A Systemic Study of Pattern Recognition System Using Feedback Neural Networks

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Abstract: The evolution of artificial intelligence has led to the developments of various smart applications such as the pattern recognition models. Pattern recognition techniques has as widely applied in many real life applications such character recognition, speech recognition, and bio-metric authentication as well person identification. In this paper, we report on the detailed design of pattern recognition system using Hopfield Feedback Neural Network (HFNN) with the least possible recognition error. As a case study, we have applied the proposed HFNN model to recognize the decimal digits 0 ? 9 where each image digit comprises a 12  10 pixels. The developed HFNN model has been efficiently used in recognizing the patterns with 20% random bit noise at maximum recognition accuracy. However, to assure the the least possible recognition error, we have trained our HFNN through the digit patterns’ perdition phase of 0% noisy patterns and the system was able to correctly predict all the patterns without any bit error. Finally, we have plotted all output patterns including the desired patterns, the training patterns, the 20% noisy patterns and recognized patterns, for comparison purposes and to gain more insights about the accuracy achieved by applying the proposed HFNN.

WSEAS Transactions on Computers, ISSN / E-ISSN: 1109-2750 / 2224-2872, Volume 19, 2020, Art. #16

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Qasem Abu Al-haija, Noor A. Jebril, "A Systemic Study of Pattern Recognition System Using Feedback Neural Networks," WSEAS Transactions on Computers, vol. 19, pp. 115-121, 2020, DOI:10.37394/23205.2020.19.16
Qasem Abu Al-haija, Noor A. Jebril. A Systemic Study of Pattern Recognition System Using Feedback Neural Networks. WSEAS Transactions on Computers. 2020;19:115-121. 10.37394/23205.2020.19.16
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