Journal article
Microgenetic optimization algorithm for optimal wavefront shaping
Applied optics (2004), Vol.54(6), pp.1485-1491
02/20/2015
PMID: 25968217
Abstract
One of the main limitations of utilizing optimal wavefront shaping in imaging and authentication applications is the slow speed of the optimization algorithms currently being used. To address this problem we develop a microgenetic optimization algorithm (mu GA) for optimal wavefront shaping. We test the abilities of the mu GA and make comparisons to previous algorithms (iterative and simple-genetic) by using each algorithm to optimize transmission through an opaque medium. From our experiments we find that the mu GA is faster than both the iterative and simple-genetic algorithms and that both genetic algorithms are more resistant to noise and sample decoherence than the iterative algorithm. (C) 2015 Optical Society of America
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Details
- Title
- Microgenetic optimization algorithm for optimal wavefront shaping
- Creators
- Benjamin R. Anderson - Washington State UniversityPatrick Price - Washington State UniversityRay Gunawidjaja - Washington State UniversityHergen Eilers - Washington State University Spokane
- Publication Details
- Applied optics (2004), Vol.54(6), pp.1485-1491
- Academic Unit
- Institute for Shock Physics
- Publisher
- Optical Soc Amer
- Number of pages
- 7
- Grant note
- HDTRA1-13-1-0050 / Defense Threat Reduction Agency; United States Department of Defense
- Identifiers
- 99900876937601842
- Language
- English
- Resource Type
- Journal article