PITBUL: a physics-based modeling package for imaging and tracking of airborne targets for HEL applications including active illumination

Noah R. Van Zandt; Jack E. McCrae; Steven T. Fiorino

doi:10.1117/12.2016191

17 May 2013 PITBUL: a physics-based modeling package for imaging and tracking of airborne targets for HEL applications including active illumination

Noah R. Van Zandt, Jack E. McCrae, Steven T. Fiorino

Author Affiliations +

Proceedings Volume 8732, Atmospheric Propagation X; 87320H (2013) https://doi.org/10.1117/12.2016191
Event: SPIE Defense, Security, and Sensing, 2013, Baltimore, Maryland, United States

Abstract

Aimpoint acquisition and maintenance is critical to high energy laser (HEL) system performance. This study demonstrates the development by the AFIT/CDE of a physics-based modeling package, PITBUL, for tracking airborne targets for HEL applications, including atmospheric and sensor effects and active illumination, which is a focus of this work. High-resolution simulated imagery of the 3D airborne target in-flight as seen from the laser position is generated using the HELSEEM model, and includes solar illumination, laser illumination, and thermal emission. Both CW and pulsed laser illumination are modeled, including the effects of illuminator scintillation, atmospheric backscatter, and speckle, which are treated at a first-principles level. Realistic vertical profiles of molecular and aerosol absorption and scattering, as well as optical turbulence, are generated using AFIT/CDE’s Laser Environmental Effects Definition and Reference (LEEDR) model. The spatially and temporally varying effects of turbulence are calculated and applied via a fast-running wave optical method known as light tunneling. Sensor effects, for example blur, sampling, read-out noise, and random photon arrival, are applied to the imagery. Track algorithms, including centroid and Fitts correlation, as a part of a closed loop tracker are applied to the degraded imagery and scored, to provide an estimate of overall system performance. To gauge performance of a laser system against a UAV target, tracking results are presented as a function of signal to noise ratio. Additionally, validation efforts to date involving comparisons between simulated and experimental tracking of UAVs are presented.

Citation Download Citation

Noah R. Van Zandt, Jack E. McCrae, and Steven T. Fiorino "PITBUL: a physics-based modeling package for imaging and tracking of airborne targets for HEL applications including active illumination", Proc. SPIE 8732, Atmospheric Propagation X, 87320H (17 May 2013); https://doi.org/10.1117/12.2016191

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