Inertial Stable Platforms for Precision Pointing of Optical Systems in Aerospace Applications
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Published:2023-08
Issue:8
Volume:61
Page:3234-3246
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ISSN:0001-1452
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Container-title:AIAA Journal
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language:en
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Short-container-title:AIAA Journal
Author:
Negro James,Griffin Steven F.,Kelchner Bryan L.,Beazel Victor
Abstract
Both airborne and space-based high-energy laser weapon systems present interesting challenges for precision line-of-sight control. Sub-microradian to microradian pointing accuracies are required against dynamic targets. In addition, “absolute” pointing and accurate inertial angular rate measurement are required to support mission requirements. This paper addresses these unique directed-energy weapon (DEW) precision-pointing requirements and their associated implementation alternatives in the context of strapdown and stable platform inertial reference technologies. The contributions of this paper consider the broader issues of DEW requirement drivers, integration of the stabilization system with the rest of the optical system, and design tradeoffs between stable platform and strapdown stabilization mechanizations. Both types of mechanisms are mounted to the gimbal of an imaging system using gryo sensors (gyros) and accelerometers to maintain a desired orientation in inertial space independent of the craft motion. Although both can include an optical reference that propagates through the optical path for optical alignment and jitter control, only in the stable platform is the optical reference stabilized. When combined on the same platform with a stabilized inertial measurement system and closed-loop stabilization with the optical reference, the mechanism becomes a stabilized inertial reference unit, which provides a stabilized optical reference to the electro-optical/laser pointing and jitter control systems.
Funder
Air Force Research Laboratory
Publisher
American Institute of Aeronautics and Astronautics (AIAA)
Subject
Aerospace Engineering
Reference4 articles.
1. GriffinS. F.KelchnerB. L. “Line-of-Sight Jitter for Advanced Tactical Laser,” AIAA Journal (Article in Advance). 10.2514/1.J062522
2. Image and video processing on FPGAs: An Exploration Framework for Real-Time Applications
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