31
Russian Classification of Professions by Education 03.03.02
Russian Library and Bibliographic Classification 223
Russian Trade and Bibliographic Classification 6135
BISAC SCI053000 Physics / Optics & Light
An experimental model of a video-digital measuring complex for estimating turbulence intensity has been developed. Software has been created that allows to significantly reduce the influence of vibration interference during optical measurements on long routes. The ultrasonic weather station AMK-03 is integrated into the measuring complex. Joint measurements of the structural characteristic of turbulent fluctuations of the refractive index have been carried out using the video-digital and acoustic methods. A high correlation of the integrated optical and local acoustic estimates of turbulence intensity along the route has been recorded. The results of the study confirm the reliability of the estimates obtained by the video-digital method and the prospects for using such measuring devices in many practical applications.
atmosphere, turbulence, measuring complex
1. Afanas'ev A.L., Banah V.A., Marakasov D.A. Monitoring vetrovoy obstanovki i indikaciya sputnyh sledov v rayone vzletno-posadochnoy polosy aeroporta passivnym opticheskim metodom. // Optika atmosfery i okeana. 2019. T. 32. № 05. S. 365–370. DOI:https://doi.org/10.15372/AOO20190504
2. Antoshkin L.V., Botygina N.N., Emaleev O.N., Lavrinova L.N., Lukin V.P. Differencial'nyy opticheskiy izmeritel' parametrov atmosfernoy turbulentnosti // Optika atmosfery i okeana. 1998. T. 11. № 11. S. 1219-1223.
3. Marakasov D.A., Afanas'ev A.L., Gordeev E.V. Ocenka parametrov inercionnogo intervala turbulentnogo spektra temperatury iz vremennyh ryadov dannyh akusticheskih meteostanciy // Optika atmosfery i okeana. 2024. T. 37. № 03. S. 254–261. DOI:https://doi.org/10.15372/AOO20240309.
