Vol. 30, issue 07, article # 3
Copy the reference to clipboard
Abstract:
Analytical equations are derived for the useful signal reflected from the rough surface of an object and the noise signal scattered (in the single-scattering approximation) by aerosol, which is between the transmitting-receiving system and the object, in the approximation of Gaussian distributions of the field of a partially coherent laser beam, coefficient of diffusion reflection from the object, phase scattering function of the atmosphere, and the receiving aperture transmission function. The ratio of these signals is calculated as a function of the distance to the object.
Keywords:
location signal, scattering, rough surface, aerosol medium
References:
- Voroncov M.A., Shmal'gauzen V.I. Principy adaptivnoj optiki. M.: Nauka, 1985. 336 p.
- Lukin V.P. Atmosfernaja adaptivnaja optika. Novosibirsk: Nauka, 1986. 248 p.
- Banah V.A., Zhmylevskij V.V., Ignat'ev A.B., Morozov V.V., Smaliho I.N. Kompensacija iskazhenij volnovogo fronta chastichno kogerentnogo lazernogo puchka po obratnomu atmosfernomu rassejaniju // Optika atmosf. i okeana. 2011. V. 24, N 7. P. 549–554; Banakh V.A., Zhmylevskii V.V., Ignat’ev A.В., Morosov V.V., Smalikho I.N. Compensation for distortions of the wavefront of a partially coherent laser beam by atmospheric backscattering // Atmos. Ocean. Opt. 2011. V. 24, N 6. P. 515–520.
- Banah V.A., Zhmylevskij V.V., Ignat'ev A.B., Morozov V.V., Cvyk R.Sh., Shesternin A.N. Podavlenie nachal'nyh iskazhenij lazernogo puchka pri ispol'zovanii rassejannogo na jekrane izluchenija dlja upravlenija gibkim zerkalom // Optika atmosf. i okeana. 2013. V. 26, N 12. P. 1023–1028.
- Banah V.A., Zhmylevskij V.V., Ignat'ev A.B., Morozov V.V., Smaliho I.N., Cvyk R.Sh., Shesternin A.N. Upravlenie nachal'nym volnovym frontom opticheskogo puchka po signalu obratnogo atmosfernogo rassejanija pri nesoosnom prieme rassejannogo izluchenija // Optika atmosf. i okeana. 2014. V. 27, N 11. P. 962–969.
- Malashko Ja.I., Habibulin V.M. Osobennosti formirovanija signala upravlenija adaptivnoj sistemoj, ispol'zujushhego obratnoe rassejanie lazernogo izluchenija v atmosfere // Avtometrija. 2012. N 2. P. 112–118.
- Rytov S.M., Kravcov Ju.A., Tatarskij V.I. Vvedenie v statisticheskuju radiofiziku. Part II. Sluchajnye polja. M.: Nauka, 1978. 463 p.
- Zuev V.E., Kabanov M.V. Sovremennye problemy atmosfernoj optiki. V. 4. Optika atmosfernogo ajerozolja. L.: Gidrometeoizdat, 1987. 254 p.
- Gurvich A.S., Kulikov V.A. Diagnostika korotkozhivushhih ajerozol'nyh skoplenij pri pomoshhi samoletnyh lidarov // Optika atmosf. i okeana. 2016. V. 29, N 4. P 263–267; Gurvich A.C., Kulikov V.A. Airborne lidar sounding of short-lived aerosol clusters // Atmos. Ocean. Opt. 2016. V. 29, N 5. P. 410–414.
- Banah V.A., Razenkov I.A., Smaliho I.N. Ajerozol'nyj lidar dlja issledovanija usilenija obratnogo atmosfernogo rassejanija. I. Komp'juternoe modelirovanie // Optika atmosf. i okeana. 2015. V. 28, N 1. P. 5–11.
- Dudorov V.V., Vorontsov M.A., Lachinova S.L., Cunningham S. Numerical techniques for analysis of joint impact of atmospheric turbulence and aerosol scattering effects on imaging systems // Proc. SPIE. 2016. V. 9982. CID: 99820D.
- Krekov G.M., Kavkjanov S.I., Krekova M.M. Interpretacija signalov opticheskogo zondirovanija atmosfery. Novosibirsk: Nauka, 1987. 185 p.
- Veretennikov V.V. Geometricheskij faktor lidara v malouglovom priblizhenii // Optika atmosf. i okeana. 1998. V. 11, N 9. P. 1002–1007.
- Mezheris R. Lazernoe distancionnoe zondirovanie. M.: Mir, 1987. 550 p.