Application of Simulated Annealing for Color Pattern Recognition to Hybrid Optoelectronic Joint Transform Correlator

Authors

  • Chulung Chen Photonics Engineering Yuan Ze University
  • Yunghsin Hsu Department of Photonics Engineering, Yuan Ze University, Taiwan
  • Sihliang Fu Department of Photonics Engineering, Yuan Ze University, Taiwan
  • Weichih Liao Department of Photonics Engineering, Yuan Ze University, Taiwan
  • Chengsyuan You Department of Photonics Engineering, Yuan Ze University, Taiwan

DOI:

https://doi.org/10.14738/aivp.36.1742

Keywords:

Simulated annealing, Hybrid optoelectronic joint transform correlator, Color pattern recognition.

Abstract

For invariant pattern recognition, a method using simulated annealing algorithm is introduced. Near optimal quantized reference functions are designed to be displayed on liquid crystal spatial light modulators. Mach-Zehnder joint transform correlator is adopted as the system for recognition of color targets. From numerical results, the optoelectronic pattern recognition system with simulated annealing algorithm shows a promising capability.

Author Biography

Chulung Chen, Photonics Engineering Yuan Ze University

Professor
Photonics Engineering

References

(1) VanderLugt, A., Signal detection by complex spatial filtering. Information Theory, IEEE Transactions on, 1964. 10(2): p. 139-145.

(2) Weaver, C. S. and J. W. Goodman, A technique for optically convolving two functions. Applied Optics, 1966. 5: p. 1248-1249.

(3) Yu, F. T. S. and X. J. Lu, A real-time programmable joint-transform correlator. Optics Communications, 1984. 52: p. 10-16

(4) Lu, G., et al., Imentation of a non-zero-order joint-transform correlator by use of phase-shifting techniques. Applied Optics, 1997. 36: p. 470-483.

(5) Li, C., S. Yin and F. T. S. Yu, Nonzero-order joint transform correlator. Optical Engineering, 1998. 37: p. 58-65.

(6) Cheng, C. and H. Tu, Implementation of a nonzero-order joint transform correlator using interferometric technique. Optical Review, 2002. 9: p. 193-196.

(7) Wu, C., C. Chen, and J. Fang, Linearly constrained color pattern recognition with a non-zero order joint transform correlator. Optics Communications, 2002. 214: p. 65-75.

(8) Chen C., and J. Fang, Optimal synthesis of a real-valued template for synthetic aperture radar pattern recognition. Microwave and Optical Technology Letters, 2002. 32(2): p. 91-95.

(9) Kirkpatrick, S., et al., Optimization by simulated annealing. Science, 1983. 220: p. 671-680,

(10) Chen, C. and C. Chen, A Mach-Zehnder joint transform correlator with the simulated annealing algorithm for pattern recognition. Optics Communications, 2011. 284: p. 3946-3953.

(11) Fu, S., et al., Application of simulated annealing for color pattern recognition to the optoelectronic correlator with liquid crystal device. The 2012 IAENG International Conference on Imaging Engineering. p.683-688.

(12) Liu, C., et al., Pattern recognition by Mach-Zehnder joint transform correlator with binary power spectrum,” Proceedings SPIE 8559.

(13) Kumar, B. V. K. V. and L. Hassebrook, Performance measures for correlation filters. Applied Optics, 1990. 29: p. 2997-3006.

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Published

2016-01-01

How to Cite

Chen, C., Hsu, Y., Fu, S., Liao, W., & You, C. (2016). Application of Simulated Annealing for Color Pattern Recognition to Hybrid Optoelectronic Joint Transform Correlator. European Journal of Applied Sciences, 3(6), 13. https://doi.org/10.14738/aivp.36.1742

Issue

Vol. 3 No. 6 (2015): Advances in Image and Video Processing

Section

Articles