Ross A. Conrad scite author profile

Ross A. Conrad

3Publications

2Citation Statements Received

2Citation Statements Given

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Affiliations

Massachusetts Institute of Technology, American Institute of Aeronautics and Astronautics

Publications

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Emulation of dynamic wavefront disturbances using a deformable mirror

et al. 2009

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Boundary-layer turbulence resulting from uneven airflow around window interfaces can impact airborne laser communications (lasercom). In the focal plane, these distortions can produce fast jitter and beam break-up, posing challenges for tracking and communications. We demonstrate an experimental emulator that reproduces aircraft aero-optical distortions using a deformable mirror. This boundary-layer emulator resides in a hardware testbed that experimentally mimics air-to-space lasercom links in a controlled, laboratory environment. The boundary-layer emulator operates in the 1.55-mum band and accurately recreates aero-optical distortions at a rate of 2 kilo-frames per second.

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Experimental emulation of air-to-space laser communication links

Roth

Murphy

Wilcox

et al. 2008

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Experimental comparison of tracking algorithms in the presence of aircraft boundary-layer distortions for emulated free-space laser communication links

et al. 2008

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1We report on experiments comparing different focal plane array (FPA) tracking algorithms for emulated laser communications links between an aircraft and spacecraft. The links include look-angle-dependent phase disturbances caused by boundary-layer turbulence replicated using a deformable mirror. Impairments from platform jitter, atmospheric scintillation, and propagation delay are also included. We study a hyper-hemispherical dome geometry that provides a large field-of-regard, but generates boundary-layer turbulence. Results from experiments comparing peak and centroid FPA tracking algorithms in various environments show that power delivered to the optical fiber varies with algorithm and look-angle. An improvement in steady-state fiber-coupled power of up to 1.0 dB can be achieved through appropriate choice of algorithm. In a real system, this advantage could be realized by implementing a tracking processor that dynamically changes its tracking algorithm depending on look angle and other parameters correlated to boundary-layer turbulence.

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Ross A. Conrad

Emulation of dynamic wavefront disturbances using a deformable mirror

Experimental emulation of air-to-space laser communication links

Experimental comparison of tracking algorithms in the presence of aircraft boundary-layer distortions for emulated free-space laser communication links

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