Digital Holograms Obtained Using Advanced Evolution Strategies
Citation
AYDIN, Musa, Berna KİRAZ, Alper KİRAZ & Buket DOĞAN. "Digital Holograms Obtained Using Advanced Evolution Strategies". 6th International Conference on Control Engineering & Information Technology (CEIT), 2018.Abstract
By changing the amplitude and phase of
optical beams digital holography allows for the generation
of desired target images at the focus of a lens. It is an
important research challenge to determine the digital
hologram (especially the phase function) required to
generate a specific target image in a fast and precise
manner, especially in dynamically changing environments.
In this study, the digital hologram required to obtain a
certain target image was calculated with two different
algorithms and another hybrid approach combining both
algorithms, and the obtained results were compared.
Gerchberg Saxton (GS) and CMA-ES (Covariance Matrix
Adaptation Evolution Strategy) algorithms were used
separately and in a hybrid manner. GS algorithm is a wellestablished
inverse Fourier Transformation based
algorithm for digital hologram calculation. Our study
shows the suitability of the CMA-ES algorithm for this
problem. Although the CMA-ES algorithm requires a high
number of iterations and results in a slower
implementation, it provides a more general approach than
the GS algorithm and it allows for the use of different fitness
functions that are not necessarily based on Fourier
Transformation. In future studies, it is planned to
parallelize the execution of the CMA-ES algorithm using
GPUs and use advanced versions of the CMA-ES algorithm
to improve the performance in higher dimensional
problems.