Comparison of a Neural Network Based on Fuzzy Flip-Flops and an MLP Robustness in Function Approximation

Authors

  • R. Lovassy
  • L. T. Kóczy
  • L. Gál

Keywords:

multilayer perceptrons based on fuzzy flip-flops, Bacterial Memetic Algorithm with Modified Operator Execution Order, fuzzy neural networks robustness to outliers

Abstract

In this paper two types of neural networks, namely the traditional tansig based neural networks and the multilayer perceptrons based on fuzzy flipflops (F3NN) trained by the Bacterial Memetic Algorithm with Modified Operator Execution Order (BMAM) are tested and compared on their robustness to test functions outliers. The robust design of the F3NN is presented, and the best suitable fuzzy neuron type is emphasized. As our major motivation in these investigations was to construct a technology for the creation of real hardware MLPs and for this reason the fuzzy flip-flop based F3NNs obviously offered much simpler and cheaper possibility for hardware implementation compared to a relatively complicated tansig type
neural network.

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Published

2011-01-15

How to Cite

Lovassy, R., Kóczy, L. T., & Gál, L. (2011). Comparison of a Neural Network Based on Fuzzy Flip-Flops and an MLP Robustness in Function Approximation. Acta Technica Jaurinensis, 4(1), pp. 23–35. Retrieved from https://acta.sze.hu/index.php/acta/article/view/168

Issue

Vol. 4 No. 1 (2011)

Section

Information Technology and Electrical Engineering