Deconvolution algorithms for improving the resolution of exponentially shaped pulse lidars

Luan L. Gurdev; Tanja N. Dreischuh; Dimitar V. Stoyanov

doi:10.1117/12.262946

27 December 1996 Deconvolution algorithms for improving the resolution of exponentially shaped pulse lidars

Luan L. Gurdev, Tanja N. Dreischuh, Dimitar V. Stoyanov

Proceedings Volume 3052, Ninth International School on Quantum Electronics: Lasers--Physics and Applications; (1996) https://doi.org/10.1117/12.262946
Event: Ninth International School on Quantum Electronics: Lasers: Physics and Applications, 1996, Varna, Bulgaria

Abstract

A type of exponentially-shaped sensing laser pulses is shown to lead to simple, accurate, and fast deconvolution algorithms for improving the lidar resolution. In this way the possibility is pointed out and illustrated to achieve accurate and fast investigation of the fine spatial structure of atmospheric and other objects by use of controlled, well-defined and reproducible pulses of the sensing radiation.

Citation Download Citation

Luan L. Gurdev, Tanja N. Dreischuh, and Dimitar V. Stoyanov "Deconvolution algorithms for improving the resolution of exponentially shaped pulse lidars", Proc. SPIE 3052, Ninth International School on Quantum Electronics: Lasers--Physics and Applications, (27 December 1996); https://doi.org/10.1117/12.262946

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