Optimal design of wavefront sensors for adaptive optical systems: part 2, optimization of sensor subaperture locations

Mark E. Furber; David C. Jordan

doi:10.1117/1.601395

1 July 1997 Optimal design of wavefront sensors for adaptive optical systems: part 2, optimization of sensor subaperture locations

Mark E. Furber, David C. Jordan

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Optical Engineering, Vol. 36, Issue 7, (July 1997). https://doi.org/10.1117/1.601395

The problem of determining sensor subaperture locations for a shearing interferometer wavefront sensor that maximize controllability and observability is examined and shown to be an intractable optimization problem. A practical algorithm, the sequential backward selection algorithm, is used to determine a suboptimal sensor configuration. Monte Carlo studies show that the algorithm determines a nearly optimal and entirely acceptable configuration in a reasonable time.

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Mark E. Furber and David C. Jordan "Optimal design of wavefront sensors for adaptive optical systems: part 2, optimization of sensor subaperture locations," Optical Engineering 36(7), (1 July 1997). https://doi.org/10.1117/1.601395

Published: 1 July 1997

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