Noise-proof inversion of lidar equation

Yu. S. Balin; S. I. Kavkyanov; G. M. Krekov; I. A. Razenkov

doi:10.1364/OL.12.000013

Optics Letters
Vol. 12,
Issue 1,
pp. 13-15
(1987)
•https://doi.org/10.1364/OL.12.000013

Noise-proof inversion of lidar equation

Yu. S. Balin, S. I. Kavkyanov, G. M. Krekov, and I. A. Razenkov

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Yu. S. Balin, S. I. Kavkyanov, G. M. Krekov, and I. A. Razenkov, "Noise-proof inversion of lidar equation," Opt. Lett. 12, 13-15 (1987)

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Abstract

The reasons for instability of the lidar equation solution are investigated. An effective method of recovering the attenuation coefficient profile and transmittance of an optically thick atmosphere from the data of single-frequency laser sounding is suggested. The method enables one to obtain stable solutions of the lidar equation for sounding paths adjacent to the horizontal ones without the use of absolute calibration of the lidar. A comparison is made with the known algorithms of processing. The results of experimental tests of the method when sounding fogs in the boundary atmospheric layer are described.

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		σ̄ (km⁻¹)

Order Number of Measurement	σ_r₀^P (km⁻¹) (Measurement by Photometer)	Photometer Calibration	Calibrated by Eq. (17)	τ_{r₀r_m} [Calculated by Eq. (17)]
1	9.00	–	6.70	2.40
2	1.24	1.16	1.07	0.96
3	4.58	–	2.63	1.42
4	1.24	0.64	1.42	1.27
5	5.00	0.97	0.86	0.66
6	3.00	–	0.92	0.80
7	4.85	–	0.65	0.53
8	1.05	–	0.81	0.71
9	0.93	1.22	0.67	0.56
10	2.47	1.30	1.96	1.41
11	1.20	1.38	1.00	0.87
12	1.05	1.56	0.85	0.74
13	3.90	–	1.73	1.55
14	1.05	1.23	0.90	0.81
15	1.37	1.61	1.19	0.83

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Optics Letters