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Active-tracking scaling laws using the noise-equivalent angle due to speckle

Derek J. Burrell, Mark F. Spencer, Melissa Beason, Ronald G. Driggers

2023Journal of the Optical Society of America A12 citationsDOIOpen Access PDF

Abstract

It is well known to system engineers that speckle imposes a limitation on active-tracking performance, but scaling laws that quantify this limitation do not currently exist in the peer-reviewed literature. Additionally, existing models lack validation through either simulation or experimentation. With these points in mind, this paper formulates closed-form expressions that accurately predict the noise-equivalent angle due to speckle. The analysis separately treats both well-resolved and unresolved cases for circular and square apertures. When compared with the numerical results from wave-optics simulations, the analytical results show excellent agreement to a track-error limitation of (1/3) λ / D , where λ / D is the aperture diffraction angle. As a result, this paper creates validated scaling laws for system engineers that need to account for active-tracking performance.

Topics & Concepts

ScalingOpticsSpeckle patternTracking (education)Noise (video)Scaling lawAperture (computer memory)Computer scienceSpeckle noiseDiffractionSpeckle imagingPhysicsImage (mathematics)AcousticsMathematicsComputer visionGeometryPsychologyPedagogyAdaptive optics and wavefront sensingOptical measurement and interference techniquesAdvanced Optical Sensing Technologies
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