BibTex RIS Cite

Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis

Year 2013, Volume: 1 Issue: 2, 29 - 33, 19.06.2013

Abstract

In this work, feasible design is presented as an optimization problem for an optical directional coupler and designed by using particle swarm optimization (PSO). Principally, identical, weakly guiding, slab and lossless optical waveguides are supposed to be weakly coupled to each other. The power loss and the propagation constant change of TE and TM modes in mutual coupling of two cladded and uncladded optical waveguides are analyzed by the modal analysis and PSO. PSO design of an optical directional coupler is an optimization problem consisting of input variables and design parameters within a fitness function (FF). FF is the power loss of TE and TM modes. PSO should minimize the FF and obtain design criteria. The analysis shows that the results, by using PSO are compatible with modal analysis results. The availability of the optical coupler design by PSO has been tested successfully.

References

  • Kennedy J, Eberhart R. Particle swarm optimization. IEEE International Conference on Neural Networks 1995;1942-1948.
  • Hu X, Eberhart R, Shi Y. Engineering optimization with particle swarm. IEEE Swarm Intelligence Symposium 2003; Indianapolis, USA.
  • Zhu X, Shen J, Wang Y, Guan J, Sun X, Wang X. The reconstruction of particle size distributions from dynamic light scattering data using particle swarm optimization techniques with different objective functions. Optics and Laser Technology 2011; 43(7): 1128-1137.
  • Banerjeea PK, Datta AK. A preferential digital–optical correlator optimized by particle swarm technique for multi-class face recognition. Optics & Laser Technology 2013; 50: 33-42.
  • Louisell WH. Coupled mode and parametric electronics, John Wiley & Sons 1960, New York.
  • Yuen WP. On the different formulations of the coupled mode theory for parallel dielectric waveguides. Lightwave Technology 1994; 12(1): 82-85.
  • Cheng DK. Field and wave electromagnetics, Addison-Wesley 1983, Massachusetts.
  • Cherin AH, An introduction to optical fibers, Mcgraw Hill 1983, New York.
  • Snyder AW, Love JD. Optical waveguide theory, J.W. Arrowsmith 1983, Bristol.
  • Marcuse D. Theory of Dielectric Optical waveguides, Academic Press 1974, New York.
  • Snitzer E, Cylindrical Dielectric Waveguide Modes, Journal of The Optical Society of America 1961: 51(5): 491-498.
  • Marcuse D, Pulse propagation in multimode dielectric waveguides”, The Bell System Techinical 1972; 51(6):1199-1232.
  • Snyder AW, Young WR. Modes of optical waveguides, Journal of the Optical Society of America 1978, 68(3), 297-309.
  • Ozkan-Bakbak P, Optical coupler design, M.Sc. Thesis 2008, Yıldız Technical University, İstanbul.
Year 2013, Volume: 1 Issue: 2, 29 - 33, 19.06.2013

Abstract

References

  • Kennedy J, Eberhart R. Particle swarm optimization. IEEE International Conference on Neural Networks 1995;1942-1948.
  • Hu X, Eberhart R, Shi Y. Engineering optimization with particle swarm. IEEE Swarm Intelligence Symposium 2003; Indianapolis, USA.
  • Zhu X, Shen J, Wang Y, Guan J, Sun X, Wang X. The reconstruction of particle size distributions from dynamic light scattering data using particle swarm optimization techniques with different objective functions. Optics and Laser Technology 2011; 43(7): 1128-1137.
  • Banerjeea PK, Datta AK. A preferential digital–optical correlator optimized by particle swarm technique for multi-class face recognition. Optics & Laser Technology 2013; 50: 33-42.
  • Louisell WH. Coupled mode and parametric electronics, John Wiley & Sons 1960, New York.
  • Yuen WP. On the different formulations of the coupled mode theory for parallel dielectric waveguides. Lightwave Technology 1994; 12(1): 82-85.
  • Cheng DK. Field and wave electromagnetics, Addison-Wesley 1983, Massachusetts.
  • Cherin AH, An introduction to optical fibers, Mcgraw Hill 1983, New York.
  • Snyder AW, Love JD. Optical waveguide theory, J.W. Arrowsmith 1983, Bristol.
  • Marcuse D. Theory of Dielectric Optical waveguides, Academic Press 1974, New York.
  • Snitzer E, Cylindrical Dielectric Waveguide Modes, Journal of The Optical Society of America 1961: 51(5): 491-498.
  • Marcuse D, Pulse propagation in multimode dielectric waveguides”, The Bell System Techinical 1972; 51(6):1199-1232.
  • Snyder AW, Young WR. Modes of optical waveguides, Journal of the Optical Society of America 1978, 68(3), 297-309.
  • Ozkan-Bakbak P, Optical coupler design, M.Sc. Thesis 2008, Yıldız Technical University, İstanbul.
There are 14 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Pınar Özkan-bakbak

Publication Date June 19, 2013
Published in Issue Year 2013 Volume: 1 Issue: 2

Cite

APA Özkan-bakbak, P. (2013). Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis. International Journal of Intelligent Systems and Applications in Engineering, 1(2), 29-33. https://doi.org/10.18201/ijisae.105782
AMA Özkan-bakbak P. Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis. International Journal of Intelligent Systems and Applications in Engineering. June 2013;1(2):29-33. doi:10.18201/ijisae.105782
Chicago Özkan-bakbak, Pınar. “Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis”. International Journal of Intelligent Systems and Applications in Engineering 1, no. 2 (June 2013): 29-33. https://doi.org/10.18201/ijisae.105782.
EndNote Özkan-bakbak P (June 1, 2013) Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis. International Journal of Intelligent Systems and Applications in Engineering 1 2 29–33.
IEEE P. Özkan-bakbak, “Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis”, International Journal of Intelligent Systems and Applications in Engineering, vol. 1, no. 2, pp. 29–33, 2013, doi: 10.18201/ijisae.105782.
ISNAD Özkan-bakbak, Pınar. “Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis”. International Journal of Intelligent Systems and Applications in Engineering 1/2 (June 2013), 29-33. https://doi.org/10.18201/ijisae.105782.
JAMA Özkan-bakbak P. Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis. International Journal of Intelligent Systems and Applications in Engineering. 2013;1:29–33.
MLA Özkan-bakbak, Pınar. “Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis”. International Journal of Intelligent Systems and Applications in Engineering, vol. 1, no. 2, 2013, pp. 29-33, doi:10.18201/ijisae.105782.
Vancouver Özkan-bakbak P. Particle Swarm Optimization Design of Optical Directional Coupler Based on Power Loss Analysis. International Journal of Intelligent Systems and Applications in Engineering. 2013;1(2):29-33.