OPTOELECTRONIC IMPLEMENTATION OF ARTIFICIALNEURAL NETWORK: PERCEPTRON LEARNING RULE AND MCATEGORYCLASSIFIER

Article Sidebar

pdf
Published: Dec 1, 2007
DOI: https://doi.org/10.31026/j.eng.2007.04.03

Main Article Content

M. S. Abdul-Wahab
Hanan A. Reda Akkar
O. Q. J. Al-Thahab

Abstract

Single neuron perceptron is designed as a classifier of two different classes using the hardlimiter activation function (i.e. in the absence of light, and presence of light). An example is designed and tested so that the proposed circuit learned different categories and then used as a
classifier for two different classes because of the use of single neuron. Additional electronic circuits were used for computation processes. The Computer simulation results indicate stable solution that compares with theoretical results. Single layer perceptron M-category classifier is designed as a classifier for more than two classes. An example is designed and tested for the verification. The example learns after (5) iterations. Computer simulation results indicate stable solution that compares favorably with theoretical results.

Article Details

How to Cite
“OPTOELECTRONIC IMPLEMENTATION OF ARTIFICIALNEURAL NETWORK: PERCEPTRON LEARNING RULE AND MCATEGORYCLASSIFIER” (2007) Journal of Engineering, 13(04), pp. 1870–1887. doi:10.31026/j.eng.2007.04.03.
Issue
Vol. 13 No. 04 (2007): journal of engineering
Section
Articles
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

 
 

How to Cite

“OPTOELECTRONIC IMPLEMENTATION OF ARTIFICIALNEURAL NETWORK: PERCEPTRON LEARNING RULE AND MCATEGORYCLASSIFIER” (2007) Journal of Engineering, 13(04), pp. 1870–1887. doi:10.31026/j.eng.2007.04.03.
Crossref
Scopus
Google Scholar
Europe PMC

Publication Dates

References

B.M Wilamowski, J. Binfet, and M. O. Kaynak, VLSI Implementations of Neural Networks, www.com/ Goggle/ Neural Networks VLSI Implementation, 2000.

C. P. Chew, R. W. Newcomb, and J. D. Yuh, VLSI Circuits For Optoelectronic Neural Network Weight Setting, Microsystems Laboratory, Electrical Engineering Department, University of Maryland, IEEE, pp. 751-754, 1993.

J.C. Principe, D. Xu, Q. Zhao, and J. W. Fisher III, Learning From Examples with Information Theoretic Criteria, University of Florida Gainesville, www.com/ Goggle/ Neural Network Learning rules, 2000.

P. E. Keller and A. F. Gmitro, Design of Fixed Planer Holographic Interconnects for Optical Neural Networks, Applied Optics Vol. 31, pp. 5517-5526, 10 September 1992.

P. E. Keller and A. F. Gmitro, Operational Parameters of An Optoelectronic Neural Net Employing Fixed Planer Holographic Interconnections, the World Congress of Neural Network, July 1993 (WCNN 93).

P. Moerland, E. Fiesler, and I. Saxena, Incorporating LCLV Non- Linearities in

Optical Multilayer Neural Networks, Applied Optics VoL. 35, No. 26, pp. 1-10,

September 1996.