Improvement of spatial selectivity and stability against background radiation as preferred means of VIS and NIR biaxial lidar efficiency increase

Ravil R. Agishev

doi:10.1117/12.275154

26 May 1997 Improvement of spatial selectivity and stability against background radiation as preferred means of VIS and NIR biaxial lidar efficiency increase

Ravil R. Agishev

Author Affiliations +

Proceedings Volume 3104, Lidar Atmospheric Monitoring; (1997) https://doi.org/10.1117/12.275154
Event: Environmental Sensing III, 1997, Munich, Germany

Abstract

A complex of theoretical and experimental investigations and numerical modeling for working out of effective methods and means of atmosphere monitoring on the basis of their spatial selectivity improvement and stability-against-background- radiation (SABR) rising has been executed. Designing principles of the SABR atmospheric-optical-information- processing (AOIP) systems have been formulated. They are based on: (1) an introduced spatial-angular-efficiency criterion; (2) the results of investigations and developments of wide- dynamic-range and wide-range-of-tolerable-background-radiation VIS&NIR optical receivers; (3) forming of specifications for electro-optical means parameters on the basis of stability- against-background radiation analysis of receiving signals processing algorithms used.

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Ravil R. Agishev "Improvement of spatial selectivity and stability against background radiation as preferred means of VIS and NIR biaxial lidar efficiency increase", Proc. SPIE 3104, Lidar Atmospheric Monitoring, (26 May 1997); https://doi.org/10.1117/12.275154

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