Abstract
A system for optimizing the design of a MEMS mirror that meets a set of specified constraints has been developed to optimally serve optical fiber-based networking applications. An optimization algorithm based on genetic algorithms was implemented for the complex nature of the work. FEM verifications reveal that the optimizing results show a good agreement with the simulated result.
Publisher
Trans Tech Publications, Ltd.
Reference6 articles.
1. Sunish Mathews, Gerald Farrell and Yuliya Semenova, Experimental demonstration of an all-fiber variable optical attenuator based on liquid crystal infiltrated photonic crystal fiber, Microwave Opt Technol Lett, Vol. 53 (2011) No. 3, pp.539-543.
2. J.M. Walker, The future of MEMS in telecommunications networks, J. Micromech. Microeng, Vol. 10 (2000), pp. R1-R7.
3. Zeng Yun, Liu Wen, Chen Long, Luo Yong and Xiao Qingming, A 1 × 2 Variable Optical Power Splitter Development, 1566 J. Lightw. Technol., Vol. 24 (2006) No. 3, pp.1566-1570.
4. M. Melnyk, V. Teslyuk, A. Kernytskyy, M. Szermer, W. Zabierowski, P. Zajac. Subsystem For the Computer-Aided Thermo-actuator Design. Proceeding of the VIII-th International Conference MEMSTECH'2012 Perspective Technologies and Methods in MEMS Design, 18-21 April 2012, Polyana-Svalyava (Zakarpattya), Ukraine. pp.197-201.
5. M. Melnyk, P. Denysyuk, O. Vitovskyy, R. Golovatskyy. Automation of Graphical Dependencies Presentation in ANSYS. MEMSTECH'2010, 20-23 April 2010. - Polyana-Svalyava (Zakarpattya): Publishing House Vezha&Co. 2010. pp.233-234.